COMPOUNDS AND METHODS FOR REDUCING PMP22 EXPRESSION

Abstract

Provided are compounds, methods, and pharmaceutical compositions for reducing the amount or activity of PMP22 RNA in a cell or animal, and in certain instances reducing the amount of PMP22 protein in a cell or animal. Such compounds, methods, and pharmaceutical compositions are useful to ameliorate at least one symptom or hallmark of a neurodegenerative disease. Such symptoms and hallmarks include demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands. Such neurodegenerative diseases include Charcot-Marie-Tooth disease.

Description

SEQUENCE LISTING

The present application is being filed along with a Sequence Listing in electronic format. The Sequence Listing is provided as a file entitled BIOL0347WOSEQ_ST25.txt, created on Dec. 19, 2019, which is 1.10 MB in size. The information in the electronic format of the sequence listing is incorporated herein by reference in its entirety.

FIELD

Provided are compounds, methods, and pharmaceutical compositions for reducing the amount or activity of PMP22 RNA in a cell or animal, and in certain instances reducing the amount of PMP22 protein in a cell or animal. Such compounds, methods, and pharmaceutical compositions are useful to ameliorate at least one symptom or hallmark of a neurodegenerative disease. Such symptoms and hallmarks include demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands. Such neurodegenerative diseases include Charcot-Marie-Tooth disease, Charcot-Marie-Tooth disease type 1A, Charcot-Marie-Tooth disease type 1E, and Dejerine Sottas Syndrome.

BACKGROUND

Charcot-Marie-Tooth disease (CMT) is one of the most common inherited neurological disorders, affecting approximately 1 in 2,500 people in the United States. CMT, also known as hereditary motor and sensory neuropathy (HMSN) or peroneal muscular atrophy, comprises a group of disorders that affect peripheral nerves. Charcot-Marie-Tooth disease type 1A (CMT1A) is an inherited neurodegenerative disease caused by duplication of the PMP22 gene. It is the most common inherited peripheral neuropathy and is characterized by progressive distal motor weakness. Symptoms are caused by progressive demyelination of peripheral neurons, followed by axonal dysfunction and/or degeneration (Krajewski, et. al, “Neurological dysfunction and axonal degeneration in Charcot-Marie-Tooth disease type 1A”, Brain, 2000, 123(Pt.7):1516-1527). Symptoms include weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands. Additionally, myelin deficits can be detected by electrophysiology, and often appear years before symptom onset (Kim, et al., “Comparison between Clinical Disabilities and Electrophysiological Values in Charcot-Marie-Tooth 1A Patients with PMP22 Duplication”, J. Clin. Neuro., 2012, 8(2):139-145). Charcot-Marie-Tooth disease type 1E (CMT1E) and Dejerine-Sottas Syndrome are inherited neurodegenerative diseases caused by mutations in the PMP22 gene. Symptoms include impaired motor development, distal muscle weakness, foot deformities, and a loss of deep tendon reflex (Li, et al., “The PMP22 Gene and Its Related Diseases”, Mol. Neurobiol., 2013, 47(2): 673-698).

Currently there is a lack of acceptable options for treating neurodegenerative diseases such as CMT disease, CMT1A, CMT1E, and Dejerine-Sottas Syndrome. It is therefore an object herein to provide compounds, methods, and pharmaceutical compositions for the treatment of such diseases.

SUMMARY OF THE INVENTION

Provided herein are compounds, methods and pharmaceutical compositions for reducing the amount or activity of PMP22 RNA, and in certain embodiments reducing the amount of PMP22 protein in a cell or animal. In certain embodiments, the animal has a neurodegenerative disease. In certain embodiments, the animal has Charcot-Marie-Tooth disease. In certain embodiments, the animal has Charcot-Marie-Tooth disease type 1A (CMT1A). In certain embodiments, the animal has Charcot-Marie-Tooth disease type 1E (CMT1E). In certain embodiments, the animal has Dejerine-Sottas Syndrome. In certain embodiments, compounds useful for reducing expression of PMP22 RNA are oligomeric compounds. In certain embodiments, compounds useful for reducing expression of PMP22 RNA are modified oligonucleotides.

Also provided are methods useful for ameliorating at least one symptom or hallmark of a neurodegenerative disease. In certain embodiments, the neurodegenerative disease is Charcot-Marie-Tooth disease. In certain embodiments, the neurodegenerative disease is CMT1A. In certain embodiments, the neurodegenerative disease is CMT1E. In certain embodiments, the neurodegenerative disease is Dejerine-Sottas Syndrome. In certain embodiments, the symptom or hallmark includes demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive. Herein, the use of the singular includes the plural unless specifically stated otherwise. As used herein, the use of “or” means “and/or” unless stated otherwise. Furthermore, the use of the term “including” as well as other forms, such as “includes” and “included”, is not limiting. Also, terms such as “element” or “component” encompass both elements and components comprising one unit and elements and components that comprise more than one subunit, unless specifically stated otherwise.

The section headings used herein are for organizational purposes only and are not to be construed as limiting the subject matter described. All documents, or portions of documents, cited in this application, including, but not limited to, patents, patent applications, articles, books, and treatises, are hereby expressly incorporated-by-reference for the portions of the document discussed herein, as well as in their entirety.

Definitions

Unless specific definitions are provided, the nomenclature used in connection with, and the procedures and techniques of, analytical chemistry, synthetic organic chemistry, and medicinal and pharmaceutical chemistry described herein are those well-known and commonly used in the art. Where permitted, all patents, applications, published applications and other publications and other data referred to throughout in the disclosure are incorporated by reference herein in their entirety.

Unless otherwise indicated, the following terms have the following meanings:

Definitions

As used herein, “2′-deoxynucleoside” means a nucleoside comprising a 2′-H(H) deoxyribosyl sugar moiety. In certain embodiments, a 2′-deoxynucleoside is a 2′-β-D-deoxynucleoside and comprises a 2′-β-D-deoxyribosyl sugar moiety, which has the β-D configuration as found in naturally occurring deoxyribonucleic acids (DNA). In certain embodiments, a 2′-deoxynucleoside or a nucleoside comprising an unmodified 2′-deoxyribosyl sugar moiety may comprise a modified nucleobase or may comprise an RNA nucleobase (uracil).

As used herein, “2′-substituted nucleoside” means a nucleoside comprising a 2′-substituted sugar moiety. As used herein, “2′-substituted” in reference to a sugar moiety means a sugar moiety comprising at least one 2′-substituent group other than H or OH.

As used herein, “5-methyl cytosine” means a cytosine modified with a methyl group attached to the 5 position. A 5-methyl cytosine is a modified nucleobase.

As used herein, “administering” means providing a pharmaceutical agent to an animal.

As used herein, “animal” means a human or non-human animal.

As used herein, “antisense activity” means any detectable and/or measurable change attributable to the hybridization of an antisense compound to its target nucleic acid. In certain embodiments, antisense activity is a decrease in the amount or expression of a target nucleic acid or protein encoded by such target nucleic acid compared to target nucleic acid levels or target protein levels in the absence of the antisense compound.

As used herein, “antisense compound” means an oligomeric compound capable of achieving at least one antisense activity.

As used herein, “ameliorate” in reference to a treatment means improvement in at least one symptom relative to the same symptom in the absence of the treatment. In certain embodiments, amelioration is the reduction in the severity or frequency of a symptom or the delayed onset or slowing of progression in the severity or frequency of a symptom. In certain embodiments, the symptom or hallmark is demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands.

As used herein, “bicyclic nucleoside” or “BNA” means a nucleoside comprising a bicyclic sugar moiety.

As used herein, “bicyclic sugar” or “bicyclic sugar moiety” means a modified sugar moiety comprising two rings, wherein the second ring is formed via a bridge connecting two of the atoms in the first ring thereby forming a bicyclic structure. In certain embodiments, the first ring of the bicyclic sugar moiety is a furanosyl moiety. In certain embodiments, the bicyclic sugar moiety does not comprise a furanosyl moiety.

As used herein, “cleavable moiety” means a bond or group of atoms that is cleaved under physiological conditions, for example, inside a cell, an animal, or a human.

As used herein, “complementary” in reference to an oligonucleotide means that at least 70% of the nucleobases of the oligonucleotide or one or more regions thereof and the nucleobases of another nucleic acid or one or more regions thereof are capable of hydrogen bonding with one another when the nucleobase sequence of the oligonucleotide and the other nucleic acid are aligned in opposing directions. Complementary nucleobases means nucleobases that are capable of forming hydrogen bonds with one another. Complementary nucleobase pairs include adenine (A) and thymine (T), adenine (A) and uracil (U), cytosine (C) and guanine (G), 5-methyl cytosine (mC) and guanine (G). Complementary oligonucleotides and/or nucleic acids need not have nucleobase complementarity at each nucleoside. Rather, some mismatches are tolerated. As used herein, “fully complementary” or “100% complementary” in reference to oligonucleotides means that oligonucleotides are complementary to another oligonucleotide or nucleic acid at each nucleoside of the oligonucleotide.

As used herein, “conjugate group” means a group of atoms that is directly attached to an oligonucleotide. Conjugate groups include a conjugate moiety and a conjugate linker that attaches the conjugate moiety to the oligonucleotide.

As used herein, “conjugate linker” means a single bond or a group of atoms comprising at least one bond that connects a conjugate moiety to an oligonucleotide.

As used herein, “conjugate moiety” means a group of atoms that is attached to an oligonucleotide via a conjugate linker.

As used herein, “contiguous” in the context of an oligonucleotide refers to nucleosides, nucleobases, sugar moieties, or internucleoside linkages that are immediately adjacent to each other. For example, “contiguous nucleobases” means nucleobases that are immediately adjacent to each other in a sequence.

As used herein, “constrained ethyl” or “cEt” or “cEt modified sugar moiety” means a β-D ribosyl bicyclic sugar moiety wherein the second ring of the bicyclic sugar is formed via a bridge connecting the 4′-carbon and the 2′-carbon of the β-D ribosyl sugar moiety, wherein the bridge has the formula 4′-CH(CH₃)—O-2′, and wherein the methyl group of the bridge is in the S configuration.

As used herein, “cEt nucleoside” means a nucleoside comprising a cEt modified sugar moiety.

As used herein, “chirally enriched population” means a plurality of molecules of identical molecular formula, wherein the number or percentage of molecules within the population that contain a particular stereochemical configuration at a particular chiral center is greater than the number or percentage of molecules expected to contain the same particular stereochemical configuration at the same particular chiral center within the population if the particular chiral center were stereorandom. Chirally enriched populations of molecules having multiple chiral centers within each molecule may contain one or more stereorandom chiral centers. In certain embodiments, the molecules are modified oligonucleotides. In certain embodiments, the molecules are compounds comprising modified oligonucleotides.

As used herein, “gapmer” means a modified oligonucleotide comprising an internal region having a plurality of nucleosides that support RNase H cleavage positioned between external regions having one or more nucleosides, wherein the nucleosides comprising the internal region are chemically distinct from the nucleoside or nucleosides comprising the external regions. The internal region may be referred to as the “gap” and the external regions may be referred to as the “wings.” Unless otherwise indicated, “gapmer” refers to a sugar motif. Unless otherwise indicated, the sugar moiety of each nucleosides of the gap is a 2′-β-D-deoxyribosyl sugar moiety. Thus, the term “cEt gapmer” indicates a gapmer having a gap comprising 2′-β-D-deoxynucleosides and wings comprising cEt nucleosides. Unless otherwise indicated, a cEt gapmer may comprise one or more modified internucleoside linkages and/or modified nucleobases and such modifications do not necessarily follow the gapmer pattern of the sugar modifications.

As used herein, “hotspot region” is a range of nucleobases on a target nucleic acid that is amenable to oligomeric compound-mediated reduction of the amount or activity of the target nucleic acid.

As used herein, “hybridization” means the pairing or annealing of complementary oligonucleotides and/or nucleic acids. While not limited to a particular mechanism, the most common mechanism of hybridization involves hydrogen bonding, which may be Watson-Crick, Hoogsteen or reversed Hoogsteen hydrogen bonding, between complementary nucleobases.

As used herein, the term “internucleoside linkage” is the covalent linkage between adjacent nucleosides in an oligonucleotide. As used herein “modified internucleoside linkage” means any internucleoside linkage other than a phosphodiester internucleoside linkage. “Phosphorothioate internucleoside linkage” is a modified internucleoside linkage in which one of the non-bridging oxygen atoms of a phosphodiester internucleoside linkage is replaced with a sulfur atom.

As used herein, “linker-nucleoside” means a nucleoside that links, either directly or indirectly, an oligonucleotide to a conjugate moiety. Linker-nucleosides are located within the conjugate linker of an oligomeric compound. Linker-nucleosides are not considered part of the oligonucleotide portion of an oligomeric compound even if they are contiguous with the oligonucleotide.

As used herein, “non-bicyclic modified sugar moiety” means a modified sugar moiety that comprises a modification, such as a substituent, that does not form a bridge between two atoms of the sugar to form a second ring.

As used herein, “mismatch” or “non-complementary” means a nucleobase of a first oligonucleotide that is not complementary with the corresponding nucleobase of a second oligonucleotide or target nucleic acid when the first and second oligonucleotide are aligned.

As used herein, “MOE” means methoxyethyl. “2′-MOE” or “2′-MOE modified sugar” means a 2′-OCH₂CH₂OCH₃ group in place of the 2′—OH group of a ribosyl sugar moiety. As used herein, “2′-MOE nucleoside” means a nucleoside comprising a 2′-MOE sugar moiety.

As used herein, “motif” means the pattern of and/or modified sugar moieties, nucleobases, and/or internucleoside linkages, in an oligonucleotide.

As used herein, “neurodegenerative disease” means a condition marked by progressive loss of function or structure, including loss of motor function and death of neurons. In certain embodiments, the neurodegenerative disease is Charcot-Marie-Tooth disease. In certain embodiments, the neurodegenerative disease is CMT1A. In certain embodiments, the neurodegenerative disease is CMT1E. In certain embodiments, the disease is Dejerine-Sottas Syndrome.

As used herein, “nucleobase” means an unmodified nucleobase or a modified nucleobase. As used herein an “unmodified nucleobase” is adenine (A), thymine (T), cytosine (C), uracil (U), or guanine (G). As used herein, a “modified nucleobase” is a group of atoms other than unmodified A, T, C, U, or G capable of pairing with at least one unmodified nucleobase. A “5-methyl cytosine” is a modified nucleobase. A universal base is a modified nucleobase that can pair with any one of the five unmodified nucleobases. As used herein, “nucleobase sequence” means the order of contiguous nucleobases in a nucleic acid or oligonucleotide independent of any sugar or internucleoside linkage modification.

As used herein, “nucleoside” means a compound comprising a nucleobase and a sugar moiety. The nucleobase and sugar moiety are each, independently, unmodified or modified. As used herein, “modified nucleoside” means a nucleoside comprising a modified nucleobase and/or a modified sugar moiety. Modified nucleosides include abasic nucleosides, which lack a nucleobase. “Linked nucleosides” are nucleosides that are connected in a contiguous sequence (i.e., no additional nucleosides are presented between those that are linked).

As used herein, “oligomeric compound” means an oligonucleotide and optionally one or more additional features, such as a conjugate group or terminal group. An oligomeric compound may be paired with a second oligomeric compound that is complementary to the first oligomeric compound or may be unpaired. A “singled-stranded oligomeric compound” is an unpaired oligomeric compound. The term “oligomeric duplex” means a duplex formed by two oligomeric compounds having complementary nucleobase sequences. Each oligomeric compound of an oligomeric duplex may be referred to as a “duplexed oligomeric compound.”

As used herein, “oligonucleotide” means a strand of linked nucleosides connected via internucleoside linkages, wherein each nucleoside and internucleoside linkage may be modified or unmodified. Unless otherwise indicated, oligonucleotides consist of 8-50 linked nucleosides. As used herein, “modified oligonucleotide” means an oligonucleotide, wherein at least one nucleoside or internucleoside linkage is modified. As used herein, “unmodified oligonucleotide” means an oligonucleotide that does not comprise any nucleoside modifications or internucleoside modifications.

As used herein, “pharmaceutically acceptable carrier or diluent” means any substance suitable for use in administering to an animal. Certain such carriers enable pharmaceutical compositions to be formulated as, for example, tablets, pills, dragees, capsules, liquids, gels, syrups, slurries, suspension and lozenges for the oral ingestion by a subject. In certain embodiments, a pharmaceutically acceptable carrier or diluent is sterile water, sterile saline, sterile buffer solution or sterile artificial cerebrospinal fluid.

As used herein “pharmaceutically acceptable salts” means physiologically and pharmaceutically acceptable salts of compounds. Pharmaceutically acceptable salts retain the desired biological activity of the parent compound and do not impart undesired toxicological effects thereto.

As used herein “pharmaceutical composition” means a mixture of substances suitable for administering to a subject. For example, a pharmaceutical composition may comprise an oligomeric compound and a sterile aqueous solution. In certain embodiments, a pharmaceutical composition shows activity in free uptake assay in certain cell lines.

As used herein “prodrug” means a therapeutic agent in a form outside the body that is converted to a different form within an animal or cells thereof. Typically, conversion of a prodrug within the animal is facilitated by the action of an enzymes (e.g., endogenous or viral enzyme) or chemicals present in cells or tissues and/or by physiologic conditions.

As used herein, “reducing or inhibiting the amount or activity” refers to a reduction or blockade of the transcriptional expression or activity relative to the transcriptional expression or activity in an untreated or control sample and does not necessarily indicate a total elimination of transcriptional expression or activity.

As used herein, “RNA” means an RNA transcript that encodes a protein and includes pre-mRNA and mature mRNA unless otherwise specified.

As used herein, “RNAi compound” means an antisense compound that acts, at least in part, through RISC or Ago2 to modulate a target nucleic acid and/or protein encoded by a target nucleic acid. RNAi compounds include, but are not limited to double-stranded siRNA, single-stranded RNA (ssRNA), and microRNA, including microRNA mimics. In certain embodiments, an RNAi compound modulates the amount, activity, and/or splicing of a target nucleic acid. The term RNAi compound excludes antisense compounds that act through RNase H.

As used herein, “self-complementary” in reference to an oligonucleotide means an oligonucleotide that at least partially hybridizes to itself.

As used herein, “siRNA” refers to a ribonucleic acid molecule having a duplex structure including two anti-parallel and substantially complementary nucleic acid strands. The two strands forming the duplex structure may be different portions of one larger RNA molecule, or they may be separate RNA molecules. Where the two strands are part of one larger molecule, and therefore are connected by consecutive nucleobases between the 3′-end of one strand and the 5′ end of the respective other strand forming the duplex structure, the connecting RNA chain is referred to as a “hairpin loop”. The RNA strands may have the same or a different number of nucleotides.

As used herein, “standard cell assay” means the assay described in Example 3 and reasonable variations thereof.

As used herein, “stereorandom chiral center” in the context of a population of molecules of identical molecular formula means a chiral center having a random stereochemical configuration. For example, in a population of molecules comprising a stereorandom chiral center, the number of molecules having the (S) configuration of the stereorandom chiral center may be but is not necessarily the same as the number of molecules having the (R) configuration of the stereorandom chiral center. The stereochemical configuration of a chiral center is considered random when it is the results of a synthetic method that is not designed to control the stereochemical configuration. In certain embodiments, a stereorandom chiral center is a stereorandom phosphorothioate internucleoside linkage.

As used herein, “sugar moiety” means an unmodified sugar moiety or a modified sugar moiety. As used herein, “unmodified sugar moiety” means a 2′-OH(H) ribosyl moiety, as found in RNA (an “unmodified RNA sugar moiety”), or a 2′-H(H) deoxyribosyl sugar moiety, as found in DNA (an “unmodified DNA sugar moiety”). Unmodified sugar moieties have one hydrogen at each of the 1′, 3′, and 4′ positions, an oxygen at the 3′ position, and two hydrogens at the 5′ position. As used herein, “modified sugar moiety” or “modified sugar” means a modified furanosyl sugar moiety or a sugar surrogate.

As used herein, “sugar surrogate” means a modified sugar moiety having other than a furanosyl moiety that can link a nucleobase to another group, such as an internucleoside linkage, conjugate group, or terminal group in an oligonucleotide. Modified nucleosides comprising sugar surrogates can be incorporated into one or more positions within an oligonucleotide and such oligonucleotides are capable of hybridizing to complementary oligomeric compounds or target nucleic acids.

As used herein, “symptom or hallmark” means any physical feature or test result that indicates the existence or extent of a disease or disorder. In certain embodiments, a symptom is apparent to a subject or to a medical professional examining or testing said subject. In certain embodiments, a hallmark is apparent upon invasive diagnostic testing, including, but not limited to, post-mortem tests.

As used herein, “target nucleic acid” and “target RNA” mean a nucleic acid that an antisense compound is designed to affect.

As used herein, “target region” means a portion of a target nucleic acid to which an oligomeric compound is designed to hybridize.

As used herein, “terminal group” means a chemical group or group of atoms that is covalently linked to a terminus of an oligonucleotide.

As used herein, “therapeutically effective amount” means an amount of a pharmaceutical agent that provides a therapeutic benefit to an animal. For example, a therapeutically effective amount improves a symptom of a disease.

CERTAIN EMBODIMENTS

The present disclosure provides the following non-limiting numbered embodiments:

Embodiment 1. An oligomeric compound, comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides wherein the nucleobase sequence of the modified oligonucleotide is at least 90% complementary to an equal length portion of a PMP22 RNA, and wherein the modified oligonucleotide comprises at least one modification selected from a modified sugar, a sugar surrogate, and a modified internucleoside linkage.

Embodiment 2. An oligomeric compound comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides and having a nucleobase sequence comprising at least 12, 13, 14, 15, or 16 nucleobases of any of SEQ ID NOS: 37-5373.

Embodiment 3. An oligomeric compound comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides and having a nucleobase sequence complementary to at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, or at least 20 contiguous nucleobases of:

an equal length portion of nucleobases 4,169-4,198 of SEQ ID NO: 2;

an equal length portion of nucleobases 8,812-8,907 of SEQ ID NO: 2;

an equal length portion of nucleobases 10,019-10,050 of SEQ ID NO: 2;

an equal length portion of nucleobases 11,247-11,276 of SEQ ID NO: 2;

an equal length portion of nucleobases 12,058-12,096 of SEQ ID NO: 2;

an equal length portion of nucleobases 12,357-13,387 of SEQ ID NO: 2;

an equal length portion of nucleobases 15,721-15,769 of SEQ ID NO: 2;

an equal length portion of nucleobases 15,914-15,971 of SEQ ID NO: 2;

an equal length portion of nucleobases 17,354-17,403 of SEQ ID NO: 2;

an equal length portion of nucleobases 19,959-19,997 of SEQ ID NO: 2;

an equal length portion of nucleobases 27,054-27,086 of SEQ ID NO: 2;

an equal length portion of nucleobases 29,734-29,761 of SEQ ID NO: 2;

an equal length portion of nucleobases 30,528-30,558 of SEQ ID NO: 2;

an equal length portion of nucleobases 30,678-30,717 of SEQ ID NO: 2;

an equal length portion of nucleobases 31,450-31,479 of SEQ ID NO: 2;

an equal length portion of nucleobases 37,363-37,401 of SEQ ID NO: 2;

an equal length portion of nucleobases 37,651-37,856 of SEQ ID NO: 2; or an equal length portion of nucleobases 38,107-38,223 of SEQ ID NO: 2.

Embodiment 4. The oligomeric compound of any of embodiments 1-3, wherein the modified oligonucleotide has a nucleobase sequence that is at least 80%, 85%, 90%, 95%, or 100% complementary to any of the nucleobase sequences of SEQ ID NO: 1-8 when measured across the entire nucleobase sequence of the modified oligonucleotide.

Embodiment 5. The oligomeric compound of any of embodiments 1-4, wherein the modified oligonucleotide comprises at least one modified nucleoside.

Embodiment 6. The oligomeric compound of embodiment 5, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a modified sugar moiety.

Embodiment 7. The oligomeric compound of embodiment 6, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a bicyclic sugar moiety.

Embodiment 8. The oligomeric compound of embodiment 7, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a bicyclic sugar moiety having a 2′-4′ bridge, wherein the 2′-4′ bridge is selected from —O—CH₂—; and —O—CH(CH₃)—.

Embodiment 9. The oligomeric compound of any of embodiments 5-8, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a non-bicyclic modified sugar moiety.

Embodiment 10. The oligomeric compound of embodiment 9, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a non-bicyclic modified sugar moiety comprising a 2′-MOE modified sugar or 2′-OMe modified sugar.

Embodiment 11. The oligomeric compound of any of embodiments 5-10, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a sugar surrogate.

Embodiment 12. The oligomeric compound of embodiment 11, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a sugar surrogate selected from morpholino and PNA.

Embodiment 13. The oligomeric compound of any of embodiments 1-12, wherein the modified oligonucleotide has a sugar motif comprising:

• • a 5′-region consisting of 1-5 linked 5′-region nucleosides;
  • a central region consisting of 6-10 linked central region nucleosides; and
  • a 3′-region consisting of 1-5 linked 3′-region nucleosides; wherein
  • each of the 5′-region nucleosides and each of the 3′-region nucleosides comprises a modified sugar moiety and each of the central region nucleosides comprises a 2′-β-D-deoxyribosyl sugar moiety.

Embodiment 14. The oligomeric compound of embodiment 13, wherein the modified oligonucleotide has a sugar motif comprising:

• • a 5′-region consisting of 3 linked 5′-region nucleosides;
  • a central region consisting of 10 linked central region nucleosides; and
  • a 3′-region consisting of 3 linked 3′-region nucleosides; wherein
  • each of the 5′-region nucleosides and each of the 3′-region nucleosides comprises a cEt modified sugar moiety and each of the central region nucleosides comprises a 2′-β-D-deoxyribosyl sugar moiety.

Embodiment 15. The oligomeric compound of any of embodiments 1-14, wherein the modified oligonucleotide comprises at least one modified internucleoside linkage.

Embodiment 16. The oligomeric compound of embodiment 15, wherein each internucleoside linkage of the modified oligonucleotide is a modified internucleoside linkage.

Embodiment 17. The oligomeric compound of embodiment 15 or 16 wherein at least one internucleoside linkage is a phosphorothioate internucleoside linkage.

Embodiment 18. The oligomeric compound of embodiment 15 or 17 wherein the modified oligonucleotide comprises at least one phosphodiester internucleoside linkage.

Embodiment 19. The oligomeric compound of any of embodiments 15, 17, or 18, wherein each internucleoside linkage is independently selected from a phosphodiester internucleoside linkage or a phosphorothioate internucleoside linkage.

Embodiment 20. The oligomeric compound of any of embodiments 1-19, wherein the modified oligonucleotide comprises a modified nucleobase.

Embodiment 21. The oligomeric compound of embodiment 20, wherein the modified nucleobase is a 5-methyl cytosine.

Embodiment 22. The oligomeric compound of any of embodiments 1-21, wherein the modified oligonucleotide consists of 12-30, 12-22, 12-20,14-18, 14-20, 15-17, 15-25, 16-20, 18-22 or 18-20 linked nucleosides.

Embodiment 23. The oligomeric compound of any of embodiments 1-22, wherein the modified oligonucleotide consists of 16 linked nucleosides.

Embodiment 24. The oligomeric compound of any of embodiments 1-23, consisting of the modified oligonucleotide.

Embodiment 25. The oligomeric compound of any of embodiments 1-24, comprising a conjugate group comprising a conjugate moiety and a conjugate linker.

Embodiment 26. The oligomeric compound of embodiments 25-26, wherein the conjugate linker consists of a single bond.

Embodiment 27. The oligomeric compound of embodiments 25-26, wherein the conjugate linker is cleavable.

Embodiment 28. The oligomeric compound of embodiments 25-26, wherein the conjugate linker comprises 1-3 linker-nucleosides.

Embodiment 29. The oligomeric compound of any of embodiments 25-28, wherein the conjugate group is attached to the modified oligonucleotide at the 5′-end of the modified oligonucleotide.

Embodiment 30. The oligomeric compound of any of embodiments 25-28, wherein the conjugate group is attached to the modified oligonucleotide at the 3′-end of the modified oligonucleotide.

Embodiment 31. The oligomeric compound of any of embodiments 1-30, comprising a terminal group.

Embodiment 32. The oligomeric compound of any of embodiments 1-31 wherein the oligomeric compound is a singled-stranded oligomeric compound.

Embodiment 33. The oligomeric compound of any of embodiments 1-27 or 29-32, wherein the oligomeric compound does not comprise linker-nucleosides.

Embodiment 34. An oligomeric duplex comprising an oligomeric compound of any of embodiments 1-23, 25-31, or 33.

Embodiment 35. An antisense compound comprising or consisting of an oligomeric compound of any of embodiments 1-33 or an oligomeric duplex of embodiment 34.

Embodiment 36. A pharmaceutical composition comprising an oligomeric compound of any of embodiments 1-34 or an oligomeric duplex of embodiment 35 and a pharmaceutically acceptable carrier or diluent.

Embodiment 37. The pharmaceutical composition of embodiment 36, wherein the pharmaceutically acceptable diluent is phosphate buffered saline.

Embodiment 38. The pharmaceutical composition of embodiment 37, wherein the pharmaceutical composition consists essentially of the modified oligonucleotide and phosphate buffered saline.

Embodiment 39. A method comprising administering to an animal a pharmaceutical composition of any of embodiments 36-38.

Embodiment 40. A method of treating a disease associated with PMP22 comprising administering to an individual having or at risk for developing a disease associated with PMP22 a therapeutically effective amount of a pharmaceutical composition according to any of embodiments 36-38; and thereby treating the disease associated with PMP22.

Embodiment 41. The method of embodiment 40, wherein the PMP2-associated disease is Dejerine-Sottas Syndrome.

Embodiment 42. The method of embodiment 40, wherein the PMP2-associated disease is Charcot-Marie-Tooth disease.

Embodiment 43. The method of embodiment 42, wherein the Charcot-Marie-Tooth disease is CMT1A.

Embodiment 44. The method of embodiment 42, wherein the Charcot-Marie-Tooth disease is CMT1E.

Embodiment 45. The method of any of embodiments 40-44, wherein at least one symptom or hallmark of the PMP22-associated disease is ameliorated.

Embodiment 46. The method of embodiment 45, wherein the symptom or hallmark is demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands.

I. Certain Oligonucleotides

In certain embodiments, provided herein are oligomeric compounds comprising oligonucleotides, which consist of linked nucleosides. Oligonucleotides may be unmodified oligonucleotides (RNA or DNA) or may be modified oligonucleotides. Modified oligonucleotides comprise at least one modification relative to unmodified RNA or DNA. That is, modified oligonucleotides comprise at least one modified nucleoside (comprising a modified sugar moiety and/or a modified nucleobase) and/or at least one modified internucleoside linkage.

A. Certain Modified Nucleosides

Modified nucleosides comprise a modified sugar moiety or a modified nucleobase or both a modified sugar moiety and a modified nucleobase.

1. Certain Sugar Moieties

In certain embodiments, modified sugar moieties are non-bicyclic modified sugar moieties. In certain embodiments, modified sugar moieties are bicyclic or tricyclic sugar moieties. In certain embodiments, modified sugar moieties are sugar surrogates. Such sugar surrogates may comprise one or more substitutions corresponding to those of other types of modified sugar moieties.

In certain embodiments, modified sugar moieties are non-bicyclic modified sugar moieties comprising a furanosyl ring with one or more substituent groups none of which bridges two atoms of the furanosyl ring to form a bicyclic structure. Such non bridging substituents may be at any position of the furanosyl, including but not limited to substituents at the 2′, 4′, and/or 5′ positions. In certain embodiments one or more non-bridging substituent of non-bicyclic modified sugar moieties is branched. Examples of 2′-substituent groups suitable for non-bicyclic modified sugar moieties include but are not limited to: 2′-F, 2′-OCH₃ (“OMe” or “O-methyl”), and 2′-O(CH₂)₂OCH₃ (“MOE”). In certain embodiments, 2′-substituent groups are selected from among: halo, allyl, amino, azido, SH, CN, OCN, CF₃, OCF₃, O—C₁-C₁₀ alkoxy, O—C₁-C₁₀ substituted alkoxy, O—C₁-C₁₀ alkyl, O—C₁-C₁₀ substituted alkyl, S-alkyl, N(R_m)-alkyl, O-alkenyl, S-alkenyl, N(R_m)-alkenyl, O-alkynyl, S-alkynyl, N(R_m)-alkynyl, O-alkylenyl-O-alkyl, alkynyl, alkaryl, aralkyl, O-alkaryl, O-aralkyl, O(CH₂)₂SCH₃, O(CH₂)₂ON(R_m)(R_n) or OCH₂C(═O)—N(R_m)(R_n), where each R_m and R_n is, independently, H, an amino protecting group, or substituted or unsubstituted C₁-C₁₀ alkyl, and the 2′-substituent groups described in Cook et al., U.S. Pat. No. 6,531,584; Cook et al., U.S. Pat. No. 5,859,221; and Cook et al., U.S. Pat. No. 6,005,087. Certain embodiments of these 2′-substituent groups can be further substituted with one or more substituent groups independently selected from among: hydroxyl, amino, alkoxy, carboxy, benzyl, phenyl, nitro (NO₂), thiol, thioalkoxy, thioalkyl, halogen, alkyl, aryl, alkenyl and alkynyl. Examples of 4′-substituent groups suitable for non-bicyclic modified sugar moieties include but are not limited to alkoxy (e.g., methoxy), alkyl, and those described in Manoharan et al., WO 2015/106128. Examples of 5′-substituent groups suitable for non-bicyclic modified sugar moieties include but are not limited to: 5-methyl (R or S), 5′-vinyl, and 5′-methoxy. In certain embodiments, non-bicyclic modified sugar moieties comprise more than one non-bridging sugar substituent, for example, 2′-F-5′-methyl sugar moieties and the modified sugar moieties and modified nucleosides described in Migawa et al., WO 2008/101157 and Rajeev et al., US2013/0203836.).

In certain embodiments, a 2′-substituted non-bicyclic modified nucleoside comprises a sugar moiety comprising a non-bridging 2′-substituent group selected from: F, NH₂, N₃, OCF₃, OCH₃, O(CH₂)₃NH₂, CH₂CH═CH₂, OCH₂CH═CH₂, OCH₂CH₂OCH₃, O(CH₂)₂SCH₃, O(CH₂)₂ON(R_m)(R_n), O(CH₂)₂O(CH₂)₂N(CH₃)₂, and N-substituted acetamide (OCH₂C(═O)—N(R_m)(R_n)), where each R_m and R_n is, independently, H, an amino protecting group, or substituted or unsubstituted C₁-C₁₀ alkyl.

In certain embodiments, a 2′-substituted nucleoside non-bicyclic modified nucleoside comprises a sugar moiety comprising a non-bridging 2′-substituent group selected from: F, OCF₃, OCH₃, OCH₂CH₂OCH₃, O(CH₂)₂SCH₃, O(CH₂)₂ON(CH₃)₂, O(CH₂)₂O(CH₂)₂N(CH₃)₂, and OCH₂C(═O)—N(H)CH₃ (“NMA”).

In certain embodiments, a 2′-substituted non-bicyclic modified nucleoside comprises a sugar moiety comprising a non-bridging 2′-substituent group selected from: F, OCH₃, and OCH₂CH₂OCH₃.

Certain modified sugar moieties comprise a substituent that bridges two atoms of the furanosyl ring to form a second ring, resulting in a bicyclic sugar moiety. In certain such embodiments, the bicyclic sugar moiety comprises a bridge between the 4′ and the 2′ furanose ring atoms. Examples of such 4′ to 2′ bridging sugar substituents include but are not limited to: 4′-CH₂-2′, 4′-(CH₂)₂-2′, 4′-(CH₂)₃-2′, 4′-CH₂—O-2′ (“LNA”), 4′-CH₂—S-2′, 4′-(CH₂)₂—O-2′ (“ENA”), 4′-CH(CH₃)—O-2′ (referred to as “constrained ethyl” or “cEt”), 4′-CH₂—O—CH₂-2′, 4′-CH₂—N(R)-2′, 4′-CH(CH₂OCH₃)—O-2′ (“constrained MOE” or “cMOE”) and analogs thereof (see, e.g., Seth et al., U.S. Pat. No. 7,399,845, Bhat et al., U.S. Pat. No. 7,569,686, Swayze et al., U.S. Pat. No. 7,741,457, and Swayze et al., U.S. Pat. No. 8,022,193), 4′-C(CH₃)(CH₃)—O-2′ and analogs thereof (see, e.g., Seth et al., U.S. Pat. No. 8,278,283), 4′-CH₂—N(OCH₃)-2′ and analogs thereof (see, e.g., Prakash et al., U.S. Pat. No. 8,278,425), 4′-CH₂—O—N(CH₃)-2′ (see, e.g., Allerson et al., U.S. Pat. No. 7,696,345 and Allerson et al., U.S. Pat. No. 8,124,745), 4′-CH₂—C(H)(CH₃)-2′ (see, e.g., Zhou, et al., J. Org. Chem., 2009, 74, 118-134), 4′-CH₂—C(═CH₂)-2′ and analogs thereof (see e.g., Seth et al., U.S. Pat. No. 8,278,426), 4′-C(R_aR_b)—N(R)—O-2′, 4′-C(R_aR_b)—O—N(R)-2′, 4′-CH₂—O—N(R)-2′, and 4′-CH₂—N(R)—O- 2′, wherein each R, R_a, and R_b is, independently, H, a protecting group, or C₁-C₁₂ alkyl (see, e.g. Imanishi et al., U.S. Pat. No. 7,427,672).

In certain embodiments, such 4′ to 2′ bridges independently comprise from 1 to 4 linked groups independently selected from: —[C(R_a)(R_b)]_n—, —[C(R_a)(R_b)]_n—O—, —C(R_a)═C(R_b)—, —C(R_L)═N—, —C(═NR_a)—, —C(═O)—, —C(═S)—, —O—, —Si(R_a)₂—, —S(═O)_x—, and —N(R_a)—;

wherein:

x is 0, 1, or 2;

n is 1, 2, 3, or 4;

each R_a and R_b is, independently, H, a protecting group, hydroxyl, C₁-C₁₂ alkyl, substituted C₁-C₁₂ alkyl, C₂-C₁₂ alkenyl, substituted C₂-C₁₂ alkenyl, C₂-C₁₂ alkynyl, substituted C₂-C₁₂ alkynyl, C₅-C₂₀ aryl, substituted C₅-C₂₀ aryl, heterocycle radical, substituted heterocycle radical, heteroaryl, substituted heteroaryl, C₅-C₇ alicyclic radical, substituted C₅-C₇ alicyclic radical, halogen, OJ₁, NJ₁J₂, SJ₁, N₃, COOJ₁, acyl (C(═O)—H), substituted acyl, CN, sulfonyl (S(═O)₂-J₁), or sulfoxyl (S(═O)-J₁); and

each J₁ and J₂ is, independently, H, C₁-C₁₂ alkyl, substituted C₁-C₁₂ alkyl, C₂-C₁₂ alkenyl, substituted C₂-C₁₂ alkenyl, C₂-C₁₂ alkynyl, substituted C₂-C₁₂ alkynyl, C₅-C₂₀ aryl, substituted C₅-C₂₀ aryl, acyl (C(═O)—H), substituted acyl, a heterocycle radical, a substituted heterocycle radical, C₁-C₁₂ aminoalkyl, substituted C₁-C₁₂ aminoalkyl, or a protecting group.

Additional bicyclic sugar moieties are known in the art, see, for example: Freier et al., Nucleic Acids Research, 1997, 25(22), 4429-4443, Albaek et al., J. Org. Chem., 2006, 71, 7731-7740, Singh et al., Chem. Commun., 1998, 4, 455-456; Koshkin et al., Tetrahedron, 1998, 54, 3607-3630; Kumar et al., Bioorg. Med. Chem. Lett., 1998, 8, 2219-2222; Singh et al., J. Org. Chem., 1998, 63, 10035-10039; Srivastava et al., J. Am. Chem. Soc., 20017, 129, 8362-8379; Wengel et a., U.S. Pat. No. 7,053,207; Imanishi et al., U.S. Pat. No. 6,268,490; Imanishi et al. U.S. Pat. No. 6,770,748; Imanishi et al., U.S. RE44,779; Wengel et al., U.S. Pat. No. 6,794,499; Wengel et al., U.S. 6,670,461; Wengel et al., U.S. Pat. No. 7,034,133; Wengel et al., U.S. Pat. No. 8,080,644; Wengel et al., U.S. Pat. No. 8,034,909; Wengel et al., U.S. Pat. No. 8,153,365; Wengel et al., U.S. Pat. No. 7,572,582; and Ramasamy et al., U.S. Pat. No. 6,525,191; Torsten et al., WO 2004/106356; Wengel et al., WO 1999/014226; Seth et al., WO 2007/134181; Seth et al., U.S. Pat. No. 7,547,684; Seth et al., U.S. Pat. No. 7,666,854; Seth et al., U.S. Pat. No. 8,088,746; Seth et al., U.S. Pat. No. 7,750,131; Seth et al., U.S. Pat. No. 8,030,467; Seth et al., U.S. Pat. No. 8,268,980; Seth et al., U.S. Pat. No. 8,546,556; Seth et al., U.S. Pat. No. 8,530,640; Migawa et al., U.S. Pat. No. 9,012,421; Seth et al., U.S. Pat. No. 8,501,805; and U.S. Patent Publication Nos. Allerson et al., US2008/0039618 and Migawa et al., US2015/0191727.

In certain embodiments, bicyclic sugar moieties and nucleosides incorporating such bicyclic sugar moieties are further defined by isomeric configuration. For example, an LNA nucleoside (described herein) may be in the α-L configuration or in the β-D configuration.

α-L-methyleneoxy (4′-CH₂—O-2′) or α-L-LNA bicyclic nucleosides have been incorporated into oligonucleotides that showed antisense activity (Frieden et al., Nucleic Acids Research, 2003, 21, 6365-6372). Herein, general descriptions of bicyclic nucleosides include both isomeric configurations. When the positions of specific bicyclic nucleosides (e.g., LNA or cEt) are identified in exemplified embodiments herein, they are in the β-D configuration, unless otherwise specified.

In certain embodiments, modified sugar moieties comprise one or more non-bridging sugar substituent and one or more bridging sugar substituent (e.g., 5′-substituted and 4′-2′ bridged sugars).

In certain embodiments, modified sugar moieties are sugar surrogates. In certain such embodiments, the oxygen atom of the sugar moiety is replaced, e.g., with a sulfur, carbon or nitrogen atom. In certain such embodiments, such modified sugar moieties also comprise bridging and/or non-bridging substituents as described herein. For example, certain sugar surrogates comprise a 4′-sulfur atom and a substitution at the 2′-position (see, e.g., Bhat et al., U.S. Pat. No. 7,875,733 and Bhat et al., U.S. Pat. No. 7,939,677) and/or the 5′ position.

In certain embodiments, sugar surrogates comprise rings having other than 5 atoms. For example, in certain embodiments, a sugar surrogate comprises a six-membered tetrahydropyran (“THP”). Such tetrahydropyrans may be further modified or substituted. Nucleosides comprising such modified tetrahydropyrans include but are not limited to hexitol nucleic acid (“HNA”), anitol nucleic acid (“ANA”), manitol nucleic acid (“MNA”) (see, e.g., Leumann, C J. Bioorg. & Med. Chem. 2002, 10, 841-854), fluoro HNA:

(“F-HNA”, see e.g. Swayze et al., U.S. Pat. No. 8,088,904; Swayze et al., U.S. Pat. No. 8,440,803; Swayze et al., U.S. 8,796,437; and Swayze et al., U.S. Pat. No. 9,005,906; F-HNA can also be referred to as a F-THP or 3′-fluoro tetrahydropyran), and nucleosides comprising additional modified THP compounds having the formula:

wherein, independently, for each of said modified THP nucleoside:

Bx is a nucleobase moiety;

T₃ and T₄ are each, independently, an internucleoside linking group linking the modified THP nucleoside to the remainder of an oligonucleotide or one of T₃ and T₄ is an internucleoside linking group linking the modified THP nucleoside to the remainder of an oligonucleotide and the other of T₃ and T₄ is H, a hydroxyl protecting group, a linked conjugate group, or a 5′ or 3′-terminal group; q₁, q₂, q₃, q₄, q₅, q₆ and q₇ are each, independently, H, C₁-C₆ alkyl, substituted C₁-C₆ alkyl, C₂-C₆ alkenyl, substituted C₂-C₆ alkenyl, C₂-C₆ alkynyl, or substituted C₂-C₆ alkynyl; and

each of R₁ and R₂ is independently selected from among: hydrogen, halogen, substituted or unsubstituted alkoxy, NJ₁J₂, SJ₁, N₃, OC(═X)J₁, OC(═X)NJ₁J₂, NJ₃C(═X)NJ₁J₂, and CN, wherein X is O, S or NJ₁, and each J₁, J₂, and J₃ is, independently, H or C₁-C₆ alkyl.

In certain embodiments, modified THP nucleosides are provided wherein q₁, q₂, q₃, q₄, q₅, q₆ and are each H. In certain embodiments, at least one of q₁, q₂, q₃, q₄, q₅, q₆ and q₇ is other than H. In certain embodiments, at least one of q₁, q₂, q₃, q₄, q₅, q₆ and q₇ is methyl. In certain embodiments, modified THP nucleosides are provided wherein one of R₁ and R₂ is F. In certain embodiments, R₁ is F and R₂ is H, in certain embodiments, R₁ is methoxy and R₂ is H, and in certain embodiments, R₁ is methoxyethoxy and R₂ is H.

In certain embodiments, sugar surrogates comprise rings having more than 5 atoms and more than one heteroatom. For example, nucleosides comprising morpholino sugar moieties and their use in oligonucleotides have been reported (see, e.g., Braasch et al., Biochemistry, 2002, 41, 4503-4510 and Summerton et al., U.S. Pat. No. 5,698,685; Summerton et al., U.S. Pat. No. 5,166,315; Summerton et al., U.S. Pat. No. 5,185,444; and Summerton et al., U.S. Pat. No. 5,034,506). As used here, the term “morpholino” means a sugar surrogate having the following structure:

In certain embodiments, morpholinos may be modified, for example by adding or altering various substituent groups from the above morpholino structure. Such sugar surrogates are referred to herein as “modified morpholinos.”

In certain embodiments, sugar surrogates comprise acyclic moieites. Examples of nucleosides and oligonucleotides comprising such acyclic sugar surrogates include but are not limited to: peptide nucleic acid (“PNA”), acyclic butyl nucleic acid (see, e.g., Kumar et al., Org. Biomol. Chem., 2013, 11, 5853-5865), and nucleosides and oligonucleotides described in Manoharan et al., WO2011/133876.

Many other bicyclic and tricyclic sugar and sugar surrogate ring systems are known in the art that can be used in modified nucleosides.

2. Certain Modified Nucleobases

In certain embodiments, modified oligonucleotides comprise one or more nucleoside comprising an unmodified nucleobase. In certain embodiments, modified oligonucleotides comprise one or more nucleoside comprising a modified nucleobase. In certain embodiments, modified oligonucleotides comprise one or more nucleoside that does not comprise a nucleobase, referred to as an abasic nucleoside.

In certain embodiments, modified nucleobases are selected from: 5-substituted pyrimidines, 6-azapyrimidines, alkyl or alkynyl substituted pyrimidines, alkyl substituted purines, and N-2, N-6 and 0-6 substituted purines. In certain embodiments, modified nucleobases are selected from: 2-aminopropyladenine, 5-hydroxymethyl cytosine, xanthine, hypoxanthine, 2-aminoadenine, 6-N-methylguanine, 6-N-methyladenine, 2-propyladenine, 2-thiouracil, 2-thiothymine and 2-thiocytosine, 5-propynyl (—C≡C—CH₃) uracil, 5-propynylcytosine, 6-azouracil, 6-azocytosine, 6-azothymine, 5-ribosyluracil (pseudouracil), 4-thiouracil, 8-halo, 8-amino, 8-thiol, 8-thioalkyl, 8-hydroxyl, 8-aza and other 8-substituted purines, 5-halo, particularly 5-bromo, 5-trifluoromethyl, 5-halouracil, and 5-halocytosine, 7-methylguanine, 7-methyladenine, 2-F-adenine, 2-aminoadenine, 7-deazaguanine, 7-deazaadenine, 3-deazaguanine, 3-deazaadenine, 6-N-benzoyladenine, 2-N-isobutyrylguanine, 4-N-benzoylcytosine, 4-N-benzoyluracil, 5-methyl 4-N-benzoylcytosine, 5-methyl 4-N-benzoyluracil, universal bases, hydrophobic bases, promiscuous bases, size-expanded bases, and fluorinated bases. Further modified nucleobases include tricyclic pyrimidines, such as 1,3-diazaphenoxazine-2-one, 1,3-diazaphenothiazine-2-one and 9-(2-aminoethoxy)-1,3-diazaphenoxazine-2-one (G-clamp). Modified nucleobases may also include those in which the purine or pyrimidine base is replaced with other heterocycles, for example 7-deaza-adenine, 7-deazaguanosine, 2-aminopyridine and 2-pyridone. Further nucleobases include those disclosed in Merigan et al., U.S. Pat. No. 3,687,808, those disclosed in The Concise Encyclopedia Of Polymer Science And Engineering, Kroschwitz, J. I., Ed., John Wiley & Sons, 1990, 858-859; Englisch et al., Angewandte Chemie, International Edition, 1991, 30, 613; Sanghvi, Y. S., Chapter 15, Antisense Research and Applications, Crooke, S. T. and Lebleu, B., Eds., CRC Press, 1993, 273-288; and those disclosed in Chapters 6 and 15, Antisense Drug Technology, Crooke S. T., Ed., CRC Press, 2008, 163-166 and 442-443.

Publications that teach the preparation of certain of the above noted modified nucleobases as well as other modified nucleobases include without limitation, Manoharan et al., US2003/0158403; Manoharan et al., US2003/0175906; Dinh et al., U.S. Pat. No. 4,845,205; Spielvogel et al., U.S. Pat. No. 5,130,302; Rogers et al., U.S. Pat. No. 5,134,066; Bischofberger et al., U.S. Pat. No. 5,175,273; Urdea et al., U.S. Pat. No. 5,367,066; Benner et al., U.S. Pat. No. 5,432,272; Matteucci et al., U.S. Pat. No. 5,434,257; Gmeiner et al., U.S. Pat. No. 5,457,187; Cook et al., U.S. Pat. No. 5,459,255; Froehler et al., U.S. Pat. No. 5,484,908; Matteucci et al., U.S. Pat. No. 5,502,177; Hawkins et al., U.S. Pat. No. 5,525,711; Haralambidis et al., U.S. Pat. No. 5,552,540; Cook et al., U.S. Pat. No. 5,587,469; Froehler et al., U.S. Pat. No. 5,594,121; Switzer et al., U.S. Pat. No. 5,596,091; Cook et al., U.S. Pat. No. 5,614,617; Froehler et al., U.S. Pat. No. 5,645,985; Cook et al., U.S. Pat. No. 5,681,941; Cook et al., U.S. Pat. No. 5,811,534; Cook et al., U.S. Pat. No. 5,750,692; Cook et al., U.S. Pat. No. 5,948,903; Cook et al., U.S. Pat. No. 5,587,470; Cook et al., U.S. Pat. No. 5,457,191; Matteucci et al., U.S. Pat. No. 5,763,588; Froehler et al., U.S. Pat. No. 5,830,653; Cook et al., U.S. Pat. No. 5,808,027; Cook et al., 6,166,199; and Matteucci et al., U.S. Pat. No. 6,005,096.

3. Certain Modified Internucleoside Linkages

In certain embodiments, nucleosides of modified oligonucleotides may be linked together using any internucleoside linkage. The two main classes of internucleoside linking groups are defined by the presence or absence of a phosphorus atom. Representative phosphorus-containing internucleoside linkages include but are not limited to phosphates, which contain a phosphodiester bond (“P═O”) (also referred to as unmodified or naturally occurring linkages), phosphotriesters, methylphosphonates, phosphoramidates, and phosphorothioates (“P═S”), and phosphorodithioates (“HS—P═S”). Representative non-phosphorus containing internucleoside linking groups include but are not limited to methylenemethylimino (—CH₂—N(CH₃)—O—CH₂—), thiodiester, thionocarbamate (—O—C(═O)(NH)—S—); siloxane (—O—SiH₂—O—); and N,N′-dimethylhydrazine (—CH₂—N(CH₃)—N(CH₃)—). Modified internucleoside linkages, compared to naturally occurring phosphate linkages, can be used to alter, typically increase, nuclease resistance of the oligonucleotide. In certain embodiments, internucleoside linkages having a chiral atom can be prepared as a racemic mixture, or as separate enantiomers. Methods of preparation of phosphorous-containing and non-phosphorous-containing internucleoside linkages are well known to those skilled in the art.

Representative internucleoside linkages having a chiral center include but are not limited to alkylphosphonates and phosphorothioates. Modified oligonucleotides comprising internucleoside linkages having a chiral center can be prepared as populations of modified oligonucleotides comprising stereorandom internucleoside linkages, or as populations of modified oligonucleotides comprising phosphorothioate linkages in particular stereochemical configurations. In certain embodiments, populations of modified oligonucleotides comprise phosphorothioate internucleoside linkages wherein all of the phosphorothioate internucleoside linkages are stereorandom. Such modified oligonucleotides can be generated using synthetic methods that result in random selection of the stereochemical configuration of each phosphorothioate linkage. Nonetheless, as is well understood by those of skill in the art, each individual phosphorothioate of each individual oligonucleotide molecule has a defined stereoconfiguration. In certain embodiments, populations of modified oligonucleotides are enriched for modified oligonucleotides comprising one or more particular phosphorothioate internucleoside linkages in a particular, independently selected stereochemical configuration. In certain embodiments, the particular configuration of the particular phosphorothioate linkage is present in at least 65% of the molecules in the population. In certain embodiments, the particular configuration of the particular phosphorothioate linkage is present in at least 70% of the molecules in the population. In certain embodiments, the particular configuration of the particular phosphorothioate linkage is present in at least 80% of the molecules in the population. In certain embodiments, the particular configuration of the particular phosphorothioate linkage is present in at least 90% of the molecules in the population. In certain embodiments, the particular configuration of the particular phosphorothioate linkage is present in at least 99% of the molecules in the population. Such chirally enriched populations of modified oligonucleotides can be generated using synthetic methods known in the art, e.g., methods described in Oka et al., JACS 125, 8307 (2003), Wan et al. Nuc. Acid. Res. 42, 13456 (2014), and WO 2017/015555. In certain embodiments, a population of modified oligonucleotides is enriched for modified oligonucleotides having at least one indicated phosphorothioate in the (Sp) configuration. In certain embodiments, a population of modified oligonucleotides is enriched for modified oligonucleotides having at least one phosphorothioate in the (Rp) configuration. In certain embodiments, modified oligonucleotides comprising (Rp) and/or (Sp) phosphorothioates comprise one or more of the following formulas, respectively, wherein “B” indicates a nucleobase:

Unless otherwise indicated, chiral internucleoside linkages of modified oligonucleotides described herein can be stereorandom or in a particular stereochemical configuration.

Neutral internucleoside linkages include, without limitation, phosphotriesters, methylphosphonates, MMI (3′-CH₂—N(CH₃)—O-5′), amide-3 (3′-CH₂—C(═O)—N(H)-5′), amide-4 (3′-CH₂—N(H)-C(═O)-5′), formacetal (3′-O—CH₂—O-5′), me thoxypropyl (MOP), and thioformacetal (3′-S—CH₂—O-5′). Further neutral internucleoside linkages include nonionic linkages comprising siloxane (dialkylsiloxane), carboxylate ester, carboxamide, sulfide, sulfonate ester and amides (See for example: Carbohydrate Modifications in Antisense Research; Y. S. Sanghvi and P. D. Cook, Eds., ACS Symposium Series 580; Chapters 3 and 4, 40-65). Further neutral internucleoside linkages include nonionic linkages comprising mixed N, O, S and CH₂ component parts.

B. Certain Motifs

In certain embodiments, modified oligonucleotides comprise one or more modified nucleosides comprising a modified sugar moiety. In certain embodiments, modified oligonucleotides comprise one or more modified nucleosides comprising a modified nucleobase. In certain embodiments, modified oligonucleotides comprise one or more modified internucleoside linkage. In such embodiments, the modified, unmodified, and differently modified sugar moieties, nucleobases, and/or internucleoside linkages of a modified oligonucleotide define a pattern or motif. In certain embodiments, the patterns of sugar moieties, nucleobases, and internucleoside linkages are each independent of one another. Thus, a modified oligonucleotide may be described by its sugar motif, nucleobase motif and/or internucleoside linkage motif (as used herein, nucleobase motif describes the modifications to the nucleobases independent of the sequence of nucleobases).

1. Certain Sugar Motifs

In certain embodiments, oligonucleotides comprise one or more type of modified sugar and/or unmodified sugar moiety arranged along the oligonucleotide or region thereof in a defined pattern or sugar motif. In certain instances, such sugar motifs include but are not limited to any of the sugar modifications discussed herein.

In certain embodiments, modified oligonucleotides comprise or consist of a region having a gapmer motif, which is defined by two external regions or “wings” and a central or internal region or “gap.” The three regions of a gapmer motif (the 5′-wing, the gap, and the 3′-wing) form a contiguous sequence of nucleosides wherein at least some of the sugar moieties of the nucleosides of each of the wings differ from at least some of the sugar moieties of the nucleosides of the gap. Specifically, at least the sugar moieties of the nucleosides of each wing that are closest to the gap (the 3′-most nucleoside of the 5′-wing and the 5′-most nucleoside of the 3′-wing) differ from the sugar moiety of the neighboring gap nucleosides, thus defining the boundary between the wings and the gap (i.e., the wing/gap junction). In certain embodiments, the sugar moieties within the gap are the same as one another. In certain embodiments, the gap includes one or more nucleoside having a sugar moiety that differs from the sugar moiety of one or more other nucleosides of the gap. In certain embodiments, the sugar motifs of the two wings are the same as one another (symmetric gapmer). In certain embodiments, the sugar motif of the 5′-wing differs from the sugar motif of the 3′-wing (asymmetric gapmer).

In certain embodiments, the wings of a gapmer comprise 1-5 nucleosides. In certain embodiments, each nucleoside of each wing of a gapmer comprises a modified sugar moiety. In certain embodiments, at least one nucleoside of each wing of a gapmer comprises a modified sugar moiety. In certain embodiments, at least two nucleosides of each wing of a gapmer comprises a modified sugar moiety. In certain embodiments, at least three nucleosides of each wing of a gapmer comprises a modified sugar moiety. In certain embodiments, at least four nucleosides of each wing of a gapmer comprises a modified sugar moiety.

In certain embodiments, the gap of a gapmer comprises 7-12 nucleosides. In certain embodiments, each nucleoside of the gap of a gapmer comprises a 2′-β-D-deoxyribosyl sugar moiety. In certain embodiments, at least one nucleoside of the gap of a gapmer comprises a modified sugar moiety.

In certain embodiments, the gapmer is a deoxy gapmer. In certain embodiments, the nucleosides on the gap side of each wing/gap junction comprise 2′-deoxyribosyl sugar moieties and the nucleosides on the wing sides of each wing/gap junction comprise modified sugar moieties. In certain embodiments, each nucleoside of the gap comprises a 2′-β-D-deoxyribosyl sugar moiety. In certain embodiments, each nucleoside of each wing of a gapmer comprises a modified sugar moiety.

In certain embodiments, modified oligonucleotides comprise or consist of a region having a fully modified sugar motif. In such embodiments, each nucleoside of the fully modified region of the modified oligonucleotide comprises a modified sugar moiety. In certain embodiments, each nucleoside of the entire modified oligonucleotide comprises a modified sugar moiety. In certain embodiments, modified oligonucleotides comprise or consist of a region having a fully modified sugar motif, wherein each nucleoside within the fully modified region comprises the same modified sugar moiety, referred to herein as a uniformly modified sugar motif. In certain embodiments, a fully modified oligonucleotide is a uniformly modified oligonucleotide. In certain embodiments, each nucleoside of a uniformly modified comprises the same 2′-modification.

Herein, the lengths (number of nucleosides) of the three regions of a gapmer may be provided using the notation [# of nucleosides in the 5′-wing]—[# of nucleosides in the gap]—[# of nucleosides in the 3′-wing]. Thus, a 3-10-3 gapmer consists of 3 linked nucleosides in each wing and 10 linked nucleosides in the gap. Where such nomenclature is followed by a specific modification, that modification is the modification in each sugar moiety of each wing and the gap nucleosides comprise 2′-β-D-deoxyribosyl sugar moieties. Thus, a 5-10-5 MOE gapmer consists of 5 linked 2′-MOE nucleosides in the 5′-wing, 10 linked 2′-β-D-deoxynucleosides in the gap, and 5 linked 2′-MOE nucleosides in the 3′-wing. A 3-10-3 cEt gapmer consists of 3 linked cEt nucleosides in the 5′-wing, 10 linked 2′-β-D-deoxynucleosides in the gap, and 3 linked cEt nucleosides in the 3′-wing.

In certain embodiments, modified oligonucleotides are 5-10-5 MOE gapmers. In certain embodiments, modified oligonucleotides are 3-10-3 BNA gapmers. In certain embodiments, modified oligonucleotides are 3-10-3 cEt gapmers. In certain embodiments, modified oligonucleotides are 3-10-3 LNA gapmers.

2. Certain Nucleobase Motifs

In certain embodiments, oligonucleotides comprise modified and/or unmodified nucleobases arranged along the oligonucleotide or region thereof in a defined pattern or motif. In certain embodiments, each nucleobase is modified. In certain embodiments, none of the nucleobases are modified. In certain embodiments, each purine or each pyrimidine is modified. In certain embodiments, each adenine is modified. In certain embodiments, each guanine is modified. In certain embodiments, each thymine is modified. In certain embodiments, each uracil is modified. In certain embodiments, each cytosine is modified. In certain embodiments, some or all of the cytosine nucleobases in a modified oligonucleotide are 5-methyl cytosines. In certain embodiments, all of the cytosine nucleobases are 5-methyl cytosines and all of the other nucleobases of the modified oligonucleotide are unmodified nucleobases.

In certain embodiments, modified oligonucleotides comprise a block of modified nucleobases. In certain such embodiments, the block is at the 3′-end of the oligonucleotide. In certain embodiments the block is within 3 nucleosides of the 3′-end of the oligonucleotide. In certain embodiments, the block is at the 5′-end of the oligonucleotide. In certain embodiments the block is within 3 nucleosides of the 5′-end of the oligonucleotide.

In certain embodiments, oligonucleotides having a gapmer motif comprise a nucleoside comprising a modified nucleobase. In certain such embodiments, one nucleoside comprising a modified nucleobase is in the central gap of an oligonucleotide having a gapmer motif. In certain such embodiments, the sugar moiety of said nucleoside is a 2′-deoxyribosyl sugar moiety. In certain embodiments, the modified nucleobase is selected from: a 2-thiopyrimidine and a 5-propynepyrimidine.

3. Certain Internucleoside Linkage Motifs

In certain embodiments, oligonucleotides comprise modified and/or unmodified internucleoside linkages arranged along the oligonucleotide or region thereof in a defined pattern or motif. In certain embodiments, each internucleoside linking group is a phosphodiester internucleoside linkage (P═O). In certain embodiments, each internucleoside linking group of a modified oligonucleotide is a phosphorothioate internucleoside linkage (P═S). In certain embodiments, each internucleoside linkage of a modified oligonucleotide is independently selected from a phosphorothioate internucleoside linkage and phosphodiester internucleoside linkage. In certain embodiments, each phosphorothioate internucleoside linkage is independently selected from a stereorandom phosphorothioate a (Sp) phosphorothioate, and a (Rp) phosphorothioate. In certain embodiments, the sugar motif of a modified oligonucleotide is a gapmer and the internucleoside linkages within the gap are all modified. In certain such embodiments, some or all of the internucleoside linkages in the wings are unmodified phosphodiester internucleoside linkages. In certain embodiments, the terminal internucleoside linkages are modified. In certain embodiments, the sugar motif of a modified oligonucleotide is a gapmer, and the internucleoside linkage motif comprises at least one phosphodiester internucleoside linkage in at least one wing, wherein the at least one phosphodiester linkage is not a terminal internucleoside linkage, and the remaining internucleoside linkages are phosphorothioate internucleoside linkages. In certain such embodiments, all of the phosphorothioate linkages are stereorandom. In certain embodiments, all of the phosphorothioate linkages in the wings are (Sp) phosphorothioates, and the gap comprises at least one Sp, Sp, Rp motif. In certain embodiments, populations of modified oligonucleotides are enriched for modified oligonucleotides comprising such internucleoside linkage motifs.

C. Certain Lengths

It is possible to increase or decrease the length of an oligonucleotide without eliminating activity. For example, in Woolf et al. (Proc. Natl. Acad. Sci. USA 89:7305-7309, 1992), a series of oligonucleotides 13-25 nucleobases in length were tested for their ability to induce cleavage of a target RNA in an oocyte injection model. Oligonucleotides 25 nucleobases in length with 8 or 11 mismatch bases near the ends of the oligonucleotides were able to direct specific cleavage of the target RNA, albeit to a lesser extent than the oligonucleotides that contained no mismatches. Similarly, target specific cleavage was achieved using 13 nucleobase oligonucleotides, including those with 1 or 3 mismatches.

In certain embodiments, oligonucleotides (including modified oligonucleotides) can have any of a variety of ranges of lengths. In certain embodiments, oligonucleotides consist of X to Y linked nucleosides, where X represents the fewest number of nucleosides in the range and Y represents the largest number nucleosides in the range. In certain such embodiments, X and Y are each independently selected from 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, and 50; provided that X<Y. For example, in certain embodiments, oligonucleotides consist of 12 to 13, 12 to 14, 12 to 15, 12 to 16, 12 to 17, 12 to 18, 12 to 19, 12 to 20, 12 to 21, 12 to 22, 12 to 23, 12 to 24, 12 to 25, 12 to 26, 12 to 27, 12 to 28, 12 to 29, 12 to 30, 13 to 14, 13 to 15, 13 to 16, 13 to 17, 13 to 18, 13 to 19, 13 to 20, 13 to 21, 13 to 22, 13 to 23, 13 to 24, 13 to 25, 13 to 26, 13 to 27, 13 to 28, 13 to 29, 13 to 30, 14 to 15, 14 to 16, 14 to 17, 14 to 18, 14 to 19, 14 to 20, 14 to 21, 14 to 22, 14 to 23, 14 to 24, 14 to 25, 14 to 26, 14 to 27, 14 to 28, 14 to 29, 14 to 30, 15 to 16, 15 to 17, 15 to 18, 15 to 19, 15 to 20, 15 to 21, 15 to 22, 15 to 23, 15 to 24, 15 to 25, 15 to 26, 15 to 27, 15 to 28, 15 to 29, 15 to 30, 16 to 17, 16 to 18, 16 to 19, 16 to 20, 16 to 21, 16 to 22, 16 to 23, 16 to 24, 16 to 25, 16 to 26, 16 to 27, 16 to 28, 16 to 29, 16 to 30, 17 to 18, 17 to 19, 17 to 20, 17 to 21, 17 to 22, 17 to 23, 17 to 24, 17 to 25, 17 to 26, 17 to 27, 17 to 28, 17 to 29, 17 to 30, 18 to 19, 18 to 20, 18 to 21, 18 to 22, 18 to 23, 18 to 24, 18 to 25, 18 to 26, 18 to 27, 18 to 28, 18 to 29, 18 to 30, 19 to 20, 19 to 21, 19 to 22, 19 to 23, 19 to 24, 19 to 25, 19 to 26, 19 to 29, 19 to 28, 19 to 29, 19 to 30, 20 to 21, 20 to 22, 20 to 23, 20 to 24, 20 to 25, 20 to 26, 20 to 27, 20 to 28, 20 to 29, 20 to 30, 21 to 22, 21 to 23, 21 to 24, 21 to 25, 21 to 26, 21 to 27, 21 to 28, 21 to 29, 21 to 30, 22 to 23, 22 to 24, 22 to 25, 22 to 26, 22 to 27, 22 to 28, 22 to 29, 22 to 30, 23 to 24, 23 to 25, 23 to 26, 23 to 27, 23 to 28, 23 to 29, 23 to 30, 24 to 25, 24 to 26, 24 to 27, 24 to 28, 24 to 29, 24 to 30, 25 to 26, 25 to 27, 25 to 28, 25 to 29, 25 to 30, 26 to 27, 26 to 28, 26 to 29, 26 to 30, 27 to 28, 27 to 29, 27 to 30, 28 to 29, 28 to 30, or 29 to 30 linked nucleosides.

D. Certain Modified Oligonucleotides

In certain embodiments, the above modifications (sugar, nucleobase, internucleoside linkage) are incorporated into a modified oligonucleotide. In certain embodiments, modified oligonucleotides are characterized by their modification motifs and overall lengths. In certain embodiments, such parameters are each independent of one another. Thus, unless otherwise indicated, each internucleoside linkage of an oligonucleotide having a gapmer sugar motif may be modified or unmodified and may or may not follow the gapmer modification pattern of the sugar modifications. For example, the internucleoside linkages within the wing regions of a sugar gapmer may be the same or different from one another and may be the same or different from the internucleoside linkages of the gap region of the sugar motif. Likewise, such sugar gapmer oligonucleotides may comprise one or more modified nucleobase independent of the gapmer pattern of the sugar modifications. Unless otherwise indicated, all modifications are independent of nucleobase sequence.

E. Certain Populations of Modified Oligonucleotides

Populations of modified oligonucleotides in which all of the modified oligonucleotides of the population have the same molecular formula can be stereorandom populations or chirally enriched populations. All of the chiral centers of all of the modified oligonucleotides are stereorandom in a stereorandom population. In a chirally enriched population, at least one particular chiral center is not stereorandom in the modified oligonucleotides of the population. In certain embodiments, the modified oligonucleotides of a chirally enriched population are enriched for β-D ribosyl sugar moieties, and all of the phosphorothioate internucleoside linkages are stereorandom. In certain embodiments, the modified oligonucleotides of a chirally enriched population are enriched for both β-D ribosyl sugar moieties and at least one, particular phosphorothioate internucleoside linkage in a particular stereochemical configuration.

F. Nucleobase Sequence

In certain embodiments, oligonucleotides (unmodified or modified oligonucleotides) are further described by their nucleobase sequence. In certain embodiments oligonucleotides have a nucleobase sequence that is complementary to a second oligonucleotide or an identified reference nucleic acid, such as a target nucleic acid. In certain such embodiments, a region of an oligonucleotide has a nucleobase sequence that is complementary to a second oligonucleotide or an identified reference nucleic acid, such as a target nucleic acid. In certain embodiments, the nucleobase sequence of a region or entire length of an oligonucleotide is at least 50%, at least 60%, at least 70%, at least 80%, at least 85%, at least 90%, at least 95%, or 100% complementary to the second oligonucleotide or nucleic acid, such as a target nucleic acid.

II. Certain Oligomeric Compounds

In certain embodiments, provided herein are oligomeric compounds, which consist of an oligonucleotide (modified or unmodified) and optionally one or more conjugate groups and/or terminal groups. Conjugate groups consist of one or more conjugate moiety and a conjugate linker which links the conjugate moiety to the oligonucleotide. Conjugate groups may be attached to either or both ends of an oligonucleotide and/or at any internal position. In certain embodiments, conjugate groups are attached to the 2′-position of a nucleoside of a modified oligonucleotide. In certain embodiments, conjugate groups that are attached to either or both ends of an oligonucleotide are terminal groups. In certain such embodiments, conjugate groups or terminal groups are attached at the 3′ and/or 5′-end of oligonucleotides. In certain such embodiments, conjugate groups (or terminal groups) are attached at the 3′-end of oligonucleotides. In certain embodiments, conjugate groups are attached near the 3′-end of oligonucleotides. In certain embodiments, conjugate groups (or terminal groups) are attached at the 5′-end of oligonucleotides. In certain embodiments, conjugate groups are attached near the 5′-end of oligonucleotides.

Examples of terminal groups include but are not limited to conjugate groups, capping groups, phosphate moieties, protecting groups, modified or unmodified nucleosides, and two or more nucleosides that are independently modified or unmodified.

A. Certain Conjugate Groups

In certain embodiments, oligonucleotides are covalently attached to one or more conjugate groups. In certain embodiments, conjugate groups modify one or more properties of the attached oligonucleotide, including but not limited to pharmacodynamics, pharmacokinetics, stability, binding, absorption, tissue distribution, cellular distribution, cellular uptake, charge and clearance. In certain embodiments, conjugate groups impart a new property on the attached oligonucleotide, e.g., fluorophores or reporter groups that enable detection of the oligonucleotide. Certain conjugate groups and conjugate moieties have been described previously, for example: cholesterol moiety (Letsinger et al., Proc. Natl. Acad. Sci. USA, 1989, 86, 6553-6556), cholic acid (Manoharan et al., Bioorg. Med. Chem. Lett., 1994, 4, 1053-1060), a thioether, e.g., hexyl-S-tritylthiol (Manoharan et al., Ann. N.Y. Acad. Sci., 1992, 660, 306-309; Manoharan et al., Bioorg. Med. Chem. Lett., 1993, 3, 2765-2770), a thiocholesterol (Oberhauser et al., Nucl. Acids Res., 1992, 20, 533-538), an aliphatic chain, e.g., do-decan-diol or undecyl residues (Saison-Behmoaras et al., EMBO J., 1991, 10, 1111-1118; Kabanov et al., FEBS Lett., 1990, 259, 327-330; Svinarchuk et al., Biochimie, 1993, 75, 49-54), a phospholipid, e.g., di-hexadecyl-rac-glycerol or triethyl-ammonium 1,2-di-O-hexadecyl-rac-glycero-3-H-phosphonate (Manoharan et al., Tetrahedron Lett., 1995, 36, 3651-3654; Shea et al., Nucl. Acids Res., 1990, 18, 3777-3783), a polyamine or a polyethylene glycol chain (Manoharan et al., Nucleosides & Nucleotides, 1995, 14, 969-973), or adamantane acetic acid a palmityl moiety (Mishra et al., Biochim. Biophys. Acta, 1995, 1264, 229-237), an octadecylamine or hexylamino-carbonyl-oxycholesterol moiety (Crooke et al., J. Pharmacol. Exp. Ther., 1996, 277, 923-937), a tocopherol group (Nishina et al., Molecular Therapy Nucleic Acids, 2015, 4, e220; and Nishina et al., Molecular Therapy, 2008, 16, 734-740), or a GalNAc cluster (e.g., WO2014/179620).

In certain embodiments, conjugate groups may be selected from any of a C22 alkyl, C20 alkyl, C16 alkyl, C10 alkyl, C21 alkyl, C19 alkyl, C18 alkyl, C15 alkyl, C14 alkyl, C13 alkyl, C12 alkyl, C11 alkyl, C9 alkyl, C8 alkyl, C7 alkyl, C6 alkyl, C5 alkyl, C22 alkenyl, C20 alkenyl, C16 alkenyl, C10 alkenyl, C21 alkenyl, C19 alkenyl, C18 alkenyl, C15 alkenyl, C14 alkenyl, C13 alkenyl, C12 alkenyl, C11 alkenyl, C9 alkenyl, C8 alkenyl, C7 alkenyl, C6 alkenyl, or C5 alkenyl.

In certain embodiments, conjugate groups may be selected from any of C22 alkyl, C20 alkyl, C16 alkyl, C10 alkyl, C21 alkyl, C19 alkyl, C18 alkyl, C15 alkyl, C14 alkyl, C13 alkyl, C12 alkyl, C11 alkyl, C9 alkyl, C8 alkyl, C7 alkyl, C6 alkyl, and C5 alkyl, where the alkyl chain has one or more unsaturated bonds.

1. Conjugate Moieties

Conjugate moieties include, without limitation, intercalators, reporter molecules, polyamines, polyamides, peptides, carbohydrates, vitamin moieties, polyethylene glycols, thioethers, polyethers, cholesterols, thiocholesterols, cholic acid moieties, folate, lipids, phospholipids, biotin, phenazine, phenanthridine, anthraquinone, adamantane, acridine, fluoresceins, rhodamines, coumarins, fluorophores, and dyes.

In certain embodiments, a conjugate moiety comprises an active drug substance, for example, aspirin, warfarin, phenylbutazone, ibuprofen, suprofen, fen-bufen, ketoprofen, (S)-(+)-pranoprofen, carprofen, dansylsarcosine, 2,3,5-triiodobenzoic acid, fingolimod, flufenamic acid, folinic acid, a benzothiadiazide, chlorothiazide, a diazepine, indo-methicin, a barbiturate, a cephalosporin, a sulfa drug, an antidiabetic, an antibacterial or an antibiotic.

2. Conjugate Linkers

Conjugate moieties are attached to oligonucleotides through conjugate linkers. In certain oligomeric compounds, the conjugate linker is a single chemical bond (i.e., the conjugate moiety is attached directly to an oligonucleotide through a single bond). In certain embodiments, the conjugate linker comprises a chain structure, such as a hydrocarbyl chain, or an oligomer of repeating units such as ethylene glycol, nucleosides, or amino acid units.

In certain embodiments, a conjugate linker comprises one or more groups selected from alkyl, amino, oxo, amide, disulfide, polyethylene glycol, ether, thioether, and hydroxylamino. In certain such embodiments, the conjugate linker comprises groups selected from alkyl, amino, oxo, amide and ether groups. In certain embodiments, the conjugate linker comprises groups selected from alkyl and amide groups. In certain embodiments, the conjugate linker comprises groups selected from alkyl and ether groups. In certain embodiments, the conjugate linker comprises at least one phosphorus moiety. In certain embodiments, the conjugate linker comprises at least one phosphate group. In certain embodiments, the conjugate linker includes at least one neutral linking group.

In certain embodiments, conjugate linkers, including the conjugate linkers described above, are bifunctional linking moieties, e.g., those known in the art to be useful for attaching conjugate groups to parent compounds, such as the oligonucleotides provided herein. In general, a bifunctional linking moiety comprises at least two functional groups. One of the functional groups is selected to bind to a particular site on a parent compound and the other is selected to bind to a conjugate group. Examples of functional groups used in a bifunctional linking moiety include but are not limited to electrophiles for reacting with nucleophilic groups and nucleophiles for reacting with electrophilic groups. In certain embodiments, bifunctional linking moieties comprise one or more groups selected from amino, hydroxyl, carboxylic acid, thiol, alkyl, alkenyl, and alkynyl.

Examples of conjugate linkers include but are not limited to pyrrolidine, 8-amino-3,6-dioxaoctanoic acid (ADO), succinimidyl 4-(N-maleimidomethyl) cyclohexane-1-carboxylate (SMCC) and 6-aminohexanoic acid (AHEX or AHA). Other conjugate linkers include but are not limited to substituted or unsubstituted C₁-C₁₀ alkyl, substituted or unsubstituted C₂-C₁₀ alkenyl or substituted or unsubstituted C₂-C₁₀ alkynyl, wherein a nonlimiting list of preferred substituent groups includes hydroxyl, amino, alkoxy, carboxy, benzyl, phenyl, nitro, thiol, thioalkoxy, halogen, alkyl, aryl, alkenyl and alkynyl.

In certain embodiments, conjugate linkers comprise 1-10 linker-nucleosides. In certain embodiments, conjugate linkers comprise 2-5 linker-nucleosides. In certain embodiments, conjugate linkers comprise exactly 3 linker-nucleosides. In certain embodiments, conjugate linkers comprise the TCA motif. In certain embodiments, such linker-nucleosides are modified nucleosides. In certain embodiments such linker-nucleosides comprise a modified sugar moiety. In certain embodiments, linker-nucleosides are unmodified. In certain embodiments, linker-nucleosides comprise an optionally protected heterocyclic base selected from a purine, substituted purine, pyrimidine or substituted pyrimidine. In certain embodiments, a cleavable moiety is a nucleoside selected from uracil, thymine, cytosine, 4-N-benzoylcytosine, 5-methyl cytosine, 4-N-benzoyl-5-methyl cytosine, adenine, 6-N-benzoyladenine, guanine and 2-N-isobutyrylguanine. It is typically desirable for linker-nucleosides to be cleaved from the oligomeric compound after it reaches a target tissue. Accordingly, linker-nucleosides are typically linked to one another and to the remainder of the oligomeric compound through cleavable bonds. In certain embodiments, such cleavable bonds are phosphodiester bonds.

Herein, linker-nucleosides are not considered to be part of the oligonucleotide. Accordingly, in embodiments in which an oligomeric compound comprises an oligonucleotide consisting of a specified number or range of linked nucleosides and/or a specified percent complementarity to a reference nucleic acid and the oligomeric compound also comprises a conjugate group comprising a conjugate linker comprising linker-nucleosides, those linker-nucleosides are not counted toward the length of the oligonucleotide and are not used in determining the percent complementarity of the oligonucleotide for the reference nucleic acid. For example, an oligomeric compound may comprise (1) a modified oligonucleotide consisting of 8-30 nucleosides and (2) a conjugate group comprising 1-10 linker-nucleosides that are contiguous with the nucleosides of the modified oligonucleotide. The total number of contiguous linked nucleosides in such an oligomeric compound is more than 30. Alternatively, an oligomeric compound may comprise a modified oligonucleotide consisting of 8-30 nucleosides and no conjugate group. The total number of contiguous linked nucleosides in such an oligomeric compound is no more than 30. Unless otherwise indicated conjugate linkers comprise no more than 10 linker-nucleosides. In certain embodiments, conjugate linkers comprise no more than 5 linker-nucleosides. In certain embodiments, conjugate linkers comprise no more than 3 linker-nucleosides. In certain embodiments, conjugate linkers comprise no more than 2 linker-nucleosides. In certain embodiments, conjugate linkers comprise no more than 1 linker-nucleoside.

In certain embodiments, it is desirable for a conjugate group to be cleaved from the oligonucleotide. For example, in certain circumstances oligomeric compounds comprising a particular conjugate moiety are better taken up by a particular cell type, but once the oligomeric compound has been taken up, it is desirable that the conjugate group be cleaved to release the unconjugated or parent oligonucleotide. Thus, certain conjugate linkers may comprise one or more cleavable moieties. In certain embodiments, a cleavable moiety is a cleavable bond. In certain embodiments, a cleavable moiety is a group of atoms comprising at least one cleavable bond. In certain embodiments, a cleavable moiety comprises a group of atoms having one, two, three, four, or more than four cleavable bonds. In certain embodiments, a cleavable moiety is selectively cleaved inside a cell or subcellular compartment, such as a lysosome. In certain embodiments, a cleavable moiety is selectively cleaved by endogenous enzymes, such as nucleases.

In certain embodiments, a cleavable bond is selected from among: an amide, an ester, an ether, one or both esters of a phosphodiester, a phosphate ester, a carbamate, or a disulfide. In certain embodiments, a cleavable bond is one or both of the esters of a phosphodiester. In certain embodiments, a cleavable moiety comprises a phosphate or phosphodiester. In certain embodiments, the cleavable moiety is a phosphate linkage between an oligonucleotide and a conjugate moiety or conjugate group.

In certain embodiments, a cleavable moiety comprises or consists of one or more linker-nucleosides. In certain such embodiments, the one or more linker-nucleosides are linked to one another and/or to the remainder of the oligomeric compound through cleavable bonds. In certain embodiments, such cleavable bonds are unmodified phosphodiester bonds. In certain embodiments, a cleavable moiety is 2′-deoxynucleoside that is attached to either the 3′ or 5′-terminal nucleoside of an oligonucleotide by a phosphate internucleoside linkage and covalently attached to the remainder of the conjugate linker or conjugate moiety by a phosphate or phosphorothioate linkage. In certain such embodiments, the cleavable moiety is 2′-deoxyadenosine.

3. Cell-Targeting Moieties

In certain embodiments, a conjugate group comprises a cell-targeting moiety. In certain embodiments, a conjugate group has the general formula:

wherein n is from 1 to about 3, m is 0 when n is 1, m is 1 when n is 2 or greater, j is 1 or 0, and k is 1 or 0.

In certain embodiments, n is 1, j is 1 and k is 0. In certain embodiments, n is 1, j is 0 and k is 1. In certain embodiments, n is 1, j is 1 and k is 1. In certain embodiments, n is 2, j is 1 and k is 0. In certain embodiments, n is 2, j is 0 and k is 1. In certain embodiments, n is 2, j is 1 and k is 1. In certain embodiments, n is 3, j is 1 and k is 0. In certain embodiments, n is 3, j is 0 and k is 1. In certain embodiments, n is 3, j is 1 and k is 1.

In certain embodiments, conjugate groups comprise cell-targeting moieties that have at least one tethered ligand. In certain embodiments, cell-targeting moieties comprise two tethered ligands covalently attached to a branching group. In certain embodiments, cell-targeting moieties comprise three tethered ligands covalently attached to a branching group.

B. Certain Terminal Groups

In certain embodiments, oligomeric compounds comprise one or more terminal groups. In certain such embodiments, oligomeric compounds comprise a stabilized 5′-phophate. Stabilized 5′-phosphates include, but are not limited to 5′-phosphanates, including, but not limited to 5′-vinylphosphonates. In certain embodiments, terminal groups comprise one or more abasic nucleosides and/or inverted nucleosides. In certain embodiments, terminal groups comprise one or more 2′-linked nucleosides. In certain such embodiments, the 2′-linked nucleoside is an abasic nucleoside.

III. Oligomeric Duplexes

In certain embodiments, oligomeric compounds described herein comprise an oligonucleotide, having a nucleobase sequence complementary to that of a target nucleic acid. In certain embodiments, an oligomeric compound is paired with a second oligomeric compound to form an oligomeric duplex. Such oligomeric duplexes comprise a first oligomeric compound having a region complementary to a target nucleic acid and a second oligomeric compound having a region complementary to the first oligomeric compound. In certain embodiments, the first oligomeric compound of an oligomeric duplex comprises or consists of (1) a modified or unmodified oligonucleotide and optionally a conjugate group and (2) a second modified or unmodified oligonucleotide and optionally a conjugate group. Either or both oligomeric compounds of an oligomeric duplex may comprise a conjugate group. The oligonucleotides of each oligomeric compound of an oligomeric duplex may include non-complementary overhanging nucleosides.

IV. Antisense Activity

In certain embodiments, oligomeric compounds and oligomeric duplexes are capable of hybridizing to a target nucleic acid, resulting in at least one antisense activity; such oligomeric compounds and oligomeric duplexes are antisense compounds. In certain embodiments, antisense compounds have antisense activity when they reduce or inhibit the amount or activity of a target nucleic acid by 25% or more in the standard cell assay. In certain embodiments, antisense compounds selectively affect one or more target nucleic acid. Such antisense compounds comprise a nucleobase sequence that hybridizes to one or more target nucleic acid, resulting in one or more desired antisense activity and does not hybridize to one or more non-target nucleic acid or does not hybridize to one or more non-target nucleic acid in such a way that results in significant undesired antisense activity.

In certain antisense activities, hybridization of an antisense compound to a target nucleic acid results in recruitment of a protein that cleaves the target nucleic acid. For example, certain antisense compounds result in RNase H mediated cleavage of the target nucleic acid. RNase H is a cellular endonuclease that cleaves the RNA strand of an RNA:DNA duplex. The DNA in such an RNA:DNA duplex need not be unmodified DNA. In certain embodiments, described herein are antisense compounds that are sufficiently “DNA-like” to elicit RNase H activity. In certain embodiments, one or more non-DNA-like nucleoside in the gap of a gapmer is tolerated.

In certain antisense activities, an antisense compound or a portion of an antisense compound is loaded into an RNA-induced silencing complex (RISC), ultimately resulting in cleavage of the target nucleic acid. For example, certain antisense compounds result in cleavage of the target nucleic acid by Argonaute. Antisense compounds that are loaded into RISC are RNAi compounds. RNAi compounds may be double-stranded (siRNA) or single-stranded (ssRNA).

In certain embodiments, hybridization of an antisense compound to a target nucleic acid does not result in recruitment of a protein that cleaves that target nucleic acid. In certain embodiments, hybridization of the antisense compound to the target nucleic acid results in alteration of splicing of the target nucleic acid. In certain embodiments, hybridization of an antisense compound to a target nucleic acid results in inhibition of a binding interaction between the target nucleic acid and a protein or other nucleic acid. In certain embodiments, hybridization of an antisense compound to a target nucleic acid results in alteration of translation of the target nucleic acid.

Antisense activities may be observed directly or indirectly. In certain embodiments, observation or detection of an antisense activity involves observation or detection of a change in an amount of a target nucleic acid or protein encoded by such target nucleic acid, a change in the ratio of splice variants of a nucleic acid or protein and/or a phenotypic change in a cell or animal.

V. Certain Target Nucleic Acids

In certain embodiments, oligomeric compounds comprise or consist of an oligonucleotide comprising a region that is complementary to a target nucleic acid. In certain embodiments, the target nucleic acid is an endogenous RNA molecule. In certain embodiments, the target nucleic acid encodes a protein. In certain such embodiments, the target nucleic acid is selected from: a mature mRNA and a pre-mRNA, including intronic, exonic and untranslated regions. In certain embodiments, the target RNA is a mature mRNA. In certain embodiments, the target nucleic acid is a pre-mRNA. In certain such embodiments, the target region is entirely within an intron. In certain embodiments, the target region spans an intron/exon junction. In certain embodiments, the target region is at least 50% within an intron. In certain embodiments, the target nucleic acid is the RNA transcriptional product of a retrogene. In certain embodiments, the target nucleic acid is a non-coding RNA. In certain such embodiments, the target non-coding RNA is selected from: a long non-coding RNA, a short non-coding RNA, an intronic RNA molecule.

A. Complementarity/Mismatches to the Target Nucleic Acid

It is possible to introduce mismatch bases without eliminating activity. For example, Gautschi et al (J. Natl. Cancer Inst. 93:463-471, March 2001) demonstrated the ability of an oligonucleotide having 100% complementarity to the bcl-2 mRNA and having 3 mismatches to the bcl-xL mRNA to reduce the expression of both bcl-2 and bcl-xL in vitro and in vivo. Furthermore, this oligonucleotide demonstrated potent anti-tumor activity in vivo. Maher and Dolnick (Nuc. Acid. Res. 16:3341-3358, 1988) tested a series of tandem 14 nucleobase oligonucleotides, and 28 and 42 nucleobase oligonucleotides comprised of the sequence of two or three of the tandem oligonucleotides, respectively, for their ability to arrest translation of human DHFR in a rabbit reticulocyte assay. Each of the three 14 nucleobase oligonucleotides alone was able to inhibit translation, albeit at a more modest level than the 28 or 42 nucleobase oligonucleotides.

In certain embodiments, oligonucleotides are complementary to the target nucleic acid over the entire length of the oligonucleotide. In certain embodiments, oligonucleotides are 99%, 95%, 90%, 85%, or 80% complementary to the target nucleic acid. In certain embodiments, oligonucleotides are at least 80% complementary to the target nucleic acid over the entire length of the oligonucleotide and comprise a region that is 100% or fully complementary to a target nucleic acid. In certain embodiments, the region of full complementarity is from 6 to 20, 10 to 18, or 18 to 20 nucleobases in length.

In certain embodiments, oligonucleotides comprise one or more mismatched nucleobases relative to the target nucleic acid. In certain embodiments, antisense activity against the target is reduced by such mismatch, but activity against a non-target is reduced by a greater amount. Thus, in certain embodiments selectivity of the oligonucleotide is improved. In certain embodiments, the mismatch is specifically positioned within an oligonucleotide having a gapmer motif. In certain embodiments, the mismatch is at position 1, 2, 3, 4, 5, 6, 7, or 8 from the 5′-end of the gap region. In certain embodiments, the mismatch is at position 9, 8, 7, 6, 5, 4, 3, 2, 1 from the 3′-end of the gap region. In certain embodiments, the mismatch is at position 1, 2, 3, or 4 from the 5′-end of the wing region. In certain embodiments, the mismatch is at position 4, 3, 2, or 1 from the 3′-end of the wing region.

B. PMP22

In certain embodiments, oligomeric compounds comprise or consist of an oligonucleotide comprising a region that is complementary to a target nucleic acid, wherein the target nucleic acid is PMP22. In certain embodiments, PMP22 nucleic acid has the sequence set forth in SEQ ID NO: 1 (GENBANK Accession No. NM_000304.3), SEQ ID NO: 2 (GENBANK Accession No. NC_000017.11 truncated from nucleotides 15227001 to 15268000), SEQ ID NO: 3 (GENBANK Accession No. NM_153321.2), SEQ ID NO: 4 (GENBANK Accession No. NM_001281455.1), SEQ ID NO: 5 (GENBANK Accession No. NM_001281456.1), SEQ ID NO: 6 (GENBANK Accession No. NR_104017.1), SEQ ID NO:7 (GENBANK Accession No. NR_104018.1), or SEQ ID NO: 8 (GENBANK Accession No. AK300690.1).

In certain embodiments, contacting a cell with an oligomeric compound complementary to SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, SEQ ID NO: 6, SEQ ID NO: 7, or SEQ ID NO: 8 reduces the amount of PMP22 RNA, and in certain embodiments reduces the amount of PMP22 protein. In certain embodiments, the oligomeric compound consists of a modified oligonucleotide. In certain embodiments, contacting a cell with an oligomeric compound complementary to SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, SEQ ID NO: 6, SEQ ID NO: 7, or SEQ ID NO: 8 results in reduced demyelination and/or reduced axonal damage and/or loss. In certain embodiments, the oligomeric compound consists of a modified oligonucleotide. In certain embodiments, the oligomeric compound consists of a modified oligonucleotide and a conjugate group.

C. Certain Target Nucleic Acids in Certain Tissues

In certain embodiments, oligomeric compounds comprise or consist of an oligonucleotide comprising a region that is complementary to a target nucleic acid, wherein the target nucleic acid is expressed in a pharmacologically relevant tissue. In certain embodiments, the pharmacologically relevant tissues are the cells and tissues that comprise the peripheral nervous system. Such tissues include the sciatic, tibial, peroneal, sural, radial, median and ulnar nerves.

VI. Certain Pharmaceutical Compositions

In certain embodiments, described herein are pharmaceutical compositions comprising one or more oligomeric compounds. In certain embodiments, the one or more oligomeric compounds each consists of a modified oligonucleotide. In certain embodiments, the pharmaceutical composition comprises a pharmaceutically acceptable diluent or carrier. In certain embodiments, a pharmaceutical composition comprises or consists of a sterile saline solution and one or more oligomeric compound. In certain embodiments, the sterile saline is pharmaceutical grade saline. In certain embodiments, a pharmaceutical composition comprises or consists of one or more oligomeric compound and sterile water. In certain embodiments, the sterile water is pharmaceutical grade water. In certain embodiments, a pharmaceutical composition comprises or consists of one or more oligomeric compound and phosphate-buffered saline (PBS). In certain embodiments, the sterile PBS is pharmaceutical grade PBS. In certain embodiments, a pharmaceutical composition comprises or consists of one or more oligomeric compound and artificial cerebrospinal fluid. In certain embodiments, the artificial cerebrospinal fluid is pharmaceutical grade.

In certain embodiments, a pharmaceutical composition comprises a modified oligonucleotide and artificial cerebrospinal fluid. In certain embodiments, a pharmaceutical composition consists of a modified oligonucleotide and artificial cerebrospinal fluid. In certain embodiments, a pharmaceutical composition consists essentially of a modified oligonucleotide and artificial cerebrospinal fluid. In certain embodiments, the artificial cerebrospinal fluid is pharmaceutical grade.

In certain embodiments, pharmaceutical compositions comprise one or more oligomeric compound and one or more excipients. In certain embodiments, excipients are selected from water, salt solutions, alcohol, polyethylene glycols, gelatin, lactose, amylase, magnesium stearate, talc, silicic acid, viscous paraffin, hydroxymethylcellulose and polyvinylpyrrolidone.

In certain embodiments, oligomeric compounds may be admixed with pharmaceutically acceptable active and/or inert substances for the preparation of pharmaceutical compositions or formulations. Compositions and methods for the formulation of pharmaceutical compositions depend on a number of criteria, including, but not limited to, route of administration, extent of disease, or dose to be administered.

In certain embodiments, pharmaceutical compositions comprising an oligomeric compound encompass any pharmaceutically acceptable salts of the oligomeric compound, esters of the oligomeric compound, or salts of such esters. In certain embodiments, pharmaceutical compositions comprising oligomeric compounds comprising one or more oligonucleotide, upon administration to an animal, including a human, are capable of providing (directly or indirectly) the biologically active metabolite or residue thereof. Accordingly, for example, the disclosure is also drawn to pharmaceutically acceptable salts of oligomeric compounds, prodrugs, pharmaceutically acceptable salts of such prodrugs, and other bioequivalents. Suitable pharmaceutically acceptable salts include, but are not limited to, sodium and potassium salts. In certain embodiments, prodrugs comprise one or more conjugate group attached to an oligonucleotide, wherein the conjugate group is cleaved by endogenous nucleases within the body.

Lipid moieties have been used in nucleic acid therapies in a variety of methods. In certain such methods, the nucleic acid, such as an oligomeric compound, is introduced into preformed liposomes or lipoplexes made of mixtures of cationic lipids and neutral lipids. In certain methods, DNA complexes with mono- or poly-cationic lipids are formed without the presence of a neutral lipid. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to a particular cell or tissue. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to fat tissue. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to muscle tissue.

In certain embodiments, pharmaceutical compositions comprise a delivery system. Examples of delivery systems include, but are not limited to, liposomes and emulsions. Certain delivery systems are useful for preparing certain pharmaceutical compositions including those comprising hydrophobic compounds. In certain embodiments, certain organic solvents such as dimethylsulfoxide are used.

In certain embodiments, pharmaceutical compositions comprise one or more tissue-specific delivery molecules designed to deliver the one or more pharmaceutical agents of the present invention to specific tissues or cell types. For example, in certain embodiments, pharmaceutical compositions include liposomes coated with a tissue-specific antibody.

In certain embodiments, pharmaceutical compositions comprise a co-solvent system. Certain of such co-solvent systems comprise, for example, benzyl alcohol, a nonpolar surfactant, a water-miscible organic polymer, and an aqueous phase. In certain embodiments, such co-solvent systems are used for hydrophobic compounds. A non-limiting example of such a co-solvent system is the VPD co-solvent system, which is a solution of absolute ethanol comprising 3% w/v benzyl alcohol, 8% w/v of the nonpolar surfactant Polysorbate 80™ and 65% w/v polyethylene glycol 300. The proportions of such co-solvent systems may be varied considerably without significantly altering their solubility and toxicity characteristics. Furthermore, the identity of co-solvent components may be varied: for example, other surfactants may be used instead of Polysorbate 80™; the fraction size of polyethylene glycol may be varied; other biocompatible polymers may replace polyethylene glycol, e.g., polyvinyl pyrrolidone; and other sugars or polysaccharides may substitute for dextrose.

In certain embodiments, pharmaceutical compositions are prepared for oral administration. In certain embodiments, pharmaceutical compositions are prepared for buccal administration. In certain embodiments, a pharmaceutical composition is prepared for administration by injection (e.g., intravenous, subcutaneous, intramuscular, intrathecal (IT), intracerebroventricular (ICV), etc.). In certain of such embodiments, a pharmaceutical composition comprises a carrier and is formulated in aqueous solution, such as water or physiologically compatible buffers such as Hanks's solution, Ringer's solution, or physiological saline buffer. In certain embodiments, other ingredients are included (e.g., ingredients that aid in solubility or serve as preservatives). In certain embodiments, injectable suspensions are prepared using appropriate liquid carriers, suspending agents and the like. Certain pharmaceutical compositions for injection are presented in unit dosage form, e.g., in ampoules or in multi-dose containers. Certain pharmaceutical compositions for injection are suspensions, solutions or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents. Certain solvents suitable for use in pharmaceutical compositions for injection include, but are not limited to, lipophilic solvents and fatty oils, such as sesame oil, synthetic fatty acid esters, such as ethyl oleate or triglycerides, and liposomes.

Under certain conditions, certain compounds disclosed herein act as acids. Although such compounds may be drawn or described in protonated (free acid) form, or ionized and in association with a cation (salt) form, aqueous solutions of such compounds exist in equilibrium among such forms. For example, a phosphate linkage of an oligonucleotide in aqueous solution exists in equilibrium among free acid, anion and salt forms. Unless otherwise indicated, compounds described herein are intended to include all such forms. Moreover, certain oligonucleotides have several such linkages, each of which is in equilibrium. Thus, oligonucleotides in solution exist in an ensemble of forms at multiple positions all at equilibrium. The term “oligonucleotide” is intended to include all such forms. Drawn structures necessarily depict a single form. Nevertheless, unless otherwise indicated, such drawings are likewise intended to include corresponding forms. Herein, a structure depicting the free acid of a compound followed by the term “or salt thereof” expressly includes all such forms that may be fully or partially protonated/de-protonated/in association with a cation. In certain instances, one or more specific cation is identified.

In certain embodiments, modified oligonucleotides or oligomeric compounds are in aqueous solution with sodium. In certain embodiments, modified oligonucleotides or oligomeric compounds are in aqueous solution with potassium. In certain embodiments, modified oligonucleotides or oligomeric compounds are in PBS. In certain embodiments, modified oligonucleotides or oligomeric compounds are in water. In certain such embodiments, the pH of the solution is adjusted with NaOH and/or HCl to achieve a desired pH.

Herein, certain specific doses are described. A dose may be in the form of a dosage unit. For clarity, a dose (or dosage unit) of a modified oligonucleotide or an oligomeric compound in milligrams indicates the mass of the free acid form of the modified oligonucleotide or oligomeric compound. As described above, in aqueous solution, the free acid is in equilibrium with anionic and salt forms. However, for the purpose of calculating dose, it is assumed that the modified oligonucleotide or oligomeric compound exists as a solvent-free, sodium-acetate free, anhydrous, free acid. For example, where a modified oligonucleotide or an oligomeric compound is in solution comprising sodium (e.g., saline), the modified oligonucleotide or oligomeric compound may be partially or fully de-protonated and in association with Na+ ions. However, the mass of the protons are nevertheless counted toward the weight of the dose, and the mass of the Na+ ions are not counted toward the weight of the dose. Thus, for example, a dose, or dosage unit, of 10 mg of Compound No. 684267 equals the number of fully protonated molecules that weighs 10 mg. This would be equivalent to 10.6 mg of solvent-free, sodium-acetate free, anhydrous sodiated Compound No. 684267. When an oligomeric compound comprises a conjugate group, the mass of the conjugate group is included in calculating the dose of such oligomeric compound. If the conjugate group also has an acid, the conjugate group is likewise assumed to be fully protonated for the purpose of calculating dose.

VII. Certain Comparator Compositions

In certain embodiments, Compound No. 684267, a 3-10-3 cEt gapmer having a sequence (from 5′ to 3′) of ATCTTCAATCAACAGC (SEQ ID NO: 30), wherein each internucleoside linkage is a phosphorothioate internucleoside linkage, each cytosine is a 5-methyl cytosine, and wherein each of nucleosides 1-3 and 14-16 comprise a cEt modified sugar, which was previously described in WO2017156242, incorporated herein by reference, is a comparator compound.

In certain embodiments, Compound No. 684394, a 3-10-3 cEt gapmer having a sequence (from 5′ to 3′) of ATTATTCAGGTCTCCA (SEQ ID NO: 31), wherein each internucleoside linkage is a phosphorothioate internucleoside linkage, each cytosine is a 5-methyl cytosine, and wherein each of nucleosides 1-3 and 14-16 comprise a cEt modified sugar, which was previously described in WO2017156242, incorporated herein by reference, is a comparator compound.

As demonstrated in Example 1, Table 2 of WO2017156242, reproduced as Example 12, Table 102 herein, Compound No. 684394 is more efficacious in vivo in transgenic mice than Compound No. 684267. For example, as provided in Table 102 Compound No. 684394 achieved an expression level of 45% control in a multi-dose study (three weekly doses of 50 mg/kg) in C22 transgenic mice, while Compound No. 684267 achieved an expression level of 83% control in a multi-dose study in C22 transgenic mice. Therefore, Compound No. 684394 is an appropriate comparator compound for in vivo efficacy in C22 transgenic mice.

In certain embodiments, compounds described herein are superior relative to Compound No. 684394 because they demonstrate one or more improved properties, such as, in vivo efficacy.

For example, as described herein, certain comparator compound Compound No. 923867 is more efficacious in vivo than comparator Compound No. 684394. For example, as provided in Example 12, Compound. No. 923867 achieved an expression level of 34% control (Table 103) in a single-dose (30 mg/kg) study in C22 transgenic mice, whereas comparator Compound No. 684394 achieved an expression level of 73% control in a single-dose (30 mg/kg) study in C22 transgenic mice. Therefore, certain compounds described herein are more efficacious than comparator Compound No. 684394 in this assay.

VIII. Certain Hotspot Regions

1. Nucleobases 4169-4198 of SEQ ID NO: 2

In certain embodiments, nucleobases 4169-4198 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 4169-4198 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1264, 164, and 1842 are complementary within nucleobases 4169-4198 of SEQ ID NO: 2.

Compounds 885951, 866542, and 923827 are complementary within nucleobases 4169-4198 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 4169-4198 of SEQ ID NO: 2 achieve at least 60% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 4169-4198 of SEQ ID NO: 2 achieve an average of 76% reduction of PMP22 RNA in vitro in the standard cell assay.

2. Nucleobases 8812-8907 of SEQ ID NO: 2

In certain embodiments, nucleobases 8812-8907 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 8812-8907 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 642, 717, 792, 867, 1018, 1093, 1168, 1242, 1317, 1392, 1468, 1542, 1692, 1767, 4823-4824, 4890-4891, 4950-4952, 5019-5021, 5089-5091, 5157-5159, and 5239-5245 are complementary within nucleobases 8812-8907 of SEQ ID NO: 2.

Compounds 684174-684189, 718272-718278, and 885469-885482 are complementary within nucleobases 8812-8907 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 8812-8907 of SEQ ID NO: 2 achieve at least 36% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 8812-8907 of SEQ ID NO: 2 achieve an average of 64% reduction of PMP22 RNA in vitro in the standard cell assay.

3. Nucleobases 10019-10050 of SEQ ID NO: 2

In certain embodiments, nucleobases 10019-10050 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 10019-10050 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1498, 1573, 1648, 2232, 3956, and 4033 are complementary within nucleobases 10019-10050 of SEQ ID NO: 2.

Compounds 886131-886133, 923882, and 1210775-1210776 are complementary within nucleobases 10019-10050 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 10019-10050 of SEQ ID NO: 2 achieve at least 59% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 10019-10050 of SEQ ID NO: 2 achieve an average of 76% reduction of PMP22 RNA in vitro in the standard cell assay.

4. Nucleobases 11247-11276 of SEQ ID NO: 2

In certain embodiments, nucleobases 11247-11276 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 11247-11276 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 601, 676, 2003, 2080, 2157, 2234, 4036, 4112, and 4390 are complementary within nucleobases 11247-11276 of SEQ ID NO: 2.

Compounds 886178-886179, 923898-923901, 1209945, and 1210858-1210859 are complementary within nucleobases 11247-11276 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 11247-11276 of SEQ ID NO: 2 achieve at least 54% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 11247-11276 of SEQ ID NO: 2 achieve an average of 78% reduction of PMP22 RNA in vitro in the standard cell assay.

5. Nucleobases 12058-12096 of SEQ ID NO: 2

In certain embodiments, nucleobases 12058-12096 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 12058-12096 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1127, 1202, 4342, and 4422 are complementary within nucleobases 12058-12096 of SEQ ID NO: 2.

Compounds 886206-886207 and 1210890-1210891 are complementary within nucleobases 12058-12096 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 12058-12096 of SEQ ID NO: 2 achieve at least 56% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 12058-12096 of SEQ ID NO: 2 achieve an average of 66% reduction of PMP22 RNA in vitro in the standard cell assay.

6. Nucleobases 12357-12387 of SEQ ID NO: 2

In certain embodiments, nucleobases 12357-12387 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 12357-12387 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 2348, 3078, and 3807 are complementary within nucleobases 12357-12387 of SEQ ID NO: 2.

Compounds 924272, 1209956, and 1210911 are complementary within nucleobases 12357-12387 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 12357-12387 of SEQ ID NO: 2 achieve at least 70% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 12357-12387 of SEQ ID NO: 2 achieve an average of 81% reduction of PMP22 RNA in vitro in the standard cell assay.

7. Nucleobases 15721-15769 of SEQ ID NO: 2

In certain embodiments, nucleobases 15914-15971 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 15721-15769 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos 1282, 1357, 1432, 1855, 1932, 2120, 2197, 2547, 2887, 2963, 3040, 3079, and 3157 are complementary within nucleobases 15721-15769 of SEQ ID NO: 2.

Compounds 886307-886309, 923955-923957, 924299-924300, 1209984-1209985, and 1211067-1211069 are complementary within nucleobases 15721-15769 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 15721-15769 of SEQ ID NO: 2 achieve at least 47% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 15721-15769 of SEQ ID NO: 2 achieve an average of 67% reduction of PMP22 RNA in vitro in the standard cell assay.

8. Nucleobases 15914-15971 of SEQ ID NO: 2

In certain embodiments, nucleobases 15914-15971 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 15914-15971 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 383, 458, 532, 2086, 2163, 3504, 3582, 3659, 3737, 4005, and 5147 are complementary within nucleobases 15914-15971 of SEQ ID NO: 2.

Compounds 684540, 886314-886316, 923959-923960, 1209996, and 1211075-1211078 are complementary within nucleobases 15914-15971 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 15914-15971 of SEQ ID NO: 2 achieve at least 50% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 15914-15971 of SEQ ID NO: 2 achieve an average of 69% reduction of PMP22 RNA in vitro in the standard cell assay.

9. Nucleobases 17354-17403 of SEQ ID NO: 2

In certain embodiments, nucleobases 17354-17403 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 17354-17403 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 385, 460, 534, 2088, 3815, 3892, and 3969 are complementary within nucleobases 17354-17403 of SEQ ID NO: 2.

Compounds 886354-886356, 923979, and 1211133-1211135 are complementary within nucleobases 17354-17403 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 17354-17403 of SEQ ID NO: 2 achieve at least 32% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 17354-17403 of SEQ ID NO: 2 achieve an average of 70% reduction of PMP22 RNA in vitro in the standard cell assay.

10. Nucleobases 19959-19997 of SEQ ID NO: 2

In certain embodiments, nucleobases 19959-19997 SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 19959-19997 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1138, 1214, 1288, 1364, 1439, 1514, 1589, 3391, and 5354-5359 are complementary within nucleobases 19959-19997 of SEQ ID NO: 2.

Compounds 718388-718393, 886444-886450, and 1210044 are complementary within nucleobases 19959-19997 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 19959-19997 of SEQ ID NO: 2 achieve at least 43% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 19959-19997 of SEQ ID NO: 2 achieve an average of 72% reduction of PMP22 RNA in vitro in the standard cell assay.

11. Nucleobases 27054-27086 of SEQ ID NO: 2

In certain embodiments, nucleobases 27084-27086 SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 27084-27086 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 4163, 4243, and 4287 are complementary within nucleobases 27084-27086 of SEQ ID NO: 2.

Compounds 1210167-1210168 and 1211451 are complementary within nucleobases 27084-27086 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 27084-27086 of SEQ ID NO: 2 achieve at least 63% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 27084-27086 of SEQ ID NO: 2 achieve an average of 74% reduction of PMP22 RNA in vitro in the standard cell assay.

12. Nucleobases 29734-29761 of SEQ ID NO: 2

In certain embodiments, nucleobases 29734-29761 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 29734-29761 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 2856, 2933, 3010, and 3829 are complementary within nucleobases 29734-29761 of SEQ ID NO: 2.

Compounds 1210206-1210208 and 1211563 are complementary within nucleobases 29734-29761 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 29734-29761 of SEQ ID NO: 2 achieve at least 46% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 29734-29761 of SEQ ID NO: 2 achieve an average of 78% reduction of PMP22 RNA in vitro in the standard cell assay.

13. Nucleobases 30528-30558 of SEQ ID NO: 2

In certain embodiments, nucleobases 30528-30558 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 30528-30558 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 852, 3707, and 3783 are complementary within nucleobases 30528-30558 of SEQ ID NO: 2.

Compounds 886718, 1210246, and 1210247 are complementary within nucleobases 30528-30558 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 30528-30558 of SEQ ID NO: 2 achieve at least 50% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 30528-30558 of SEQ ID NO: 2 achieve an average of 79% reduction of PMP22 RNA in vitro in the standard cell assay.

14. Nucleobases 30678-30717 of SEQ ID NO: 2

In certain embodiments, nucleobases 30678-30717 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 30678-30717 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1152, 1948, 4292, 4369, and 4942 are complementary within nucleobases 30678-30717 of SEQ ID NO: 2.

Compounds 684561, 886723, 924117, and 1211596-1211597 are complementary within nucleobases 30678-30717 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 30678-30717 of SEQ ID NO: 2 achieve at least 33% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 30678-30717 of SEQ ID NO: 2 achieve an average of 67% reduction of PMP22 RNA in vitro in the standard cell assay.

15. Nucleobases 31450-31479 of SEQ ID NO: 2

In certain embodiments, nucleobases 31450-31479 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 31450-31479 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 704, 780, 3536, and 3613 are complementary within nucleobases 31450-31479 of SEQ ID NO: 2.

Compounds 886756-886757, 1078914, 1078916 are complementary within nucleobases 31450-31479 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 31450-31479 of SEQ ID NO: 2 achieve at least 49% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 31450-31479 of SEQ ID NO: 2 achieve an average of 77% reduction of PMP22 RNA in vitro in the standard cell assay.

16. Nucleobases 37363-37401 SEQ ID NO: 2

In certain embodiments, nucleobases 37363-37401 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 37363-37401 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 1323, 1398, 1474, 1548, 1623, 272, 347, 425, 500, 575, 4843, 4907, 5014, 5038, 4969, 5082, 5107, 5108, 5177, and 5278 are complementary within nucleobases 37363-37401 of SEQ ID NO: 2.

Compounds 684295-684301, 684572, 684573, 718314, and 885597-885606 are complementary within nucleobases 37363-37401 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 37363-37401 of SEQ ID NO: 2 achieve at least 38% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 37363-37401 of SEQ ID NO: 2 achieve an average of 66% reduction of PMP22 RNA in vitro in the standard cell assay.

17. Nucleobases 37651-37856 of SEQ ID NO: 2

In certain embodiments, nucleobases 37651-37856 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 37651-37856 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 350-352, 428-430, 503-505, 566, 578, 579, 652-654, 727-729, 802-804, 877-879, 1028-1030, 1102-1104, 1165, 1178-1179, 1252-1254, 1327-1329, 1401-1403, 1477-1479, 1551-1553, 1626-1628, 1702-1704, 1777-1779, 3940, 4323, 4383, 4850-4857, 4883, 4914-4920, 4944, 4977-4984, 5045-5052, 5116-5123, and 5186-5193 are complementary within nucleobases 37651-37856 of SEQ ID NO: 2.

Compounds 684343-684391, 684576, 684577, 885658-885715, 1078160, 1210332, and 1210345 are complementary within nucleobases 37651-37856 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 37651-37856 of SEQ ID NO: 2 achieve at least 16% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 37651-37856 of SEQ ID NO: 2 achieve an average of 64% reduction of PMP22 RNA in vitro in the standard cell assay.

18. Nucleobases 38107-38223 of SEQ ID NO: 2

In certain embodiments, nucleobases 38107-38223 of SEQ ID NO: 2 comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases 38107-38223 of SEQ ID NO: 2. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of SEQ ID Nos: 281, 356, 415, 1482, 1557, 1632, 4864-4866, 4927, 4945, 4995-4997, 5062-5064, 5133-5136, 5203-5205, 5303, 5304, and 5306-5331 are complementary within nucleobases 38107-38223 of SEQ ID NO: 2.

Compounds 596994, 596996, 597060, 684449-684466, 684578, 718340-718365, and 885775-885779 are complementary within nucleobases 38107-38223 of SEQ ID NO: 2.

In certain embodiments, modified oligonucleotides complementary within nucleobases 38107-38223 of SEQ ID NO: 2 achieve at least 47% reduction of PMP22 RNA in vitro in the standard cell assay. In certain embodiments, modified oligonucleotides complementary within nucleobases 38107-38223 of SEQ ID NO: 2 achieve an average of 73% reduction of PMP22 RNA in vitro in the standard cell assay.

19. Additional Hotspot Regions

In certain embodiments, nucleobases in the range “start site” to “stop site” in the table below comprise a hotspot region. In certain embodiments, modified oligonucleotides are complementary within nucleobases “start site” to “stop site” SEQ ID NO:2, as indicated in the table below. In certain embodiments, modified oligonucleotides are 16 nucleobases in length. In certain embodiments, modified oligonucleotides are gapmers. In certain embodiments, the gapmers are cEt gapmers. In certain embodiments, the internucleoside linkages of the modified oligonucleotides are phosphorothioate internucleoside linkages.

The nucleobase sequences of “SEQ ID in range” in the table below are complementary to “start site” to “stop site” of SEQ ID NO:2.

Compounds “Compounds in range” in the table below are complementary to “start site” to “stop site” of SEQ ID NO:2.

In certain embodiments, modified oligonucleotides complementary within nucleobases “start site” to “stop site” of SEQ ID NO: 2, achieve at least “Min. % reduction” of PMP22 RNA in vitro in the standard cell assay, as indicated in the table below. In certain embodiments, modified oligonucleotides complementary within nucleobases “start site” to “stop site” of SEQ ID NO: 2 achieve an average of “Avg. % reduction” of PMP22 RNA in vitro in the standard cell assay, as indicated in the table below. In certain embodiments, modified oligonucleotides complementary within nucleobases “start site” to “stop site” of SEQ ID NO: 2 achieve a maximum of “Max % reduction” of PMP22 RNA in vitro in the standard cell assay, as indicated in the table below.

Hotspot Regions
Start	Stop	Min. %	Max. %	Avg. %
Site	Site	Reduction	Reduction	Reduction	Compound ID in range	SEQ ID in range
2691	2714	29	82	58	684119, 866375-866382	46-47, 123-124, 199-200, 941, 954-955
2880	2901	31	77	54	885922-885923, 866452-866454	65, 142, 663, 738, 973
3069	3095	26	76	52	885928-885929, 866468	69, 1113, 1788
3626	3659	30	75	53	885941, 866512-866513, 923819	80, 589, 988, 1995
3781	3802	75	86	80	885942-885943, 923820	664, 739, 2072
4169	4198	46	86	76	885951, 886542, 923827	164, 1264, 1842
4357	4388	19	87	58	885952-885954, 866556-866558	91, 168, 999, 1339, 1414, 1489
5942	5969	19	82	57	886001-886002, 923837-923838, 1210521	816, 890, 1843, 1920, 3176
7230	7334	11	98	61	684150-684166, 684508-684509,	338-339, 416-417, 491-492, 511, 567-568,
					866442, 885424-885457, 885860-885864	586, 640-641, 661, 715-716, 736, 790-791,
						811, 865-866, 970, 1016-1017, 1091-1092,
						1166-1167, 1240, 1315, 1390, 1466, 1540,
						1615, 1690-1691, 1765-1766, 4812-4813,
						4886-4887, 4946-4948, 5015-5017,
						5085-5087, 5141, 5153-5155, 5211
7588	7609	48	73	60	886052, 923845	1569, 2459
7618	7647	31	80	60	886053, 923846-923848	1644, 1844, 1921, 2536
8621	8662	43	73	55	684529, 1209906-1209909, 1210669	3540, 3617, 3695, 3771, 3798, 5215
8807	8907	31	91	62	684174-684189, 718272-718278, 885466-	361, 418, 493, 569, 642, 717, 792, 867,
					885482, 885878	1018, 1093, 1168, 1242, 1317, 1392, 1468,
						1542, 1692, 1767, 4823, 4824, 4890, 4891,
						4950-4952, 5019-5021, 5089-5091, 5157-
						5159, 5239-5245
9107	9129	52	88	66	886092-886093, 923862, 1210692-1210693	1571, 1646, 2230, 3414, 3491
9241	9262	73	99	86	886101, 1210724	821, 3724
9431	9463	54	84	71	886106, 1209915, 1210733	1122, 4234, 4417
9486	9512	23	79	54	886110-886111, 923865, 1076612-1076616,	1422, 1497, 2461, 2997, 3074, 3151, 3228,
					1076619-1076620	3305, 3382, 3459
9522	9551	52	81	71	1210742-1210744	3570, 3647, 3725
9709	9732	47	89	67	886116-886117, 923871-923873, 1209917,	448, 522, 2155, 2231, 2308, 4338, 4389,
					1210752-1210753	4418
9830	9863	12	97	60	886124-886125, 923880-923881, 1209919-	1723, 1798, 2078, 2156, 2617, 2800, 2876,
					1209922, 1210760-1210761	4463, 4542, 4694
9867	9888	39	91	66	886126, 1209923, 1210762-1210764	1123, 2693, 2952, 3029, 3106
9928	9950	37	78	51	886127, 924235, 1210769-1210771	1198, 2575, 3493, 3571, 3648
10019	10050	62	96	76	886131-886133, 923882, 1210775-1210776	1498, 1573, 1648, 2232, 3956, 4033
10231	10252	31	91	63	886137, 924238-924240, 12105151,	523, 2037, 2114, 2191, 4306, 4384
					1205153
10360	10408	43	83	63	718381-718382, 886139-886141, 924241-	674, 749, 823, 2268, 2345, 2724, 2801,
					924242, 1210785-1210787	2877, 5347-5348
10452	10494	18	92	51	886146-886148, 923888-923890, 1210797-	1124, 1199, 1274, 1925, 2002, 2079, 3649,
					1210801	3727, 3803, 3880, 3957
10657	10684	18	93	56	684532, 886154-886155, 924245, 1209937,	298, 375, 2576, 3108, 3186, 3263, 3772,
					1210818-1210820	5007
10710	10733	43	87	64	886156, 886954, 923891	450, 2149, 2233
10748	10782	28	70	53	886159-886160, 923896-923897, 1210823-	675, 750, 1849, 1926, 3495, 3573
					1210824
10907	10931	28	99	53	886166-886167, 924247-924248, 1210829-	1125, 1200, 1961, 2038, 3958, 4035, 4111
					1210831
10992	11022	48	69	58	886168-886169, 1210834	1275, 1350, 4340
11086	11108	24	99	53	886172, 1209939, 1210837	1575, 3926, 4726
11183	11206	12	96	65	886177, 1209944, 1210853-1210856	525, 3651, 3729, 3805, 3882, 4309
11247	11276	54	92	78	886178-886179, 923898-923901, 1209945,	601, 676, 2003, 2080, 2157, 2234, 4036,
					1210858-1210859	4112, 4390
11263	11284	35	85	60	886180, 923903-923907, 1209946	751, 1850, 1927, 2388, 2465, 2542, 4618
11764	11796	38	65	52	886189-886191, 924259-924260, 1210868-	1351, 1426, 1501, 2116, 2193, 2651, 2727
					1210869
11860	11887	20	87	57	886194-886196, 923908-923911,	300, 377, 452, 2004, 2081, 2158, 2235,
					1010872-1210875	2956, 3033, 3110, 3188
12013	12035	71	86	79	1210885-1210887	3960, 4037, 4113
12058	12096	56	81	66	886206-886207, 1210890-1210891	1127, 1202, 4342, 4422
12357	12387	70	91	81	924272, 1209956, 1210911	2348, 3078, 3807
12477	12502	48	61	54	886218, 1210917-1210918	603, 4269, 4343
12574	12602	22	67	51	886219-886220, 923918-923919,	678, 753, 2005, 2082, 4652, 4729
					1210920-1210921
12660	12683	20	84	58	886221, 923920, 1210923-1210924	827, 2159, 2653, 4577
12742	12787	13	94	63	886224-886226, 923921, 1209958,	1128, 1728, 1803, 2236, 2958, 3035, 3112,
					1210928-1210931	3190, 3233
12856	12878	35	77	51	886230-886231, 1210936-1210937	1428, 1503, 3577, 3654
13006	13028	29	85	62	886235, 1209960, 1210941-1210944	379, 3388, 3962, 4039, 4115, 4191
13527	13559	42	70	53	886237-886239, 1210952	528, 604, 679, 2654
13760	13782	52	85	68	924278, 1209961	2041, 3465
13842	13900	22	69	52	886251-886255, 923926-923929,	303, 380, 1504, 1579, 1654, 1852, 1929,
					1210970-1210974	2006, 2083, 4040, 4116, 4192, 4271, 4345
14093	14115	20	87	55	886262, 1209962, 1210990-1210991	903, 3424, 3501, 3542
14212	14242	49	69	59	886266-886270, 923938-923941	1130, 1205, 1280, 1355, 1430, 2007, 2084,
						2161, 2238
14344	14376	27	80	59	886275, 121103-121105	381, 4426, 4655, 4732
14985	15006	73	99	87	1209967-1209969, 1211036	2657, 3927, 4004, 4080
15378	15406	53	85	72	886300-886301, 1209972-1209973,	757, 831, 3889, 4310, 4391
					1211052
15721	15769	47	93	67	886307-886309, 923955-923957, 924299-	1282, 1357, 1432, 1855, 1932, 2120, 2197,
					924300, 1209984-1209985, 1211067-	2547, 2887, 2963, 3040, 3079, 3157
					1211069
15855	15888	52	76	62	1209990-1209994	3543, 3620, 3698, 3774, 3852
15914	15971	50	89	69	684540, 886314-886316, 923959-923960,	383, 458, 532, 2086, 2163, 3504, 3582,
					1209996, 1211075-1211078	3659, 3737, 4005, 5147
15974	16020	47	79	60	886317-886318, 923961-923962, 1211079-	608, 683, 2240, 2317, 3813, 3890, 3967,
					1211083	4044, 4120
16104	16135	56	91	70	886322, 923969-923971, 1209997-1209998,	1058, 2087, 2164, 2241, 4081, 4157, 4504
					1211090
16228	16253	23	74	50	886325-886326, 1209999	1132, 1208, 4237
16428	16478	11	85	56	886330-886331, 923974, 1211095-1211098	1508, 1583, 2472, 2888, 2964, 3041, 3118
16428	16454	61	85	72	886330-886331, 1211095	1508, 1583, 2888
16546	16567	21	75	56	886334-886335, 1210003, 1211103-1211104	384, 459, 3505, 3583, 4697
16693	16724	41	72	60	886338, 1210006-1210007	684, 2620, 2696
16718	16749	48	69	60	886340-886341, 1211112-1211113	833, 907, 4197, 4276
17106	17136	13	99	56	886347-886348, 923978, 1211125-1211126	1284, 1359, 2011, 3197, 3274
17354	17403	32	99	68	886354-886356, 923979, 1211133-1211135	385, 460, 534, 2088, 3815, 3892, 3969
17578	17601	40	79	55	886362, 923980-923982, 1210014, 1211142	1060, 2165, 2242, 2319, 3235, 4737
18260	18281	56	76	66	886373, 1211154	309, 3352
18452	18485	42	85	63	886378-886379, 923988, 1211159	686, 761, 2012, 3740
18515	18538	55	77	68	886380, 923989-923991, 1211160	835, 2089, 2166, 2243, 3816
18674	18695	33	80	55	886384-886386, 121174	1135, 1211, 1811, 2738
18697	18721	32	71	53	886388-886391	1361, 1436, 1511, 1586
18920	18942	49	58	54	886399, 924326-924327, 1211192-1211193	762, 1892, 1969, 4124, 4200
19019	19045	38	66	50	886403, 924331-924333, 1211199-1211202	1737, 2277, 2354, 2431, 2663, 2739,
						4508, 4586
19084	19107	31	71	52	886407, 923996-923999	1287, 1859, 1936, 2013, 2090
19098	19119	64	92	71	1211214-1211217	3972, 4049, 4125, 4201
19159	19181	46	90	71	886409, 92400-924003	1437, 2167, 2244, 2321, 2398
19172	19201	45	97	74	924008, 1210020-1210021, 1211219	2014, 3699, 3775, and 4354
19216	19251	32	88	69	1210022, 1211222-1211224	3853, 4509, 4587, 4740
19258	19282	39	96	65	886412-886413, 924013-924017, 1210024,	311, 1662, 1861, 1938, 2399, 2476,
					1211227-1211228	2553, 2817, 2893, 4006
19307	19355	36	78	60	886414-886416, 924018, 1210025-	388, 463, 537, 2015, 3046, 3123, 4082,
					1210026, 1211230-1211231	4158
19405	19462	11	90	57	886419-886421, 924335-924341, 1210030-	763, 837, 911, 1893, 1970, 2047, 2124,
					1210033, 1211234-1211237	2201, 2278, 2585, 3355, 3433, 3509,
						3587, 4467, 4546, 4621, 4698
19495	19539	42	87	61	886422-886424, 924019, 1205175, 1211238	1063, 1738, 1813, 2092, 3664, 3693
19553	19585	43	88	63	886425-886426, 1210035-1210036	1137, 1213, 2697, 2774
19594	19629	43	83	63	886427-886428, 924021-924023,	1363, 1438, 2246, 2323, 2400, 3819,
					1211239-1211240	3896
19753	19791	41	76	54	886436-886437, 924342, 1210043,	614, 689, 2355, 3313, 4355, 4434
					1211246-1211247
19781	19808	13	76	51	886438-886439, 924029-924032,	764, 838, 2093, 2170, 2247, 2324, 4510,
					1211249-1211251	4588, 4741
19959	19997	43	96	72	718388-718393, 886444-886450, 1210044	1138, 1214, 1288, 1364, 1439, 1514,
						1589, 3391, 5354-5359
20558	20580	41	77	54	886469, 1211292	1515, 3589
21244	21274	38	78	61	886472-886473, 924354, 1211297-1211298	314, 391, 2510, 3975, 4052
21423	21447	70	75	72	924355, 1210049	2587, 3776
21454	21477	60	72	67	886482-886483, 1211306	1741, 1816, 4512
21600	21625	30	81	61	886489-886490, 924049-924050,	1516, 1591, 2095, 2172, 2743, 2820,
					1210058-1210059, 1211309-1211311	2896, 4622, 4699
21746	21767	39	86	65	886493-886494, 924054-924055	392, 467, 2480, 2557
21910	21933	29	91	58	886497-886498, 924364, 1210064-	767, 841, 2511, 2775, 2851, 3822
					1210065, 1211323
22444	22472	27	93	69	886504, 924370, 1205180, 1210066-	1217, 2204, 2928, 3005, 4358, 4386
					1210067, 1211330
22581	22605	53	78	65	1211337-1211338	2821, 2897
23148	23178	46	75	61	886524, 924384, 1210072-1210075	1218, 2513, 3392, 3469, 3546, 3623
23195	23243	45	76	61	886527-886529, 924059-924061,	1443, 1518, 1593, 2096, 2173, 2250,
					1210077	3777
23258	23287	65	73	69	886530, 1210079	1668, 3931
23441	23473	42	85	65	886533, 924062, 1210087 1211365-	469, 2327, 2898, 2974, 3051, 3128,
					1211368	4623
23535	23567	38	68	52	886537, 924068-924069, 1210092	769, 2020, 2097, 2699
23695	23716	43	71	59	886539, 1210095-1210097, 1211373-	917, 2929, 3006, 3083, 3514, 3592
					1211374
23938	23966	36	85	61	886544, 924389, 1205187, 1205190,	1219, 2129, 3624, 3702, 3901, 3922,
					1210104-1210105, 1211377-1211378	3999, 4131
23987	24010	30	81	52	886546, 924390, 1205199, 1210106-	1369, 2206, 3778, 3856, 4230, 4360
					1210107, 1211380
24439	24462	37	74	58	924396, 1205214, 1210112-1210113	1899, 2767, 4241, 4315
24938	24959	76	85	80	1210118-1210119, 1211396	2624, 3747, 4549
25287	25319	50	80	64	1210123-1210126	2930, 3007, 3084, 3162
25480	25514	35	71	51	886572-886573, 924408, 1211408	396, 471, 2054, 4516
25702	25726	43	67	58	886577, 924411, 1211409-1211412	771, 2285, 2670, 2746, 2823, 4594
26018	26080	29	77	53	886578-886579, 1210127-1210128,	845, 919, 2900, 2976, 3053, 3130, 3208,
					1211413-1211417	3239, 3316
26210	26231	38	85	59	886584, 1210133, 1211420	1221, 3439, 3703
26227	26257	11	85	50	924417-924418, 1210135-1210142,	1978, 2055, 3516, 3594, 3857, 3933, 4010,
					1211421-1211422	4086, 4162, 4242, 4316, 4397
26444	26470	43	85	60	1210149, 1211432-1211433	2778, 4286, 4362
26667	26717	56	62	58	684555, 1205231, 1210153, 1211438	2824, 2843, 3085, 5150
26906	26936	49	90	74	718395-718396, 886601-8786607	1146, 1222, 1296, 1372, 1447, 1747, 1822,
						5361, 5362
27054	27086	63	89	78	1210167-1210168, 1211451	4163, 4243, 4287
27155	27176	48	76	62	886614, 1211453	547, 4440
27590	27631	24	78	58	886627-886628, 924085, 924440, 1210174-	1448, 1523, 2211, 2560, 2626, 3826, 3904,
					1210175, 1211473-1211474	4551
27620	27650	43	74	58	886629-886630, 924089-924094, 1211475	1598, 1673, 2099, 2176, 2253, 2330, 2407,
						2484, 3980
28386	28436	22	90	53	597005, 684191-684199, 718279-718281,	1617, 4815, 4826, 4892-4893, 4953-4954,
					718398-718399, 885483, 885484	5022-5023, 5084, 5160, 5246-5248, 5364-5365
28557	28584	51	94	69	886645-886646, 1211501	1298, 1374, 3827
28798	28859	13	91	61	886652-886653, 924095, 1120799-1120807,	400, 475, 2561, 3383, 3461, 3538, 3615,
					1120810, 1211515-1211518	3692, 3767, 3844, 3921, 3998, 4075, 4152,
						4231, 4366, 4443, 4520, 4615, 4751
28954	28990	23	79	58	886663-886665, 1210193-1210194,	1149, 1225, 1299, 3135, 3212, 4012, 4088
					1211526-1211527
29258	29332	20	84	50	684512, 684514-684515, 684518-684520,	550, 626, 700, 776, 850, 2520, 2597, 5004-
					886674-886678, 924454-924455	5005, 5073, 5142-5143, 5213
29342	29365	48	78	64	684513, 684516, 684517, 886679-886680,	924, 1076, 4473, 4873, 4934, 5071
					1210201
29734	29761	46	93	78	1210206-1210208, 1211563	2859, 2933, 3010, 3829
29771	29792	28	69	52	924464, 1210211-1210212	2521, 3242, 3319
29814	29844	32	78	59	886698-886699, 924103-924104, 1210217	851, 925, 2408, 2485, 3628
29869	29903	52	84	70	1210218-1210221, 1211565	3706, 3782, 3860, 3936, 3983
29894	29919	39	87	66	1210222-1210225	4013, 4089, 4165, 4245
30059	30083	55	91	67	886706-886707, 924471, 1210232-1210234,	1377, 1452, 2291, 2628, 2704, 2781, 4522
					1211574
30121	30147	46	91	64	886708, 924472, 1210236-1210237,	1527, 2368, 2675, 2752, 2934, 3011, 4599
					1211575-1211577
30163	30198	30	95	62	886709-886711, 924105-924106, 1210238-	326, 1602, 1677, 1870, 2562, 2906, 2983,
					1210239, 1211579-1211581	3060, 3088, 3166
30269	30292	17	78	50	886714, 1211584-1211586	522, 3291, 3368, 3445
30319	30345	17	73	51	886715-886716, 924108-924109, 1210242,	628, 702, 2024, 2101, 3398, 3754
					1211590
30528	30558	50	99	79	886718, 1210246-1210247	852, 3707, 3783
30603	30626	59	70	64	886719-886720, 1210250, 1211595	926, 1078, 4014, 4215
30678	30717	33	94	68	68456, 886723, 924117, 1211596-1211597	1152, 1948, 4292, 4369, 4942
30726	30752	33	89	67	886724-886726, 924488, 1211600-1211602	1228, 1302, 1378, 2062, 4523, 4600,
						4754
30792	30813	47	90	64	886727, 924489, 1210255, 1211603-1211604	1453, 2139, 2676, 2753, 4401
30805	30839	32	64	51	886278, 924494-924496, 1210256, 1211607-	1528, 1909, 2524, 2601, 2984, 3061,
					1211608	4629
31065	31094	45	87	59	886735-886737, 924497, 1210257, 1211620	629, 703, 779, 1986, 3985, 4706
31172	31194	46	62	54	886745, 1211628	1303, 4755
31229	31259	38	78	61	886748-886750, 924508-924510, 1211629-	1529, 1604, 1679, 2064, 2141, 2218,
					1211630	4524, 4601
31363	31388	42	75	56	684562, 886755, 1211638	630, 3216, 5012
31450	31479	49	88	77	886756-886757, 1078914, 1078916	704, 780, 3536, 3613
31528	31555	47	78	63	886761-886762, 1211648-1211649	1755, 1830, 4217, 4294
31745	31768	28	91	60	886770, 1210272-1210274	1680, 3553, 3630, 3708
31800	31833	36	62	51	886773, 924515, 1211661-1211663	481, 2603, 3063, 3140, 3217
32262	32313	32	74	50	886779, 1210275, 1211669-1211672	929, 3679, 3756, 3784, 3833
32355	32385	32	87	51	886782, 1210276, 1211677-1211682	1831, 3862, 4295, 4372, 4449, 4526,
						4680, 4757
32452	32477	40	83	59	886785-886786, 924133-924135, 1211684	1305, 1381, 2411, 2488, 2565, 2679
32492	32519	21	77	54	886788, 924520, 1210278, 1211686-	1531, 2219, 2833, 2910, 2987, 4015
					1211688
32561	32591	63	75	69	886791, 1210279	330, 4091
32614	32648	25	90	51	886792, 1211690-1211691	407, 3141, 3218.
32700	32739	22	74	51	885890-885891, 886794-886795, 1210285,	556, 632, 1186, 1261, 3449, 4707
					1211694
32735	32761	31	79	55	885895-885906	285, 362, 437, 512, 587, 662, 737, 812,
						886, 1037, 1561, 1636
33245	33267	54	77	67	886798-886799, 924139-924140, 1211700	856, 930, 2104, 2181, 3911
33281	33346	24	95	55	886800-886802, 924523, 1210291,	1082, 1757, 1832, 2450, 2859, 3988,
					1211701-1211710	4065, 4142, 4219, 4296, 4373, 4450,
						4527, 4681, 4758
33354	33382	23	84	54	886805-886807, 121713-121715	1306, 1382, 1457, 2757, 2834, 2911
33386	33412	47	87	60	886808-886809, 1211716-1211717	1532, 1607, 2988, 3065
34223	34247	37	81	56	924538-924541, 1210299, 1211766	2067, 2144, 2221, 2298, 3477, 4529
34293	34316	43	93	65	886842-886843, 924141, 1211771-	1158, 1834, 2258, 2913, 2990
					1211772
34312	34340	55	71	62	684566, 886844, 1211775	1234, 3221, 4881
34472	34494	28	89	60	886850, 1210300, 1211784-1211786	1684, 3554, 3914, 3991, 4068
34567	34590	41	65	53	886853, 1211789-1211791	485, 4299, 4376, 4453
34978	35012	17	87	57	684567, 886869, 1211825	1610, 2761, 4943
35006	35029	59	63	61	1210311, 1211826	2838, 4403
35048	35077	28	75	52	886870-886871, 924145-924147,	334, 1685, 1874, 1951, 2566, 2915, 2992,
					1211827-1211829	3069
35136	35162	42	42	51	886873-886875, 1210315, 1211836	486, 560, 636, 3608, 4556
35451	35486	47	67	56	886899-886890, 1211865	1611, 1686, 3686
35560	35589	29	90	61	886893, 924560, 1211867-1211871	487, 2223, 3840, 3917, 3994, 4071, 4148
35804	35843	33	77	53	718400-718405, 1210323	3169, 5366-5371
35897	35923	15	77	53	886911-886912, 1211895-1211897	336, 413, 3841, 3918, 3995
36453	36482	43	87	61	886932, 924578, 1210327-1210329,	414, 2071, 3478, 3555, 3632, 4304, 4381,
					1211929-1211931	4458
37036	37077	30	80	59	684244-684252, 885541-885549,	269, 344, 422, 497, 572, 646, 721, 796, 1620,
					1205300, 1210331	3786, 3847, 4834-4835, 4901, 4962, 5031,
						5099-5100, 5168-5169
37102	37132	20	78	55	684256-684261, 885555-885561	1172, 1246, 1321, 1396, 1472, 1546, 1621,
						4836, 4903, 4964, 5033, 5101, 5170
37158	37193	41	85	67	684262-684264, 718293, 885562-885564	270, 345, 423, 4837, 5102, 5171, 5258
37297	37373	31	89	61	684278-684294, 718313, 885576-885595	271, 346, 424, 499, 574, 648, 723, 798, 873,
						1024, 1098, 1174, 1247, 1322, 1397, 1473,
						1547, 1622, 1698, 1773, 4840, 4841, 4842,
						4904-4906, 4967-4968, 5035-5037, 5104-
						5106, 5174-5176, 5277
37363	37401	38	93	66	684295-684301, 684572, 684573, 718314,	272, 347, 425, 500, 575, 604, 1323, 1398,
					885597-885607	1474, 1548, 1623, 4843, 4907, 4969, 5014,
						5038, 5082, 5107-5108, 5177, 5278
37435	37464	30	79	58	684302-684305, 885608-885613	724, 799, 874, 1025, 1699, 1774, 4844, 4908,
						4970, 5178
37468	37493	45	79	65	596957, 684306-684307, 885614	1099, 5039, 5109, 5234
37495	37567	21	94	60	684309-684320, 684574, 885618-885628	273, 348, 426, 501, 576, 650, 725, 1399, 1475,
						1549, 1624, 4845, 4846, 4882, 4909-4910, 4971-
						4972, 5040-5041, 5110-5111, 5180-5181
37563	37626	22	88	60	684323-684337, 684575, 718315, 885633-	274, 349, 427, 502, 577, 651, 726, 801, 876,
					885653	1027, 1100, 1176, 1250, 1325, 1400, 1476, 1550,
						1625, 1701, 1775-1776, 4847-4849, 4911-
						4912, 4974-4975, 5042-5043, 5083, 5112-5114,
						5182-5184, 5279
37626	37661	21	95	68	684338-684341, 885655-88565	1177, 1251, 4913, 4076, 5044, 5115
37651	37856	16	94	64	684343-684391, 684576-684577, 885658-	275-277, 350-352, 428-430, 503-505, 566, 578-
					885715, 1078160, 1210332, and 1210345	579, 652-654, 727-729, 802-804, 877-879, 1028-
						1030, 1102-1104, 1165, 1178-1179, 1252-1254,
						1327-1329, 1401-1403, 1477-1479, 1551-1553,
						1626-1628, 1702-1704, 1777-1779, 3940, 4323,
						4383, 4850-4857, 4883, 4914-4920, 4944, 4977-
						4984, 5045-5052, 5116-5123, 5186-5193
37855	37907	25	93	65	684395-684399, 885718, 1078136,	1629, 2632, 4017, 4460, 4537, 4858, 4922, 4986,
					1078144, 1210333, 1210346	5124, 5194
37926	37976	38	94	63	684406-684409, 684411-684412,	1105, 1180, 1705, 1780, 4093, 4860, 4988, 5054-
					885729-885732, 1210334	5055, 5126, 5196
37971	37992	35	89	50	684417, 718316, 885738-885742	279, 354, 432, 507, 1630, 4989, 5280
38009	38080	13	82	51	596986, 684423-684439, 718317-718324,	280, 355, 433, 490, 582, 657, 732, 807, 882,
					885755-885766	1406, 1481, 1556, 1631, 4817, 4863, 4925,
						4990-4992, 5057-5059, 5129-5131, 5199-5201,
						5281-5288
38071	38100	18	82	60	684441-684445, 718325-718332, 885771-	1182, 1257, 4926, 4993, 5060, 5132, 5202,
					885772	5289-5296
38107	38223	47	96	73	596994, 596996, 597060, 684449-684466,	281, 356, 415, 1482, 1557, 1632, 4864-4866,
					684578, 718340-718365, and 885775-885779	4927, 4945, 4995-4997, 5062-5064, 5133-
						5136, 5203-5205, 5303-5304, 5306-5331

Nonlimiting Disclosure and Incorporation by Reference

Each of the literature and patent publications listed herein is incorporated by reference in its entirety.

While certain compounds, compositions and methods described herein have been described with specificity in accordance with certain embodiments, the following examples serve only to illustrate the compounds described herein and are not intended to limit the same. Each of the references, GenBank accession numbers, and the like recited in the present application is incorporated herein by reference in its entirety.

Although the sequence listing accompanying this filing identifies each sequence as either “RNA” or “DNA” as required, in reality, those sequences may be modified with any combination of chemical modifications. One of skill in the art will readily appreciate that such designation as “RNA” or “DNA” to describe modified oligonucleotides is, in certain instances, arbitrary. For example, an oligonucleotide comprising a nucleoside comprising a 2′-OH sugar moiety and a thymine base could be described as a DNA having a modified sugar (2′-OH in place of one 2′-H of DNA) or as an RNA having a modified base (thymine (methylated uracil) in place of an uracil of RNA). Accordingly, nucleic acid sequences provided herein, including, but not limited to those in the sequence listing, are intended to encompass nucleic acids containing any combination of natural or modified RNA and/or DNA, including, but not limited to such nucleic acids having modified nucleobases. By way of further example and without limitation, an oligomeric compound having the nucleobase sequence “ATCGATCG” encompasses any oligomeric compounds having such nucleobase sequence, whether modified or unmodified, including, but not limited to, such compounds comprising RNA bases, such as those having sequence “AUCGAUCG” and those having some DNA bases and some RNA bases such as “AUCGATCG” and oligomeric compounds having other modified nucleobases, such as “AT^mCGAUCG,” wherein ^mC indicates a cytosine base comprising a methyl group at the 5-position.

Certain compounds described herein (e.g., modified oligonucleotides) have one or more asymmetric center and thus give rise to enantiomers, diastereomers, and other stereoisomeric configurations that may be defined, in terms of absolute stereochemistry, as (R) or (S), as α or β such as for sugar anomers, or as (D) or (L), such as for amino acids, etc. Compounds provided herein that are drawn or described as having certain stereoisomeric configurations include only the indicated compounds. Compounds provided herein that are drawn or described with undefined stereochemistry include all such possible isomers, including their stereorandom and optically pure forms, unless specified otherwise. Likewise, tautomeric forms of the compounds herein are also included unless otherwise indicated.

The compounds described herein include variations in which one or more atoms are replaced with a non-radioactive isotope or radioactive isotope of the indicated element. For example, compounds herein that comprise hydrogen atoms encompass all possible deuterium substitutions for each of the ¹H hydrogen atoms. Isotopic substitutions encompassed by the compounds herein include but are not limited to: ²H or ³H in place of ¹H, ¹³C or ¹⁴C in place of ¹²C, ¹⁵N in place of 14N, ¹⁷O or ¹⁸O in place of ¹⁶O, and ³³S, ³⁴S, ³⁵S, or ³⁶S in place of ³²S. In certain embodiments, non-radioactive isotopic substitutions may impart new properties on the oligomeric compound that are beneficial for use as a therapeutic or research tool. In certain embodiments, radioactive isotopic substitutions may make the compound suitable for research or diagnostic purposes such as imaging.

EXAMPLES

The following examples illustrate certain embodiments of the present disclosure and are not limiting. Moreover, where specific embodiments are provided, the inventors have contemplated generic application of those specific embodiments. For example, disclosure of an oligonucleotide having a particular motif provides reasonable support for additional oligonucleotides having the same or similar motif. And, for example, where a particular high-affinity modification appears at a particular position, other high-affinity modifications at the same position are considered suitable, unless otherwise indicated.

Example 1: Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides complementary to human PMP22 nucleic acid were tested for their effect on PMP22 RNA levels in vitro.

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists of ten 2′-β-D-deoxynucleosides and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a cEt nucleoside. All internucleoside linkages are phosphorothioate (P═S) linkages. All cytosine residues are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. Each modified oligonucleotide listed in the Tables below is 100% complementary to SEQ ID NO: 1 (GENBANK Accession No. NM_000304.3), SEQ ID NO: 2 (GENBANK Accession No. NC_000017.11 truncated from nucleotides 15227001 to 15268000), SEQ ID NO: 4 (GENBANK Accession No. NM_001281455.1), SEQ ID NO: 5 (GENBANK Accession No. NM_001281456.1), and/or SEQ ID NO: 8 (GENBANK Accession No. AK300690.1). ‘N/A’ indicates that the modified oligonucleotide is not 100% complementary to that particular gene sequence.

Cultured K-562 cells at a density of 50,000 cells per well were treated with 10,000 nM of modified oligonucleotide by electroporation. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS4579 (forward sequence CTTGCTGGTCTGTGCGTGAT, designated herein as SEQ ID NO: 15; reverse sequence ACCGTAGGAGTAATCCGAGTTGAG, designated herein as SEQ ID NO: 16; probe sequence CATCTACACGGTGAGGCACCCGG, designated herein as SEQ ID NO: 17) was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The values marked with an asterisk (*) indicate that the modified oligonucleotide is complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides complementary to the amplicon region.

TABLE 1
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
596986	1687	1702	38050	38065	GTCCTTGGAGGCACAG	63	4817
684110	20	35	2663	2678	AACTGAAGCCAGACCA	98	185
684116	37	52	2680	2695	CTGGTGGTGCTCCCTG	116	187
684122	62	77	2705	2720	CCAACCAGGCTCCCCG	74	188
684128	87	102	2730	2745	AGCCGACAGACTAAGC	81	266
684135	128	143	2771	2786	GTTAAGGCAAGACCCT	118	944
684142	156	171	2799	2814	GATTTCTTTGCAGCCA	115	4818
684148	196	211	N/A	N/A	TTTCTGCCCGGCCAAA	97	948
684154	225	240	7260	7275	ATTCTGGCGGCAAGTT	52	4819
684160	247	31	7282	7297	GATACTCAGCAACAGG	15	4820
684166	284	299	7319	7334	CGAACAGCAGCACCAG	46	4821
684172	313	328	N/A	N/A	CACGATCCATTGGCTG	88	4822
684178	345	360	8836	8851	TTCTGCCAGAGATCAG	37	4823
684184	379	394	8870	8885	GTGGTGGACATTTCCT	54	4824
684190	415	430	N/A	N/A	AGACTGCAGCCATTCG	42	4825
684196	437	452	28410	28425	ACAGGATCATGGTGGC	45	4826
684202	461	476	28434	28449	GAGACAGAATGCTGAA	20	4827
684208	511	526	28484	28499	AAACCTGCCCCCCTTG	38	4828
684214	528	543	28501	28516	AAGATTCCAGTGATGT	83	4829
684220	554	569	N/A	N/A	TCACGCACAGACCAGC	14*	4830
684228	580	595	36943	36958	CACCGTGTAGATGGCC	12*	4831
684234	605	620	36968	36983	AGTTGAGATGCCACTC	64*	4832
684240	627	642	36990	37005	GCGAAACCGTAGGAGT	29*	4833
684246	678	693	37041	37056	ATGACACCGCTGAGAA	44	4834
684252	698	713	37061	37076	GTTTCCGCAAGATCAC	27	4835
684258	744	759	37107	37122	ATGTACGCTCAGAGCC	50	4836
684264	815	830	37178	37193	GTTTGAGTTTGGGATT	15	4837
684269	870	885	37233	37248	ATATACATCTTCAATC	65	4838
684275	895	910	37258	37273	ATAGGTTTTATAAACC	75	4839
684281	954	969	37317	37332	CTGATGGTCAACATAA	19	4840
684287	969	984	37332	37347	AGGCTCAACACGAGGC	35	4841
684293	990	1005	37353	37368	AGTTCCTTAGCTACTT	38	4842
684298	1010	1025	37373	37388	ATTATACTGTTAGGAT	28	4843
684303	1077	1092	37440	37455	GGAGTTATCTTATTTC	25	4844
684309	1132	1147	37495	37510	TGAGGTGGACTGGGAG	43	4845
684320	1189	1204	37552	37567	CACCAGAAAAGGGCTT	59	4846
684326	1210	1225	37573	37588	TGTTGGATGCACTGGG	21	4847
684332	1235	1250	37598	37613	CAGAGGTTCGGGCAGC	25	4848
684337	1248	1263	37611	37626	GTAAAGCTTCACACAG	78	4849
684343	1293	1308	37656	37671	GTGTTTTTGCAAGGGC	14	4850
684349	1310	1325	37673	37688	TGCCAATGCCACAAGC	52	4851
684355	1325	1340	37688	37703	CTGTAAGGGCAAGTAT	63	4852
684361	1343	1358	37706	37721	GTGACGAAGATACTCC	17	4853
684367	1376	1391	37739	37754	AGACTTGTTGTCACTG	9	4854
684379	1428	1443	37791	37806	GTTTAGATGATTAGTG	23	4855
684386	1451	1466	37814	37829	GTTAATTGGATTTCCA	16	4856
684391	1478	1493	37841	37856	CTCCATTCTATCTTAT	25	4857
684397	1521	1536	37884	37899	AAAGCAGTTATAAACC	33	4858
684403	1544	1559	37907	37922	TAATAGCAGCCTAGCT	66	4859
684409	1577	1592	37940	37955	GATGAAGGCTTTATGA	39	4860
684415	1604	1619	37967	37982	CTCCGACCGTAAGAAA	77	4861
684421	1636	1651	37999	38014	GGTCCCAAGGAGTCTA	64	4862
684428	1665	1680	38028	38043	CTAGACCCAGCCAAGC	57	4863
684440	1705	1720	38068	38083	ACAAGTCATTGCCAGA	8	32
684446	1725	1740	38088	38103	ATCTACAGTTGGTGGC	35	33
684451	1753	1768	38116	38131	CTTAGCATCAGAAGGG	44	4864
684457	1801	1816	38164	38179	GTTGGTATAAAATCAG	14	4865
684463	1822	1837	38185	38200	TAATGCATCTTAGTCC	29	4866
684468	N/A	N/A	5413	5428	CCCCTTTAACGGGAAC	108	4867
684474	N/A	N/A	5479	5494	CGCCAAAGCTGCGCTG	93	4868
684480	N/A	N/A	5520	5535	CTCAAACACAAACTCG	70	4869
684486	N/A	N/A	5549	5564	GGAACAGCTGTCCCGA	100	4870
684504	N/A	N/A	7191	7206	CACTGGGCCGAGCGAC	80	4871
684511	N/A	N/A	24289	24304	ATAGAACATATCATAG	75	4872
			24331	24346
684516	N/A	N/A	29348	29363	TGTAAGATGCTAGGCA	33	4873
			29293	29308
684524	N/A	N/A	5221	5236	ACCAGAGGCGGCTGAG	122	4874
684530	N/A	N/A	9328	9343	CAGTGAGCTAGCCCCA	40	4875
684536	N/A	N/A	13319	13334	TAATAAGATGGCCAGG	96	4876
684542	N/A	N/A	17241	17256	ACCTCCTAGAGTTCTT	63	4877
684547	N/A	N/A	21206	21221	CTAAAGCTCTGGCCGG	71	4878
684557	N/A	N/A	28057	28072	CATACAAATATGTACG	33	4879
684560	N/A	N/A	30038	30053	ATGCAATGGATATGAT	79	4880
684566	N/A	N/A	34325	34340	GTTCTAGCTGCTGCTC	29	4881
684574	1153	1168	37516	37531	CCCACACTTTGGTTTT	39	4882
684576	1401	1416	37764	37779	TGGTAAATCCATAGCA	28	4883

TABLE 2
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
597057	1729	1744	38092	38107	ATACATCTACAGTTGG	20	4884
684111	21	36	2664	2679	TAACTGAAGCCAGACC	93	263
684117	42	57	2685	2700	GTTCCCTGGTGGTGCT	120	4885
684123	64	79	2707	2722	TTCCAACCAGGCTCCC	105	943
684129	93	108	2736	2751	ACCCGCAGCCGACAGA	92	111
684137	133	148	2776	2791	GGGATGTTAAGGCAAG	98	114
684143	162	177	2805	2820	CAAGCAGATTTCTTTG	111	946
684149	201	216	N/A	N/A	CGGAGTTTCTGCCCGG	84	117
684155	229	244	7264	7279	GAGCATTCTGGCGGCA	26	4886
684161	250	265	7285	7300	GATGATACTCAGCAAC	35	4887
684167	287	302	7322	7337	AGACGAACAGCAGCAC	75	4888
684173	316	331	N/A	N/A	GCCCACGATCCATTGG	91	4889
684179	350	365	8841	8856	TACAGTTCTGCCAGAG	27	4890
684185	382	397	8873	8888	ACAGTGGTGGACATTT	26	4891
684191	417	432	28390	28405	ACAGACTGCAGCCATT	44	4892
684197	441	456	28414	28429	ATCGACAGGATCATGG	35	4893
684203	481	496	28454	28469	TTGGCAGAAGAACAGG	48	4894
684209	514	529	28487	28502	GTAAAACCTGCCCCCC	45	4895
684215	532	547	28505	28520	TTGGAAGATTCCAGTG	76	4896
684221*	556	571	N/A	N/A	CATCACGCACAGACCA	24	4897
684229*	584	599	36947	36962	GCCTCACCGTGTAGAT	9	4898
684235*	609	624	36972	36987	TCCGAGTTGAGATGCC	17	4899
684241*	629	644	36992	37007	AGGCGAAACCGTAGGA	37	4900
684247	679	694	37042	37057	GATGACACCGCTGAGA	28	4901
684253	723	738	37086	37101	CAGACCGTCTGGGCGC	56	4902
684259	748	763	37111	37126	CCCTATGTACGCTCAG	26	4903
684282	955	970	37318	37333	GCTGATGGTCAACATA	27	4904
684288	974	989	37337	37352	CTTTAAGGCTCAACAC	49	4905
684294	995	1010	37358	37373	TGTAAAGTTCCTTAGC	41	4906
684299	1015	1030	37378	37393	GCTGGATTATACTGTT	17	4907
684304	1079	1094	37442	37457	ATGGAGTTATCTTATT	41	4908
684310	1134	1149	37497	37512	AATGAGGTGGACTGGG	25	4909
684315	1157	1172	37520	37535	TCTACCCACACTTTGG	22	4910
684327	1214	1229	37577	37592	TTTCTGTTGGATGCAC	42	4911
684333	1236	1251	37599	37614	ACAGAGGTTCGGGCAG	40	4912
684338	1263	1278	37626	37641	TTTGTCCGTGTGCGCG	16	4913
684344	1298	1313	37661	37676	AAGCCGTGTTTTTGCA	40	4914
684350	1313	1328	37676	37691	GTATGCCAATGCCACA	36	4915
684356	1328	1343	37691	37706	CACCTGTAAGGGCAAG	15	4916
684362	1349	1364	37712	37727	AGATGTGTGACGAAGA	10	4917
684368	1381	1396	37744	37759	TTCAAAGACTTGTTGT	41	4918
684373	1403	1418	37766	37781	AATGGTAAATCCATAG	59	4919
684380	1432	1447	37795	37810	AGTTGTTTAGATGATT	11	4920
684392	1481	1496	37844	37859	GGTCTCCATTCTATCT	38	4921
684398	1526	1541	37889	37904	GTACAAAAGCAGTTAT	63	4922
684404	1547	1562	37910	37925	TAATAATAGCAGCCTA	47	4923
684416	1607	1622	37970	37985	ATGCTCCGACCGTAAG	68	4924
684429	1668	1683	38031	38046	AGCCTAGACCCAGCCA	52	4925
684441	1708	1723	38071	38086	AATACAAGTCATTGCC	27	4926
684452	1755	1770	38118	38133	GTCTTAGCATCAGAAG	32	4927
684469	N/A	N/A	5417	5432	CGTTCCCCTTTAACGG	114	4928
684475	N/A	N/A	5480	5495	CCGCCAAAGCTGCGCT	94	4929
684481	N/A	N/A	5525	5540	GTGGCCTCAAACACAA	79	4930
684487	N/A	N/A	5552	5567	AAAGGAACAGCTGTCC	90	4931
684499	N/A	N/A	7157	7172	AGGGTCCCGCGCACTA	82	4932
684505	N/A	N/A	7194	7209	ACGCACTGGGCCGAGC	70	4933
684517	N/A	N/A	29349	29364	ATGTAAGATGCTAGGC	22	4934
			29294	29309
684525	N/A	N/A	5880	5895	CCACAGGGACTGTTTT	90	4935
684531	N/A	N/A	9978	9993	GATTATGCAAAGCCAG	19	4936
684537	N/A	N/A	13970	13985	ATGGAGAGACTCCCGA	72	4937
684543	N/A	N/A	18077	18092	GTTTAACAAGGTAATT	73	4938
684548	N/A	N/A	21859	21874	CAATTCATATCTCCTC	31	4939
684552	N/A	N/A	24492	24507	CCAAAACGAACAAATG	88	4940
684558	N/A	N/A	28709	28724	TAAGTCCCAAGTTCTA	70	4941
684561	N/A	N/A	30688	30703	GCCTAAAATGATGTAA	67	4942
684567	N/A	N/A	34978	34993	GATGTTTTAGGGAATA	34	4943
684577	1453	1468	37816	37831	TTGTTAATTGGATTTC	21	4944
684578	1823	1838	38186	38201	TTAATGCATCTTAGTC	28	4945

TABLE 3
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684112	23	38	2666	2681	TGTAACTGAAGCCAGA	62	108
684118	47	62	2690	2705	GAGATGTTCCCTGGTG	121	264
684124	67	82	2710	2725	AGCTTCCAACCAGGCT	92	189
684131	98	113	2741	2756	CAGAGACCCGCAGCCG	120	192
684138	138	153	2781	2796	TGCAAGGGATGTTAAG	81	193
684144	166	181	2809	2824	CTTCCAAGCAGATTTC	102	116
684150	206	221	7241	7256	CTCAGCGGAGTTTCTG	53	4946
684156	231	246	7266	7281	AGGAGCATTCTGGCGG	46	4947
684162	253	268	7288	7303	GACGATGATACTCAGC	17	4948
684168	289	304	7324	7339	GGAGACGAACAGCAGC	45	4949
684174	321	336	8812	8827	CCATTGCCCACGATCC	23	4950
684180	351	366	8842	8857	CTACAGTTCTGCCAGA	42	4951
684186	386	401	8877	8892	AGAAACAGTGGTGGAC	37	4952
684192	420	435	28393	28408	TGGACAGACTGCAGCC	56	4953
684198	445	460	28418	28433	GATGATCGACAGGATC	70	4954
684204	491	506	28464	28479	GGGTGAAGAGTTGGCA	87	4955
684210	517	532	28490	28505	GATGTAAAACCTGCCC	40	4956
684216	534	549	28507	28522	ATTTGGAAGATTCCAG	92	4957
684222*	559	574	36922	36937	ACTCATCACGCACAGA	7	4958
684230*	589	604	36952	36967	CGGGTGCCTCACCGTG	14	4959
684236*	610	625	36973	36988	ATCCGAGTTGAGATGC	37	4960
684242*	633	648	36996	37011	ATGTAGGCGAAACCGT	50	4961
684248	683	698	37046	37061	CATAGATGACACCGCT	35	4962
684254	726	741	37089	37104	AGACAGACCGTCTGGG	90	4963
684260	749	764	37112	37127	TCCCTATGTACGCTCA	22	4964
684266	863	878	37226	37241	TCTTCAATCAACAGCA	19	4965
684271	883	898	37246	37261	AACCGGAGATATTATA	66	4966
684277	905	920	37268	37283	AGTGTTATAAATAGGT	9	40
684283	959	974	37322	37337	CGAGGCTGATGGTCAA	21	4967
684289	979	994	37342	37357	TACTTCTTTAAGGCTC	11	4968
684295	1000	1015	37363	37378	TAGGATGTAAAGTTCC	32	4969
684305	1082	1097	37445	37460	GAGATGGAGTTATCTT	70	4970
684311	1137	1152	37500	37515	CTAAATGAGGTGGACT	49	4971
684316	1158	1173	37521	37536	TTCTACCCACACTTTG	49	4972
684322	1195	1210	37558	37573	GTCACCCACCAGAAAA	90	4973
684328	1215	1230	37578	37593	GTTTCTGTTGGATGCA	27	4974
684334	1239	1254	37602	37617	CACACAGAGGTTCGGG	31	4975
684339	1275	1290	37638	37653	CAGTTTGGGCATTTTG	5	4976
684345	1301	1316	37664	37679	CACAAGCCGTGTTTTT	59	4977
684351	1315	1330	37678	37693	AAGTATGCCAATGCCA	26	4978
684357	1332	1347	37695	37710	ACTCCACCTGTAAGGG	41	4979
684363	1352	1367	37715	37730	TTTAGATGTGTGACGA	12	4980
684369	1388	1403	37751	37766	GCACCATTTCAAAGAC	36	4981
684374	1407	1422	37770	37785	AAGGAATGGTAAATCC	29	4982
684381	1434	1449	37797	37812	TGAGTTGTTTAGATGA	17	4983
684387	1459	1474	37822	37837	GTAAAATTGTTAATTG	84	4984
684393	1487	1502	37850	37865	TATTCAGGTCTCCATT	21	4985
684399	1529	1544	37892	37907	TAGGTACAAAAGCAGT	26	4986
684405	1559	1574	37922	37937	TACTCATTATAGTAAT	80	4987
684411	1585	1600	37948	37963	GTGGGAGTGATGAAGG	25	4988
684417	1612	1627	37975	37990	TTCTGATGCTCCGACC	54	4989
684423	1646	1661	38009	38024	AGGAACTCACGGTCCC	63	4990
684430	1669	1684	38032	38047	CAGCCTAGACCCAGCC	45	4991
684436	1692	1707	38055	38070	AGACAGTCCTTGGAGG	59	4992
684442	1711	1726	38074	38089	GCCAATACAAGTCATT	40	4993
684447	1738	1753	38101	38116	GCACCATATATACATC	57	4994
684453	1758	1773	38121	38136	GGAGTCTTAGCATCAG	9	4995
684459	1810	1825	38173	38188	GTCCACACAGTTGGTA	47	4996
684464	1824	1839	38187	38202	TTTAATGCATCTTAGT	30	4997
684470	N/A	N/A	5431	5446	TGGGAGGCTCCTGGCG	81	4998
684476	N/A	N/A	5495	5510	GCTCCGCTGCTGGCGC	87	4999
684482	N/A	N/A	5534	5549	ATCCTCAGGGTGGCCT	85	5000
684488	N/A	N/A	5556	5571	GCCCAAAGGAACAGCT	94	5001
684500	N/A	N/A	7171	7186	GCGCGCGCAGAGGGAG	63	5002
684506	N/A	N/A	7201	7216	AGGCCGAACGCACTGG	75	5003
684512	N/A	N/A	29289	29304	AGATGCTAGGCAGAAT	28	5004
			29344	29359
684518	N/A	N/A	29311	29326	AGATGTAAGATGTAAG	55	5005
			29318	29333
			29325	29340
684526	N/A	N/A	6544	6559	AAGAATGGCTCGAGAG	108	5006
684532	N/A	N/A	10657	10672	AACTTAGCAACTCCTC	41	5007
684538	N/A	N/A	14622	14637	GGTAAGGCAGCAAAAG	75	5008
684544	N/A	N/A	18727	18742	GAACAGAGGCTCCGGG	79	5009
684549	N/A	N/A	22519	22534	TAACTTGCCACATACA	59	5010
684553	N/A	N/A	25142	25157	GCTCAACATATACCTA	33	5011
684562	N/A	N/A	31363	31378	CACTTGCCAGGTTTTC	25	5012
684568	N/A	N/A	35631	35646	GACCTGCCACCTACAG	75	5013
684573	1018	1033	37381	37396	TGAGCTGGATTATACT	47	5014

TABLE 4
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684113	26	41	2669	2684	CCCTGTAACTGAAGCC	125	940
684119	52	67	2695	2710	TCCCCGAGATGTTCCC	98	941
684125	73	88	2716	2731	GCCTGCAGCTTCCAAC	105	265
684132	101	116	2744	2759	AGTCAGAGACCCGCAG	170	113
684139	141	156	2784	2799	AAATGCAAGGGATGTT	52	115
			16186	16201
684145	169	184	2812	2827	CTTCTTCCAAGCAGAT	117	194
684151	211	226	7246	7261	TTCTGCTCAGCGGAGT	27	5015
684157	235	250	7270	7285	CAGGAGGAGCATTCTG	67	5016
684163	255	270	7290	7305	AGGACGATGATACTCA	20	5017
684169	306	321	N/A	N/A	CATTGGCTGACGATCG	77	5018
684175	323	338	8814	8829	GTCCATTGCCCACGAT	41	5019
684181	355	370	8846	8861	GGTGCTACAGTTCTGC	21	5020
684187	390	405	8881	8896	GATGAGAAACAGTGGT	29	5021
684193	425	440	28398	28413	TGGCCTGGACAGACTG	75	5022
684199	448	463	28421	28436	GAAGATGATCGACAGG	27	5023
684205	499	514	28472	28487	CTTGGTGAGGGTGAAG	107	5024
684211	519	534	28492	28507	GTGATGTAAAACCTGC	19	5025
684217	543	558	28516	28531	CCAGCAAGAATTTGGA	166*	5026
684224	564	579	36927	36942	GCAGCACTCATCACGC	11*	5027
684231	594	609	36957	36972	CACTCCGGGTGCCTCA	6*	5028
684237	614	629	36977	36992	AGTAATCCGAGTTGAG	9*	5029
684243	639	654	37002	37017	GCCAGGATGTAGGCGA	78	5030
684249	686	701	37049	37064	TCACATAGATGACACC	28	5031
684255	730	745	37093	37108	CCTCAGACAGACCGTC	69	5032
684261	754	769	37117	37132	TCCCTTCCCTATGTAC	65	5033
684267	864	879	37227	37242	ATCTTCAATCAACAGC	11	30
684272	886	901	37249	37264	ATAAACCGGAGATATT	73	5034
684278	934	949	37297	37312	CAAACAATACTATGTA	67	5035
684284	961	976	37324	37339	CACGAGGCTGATGGTC	17	5036
684290	982	997	37345	37360	AGCTACTTCTTTAAGG	45	5037
684300	1020	1035	37383	37398	ACTGAGCTGGATTATA	41	5038
684306	1113	1128	37476	37491	GGTATCTTCTTTCAGA	42	5039
684312	1140	1155	37503	37518	TTTCTAAATGAGGTGG	11	5040
684317	1162	1177	37525	37540	GGGTTTCTACCCACAC	79	5041
684323	1200	1215	37563	37578	ACTGGGTCACCCACCA	58	5042
684329	1220	1235	37583	37598	CGGCTGTTTCTGTTGG	16	5043
684340	1278	1293	37641	37656	CTCCAGTTTGGGCATT	26	5044
684346	1303	1318	37666	37681	GCCACAAGCCGTGTTT	48	5045
684352	1318	1333	37681	37696	GGCAAGTATGCCAATG	72	5046
684358	1333	1348	37696	37711	TACTCCACCTGTAAGG	39	5047
684364	1357	1372	37720	37735	TCTCATTTAGATGTGT	18	5048
684370	1393	1408	37756	37771	CCATAGCACCATTTCA	25	5049
684375	1413	1428	37776	37791	GATAATAAGGAATGGT	23	5050
684382	1437	1452	37800	37815	CAGTGAGTTGTTTAGA	11	5051
684388	1471	1486	37834	37849	CTATCTTATGTTGTAA	31	5052
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	8	31
684400	1532	1547	37895	37910	AGCTAGGTACAAAAGC	69	5053
684406	1563	1578	37926	37941	GATTTACTCATTATAG	20	5054
684412	1597	1612	37960	37975	CGTAAGAAAAATGTGG	50	5055
684418	1617	1632	37980	37995	GCTTGTTCTGATGCTC	61	5056
684424	1650	1665	38013	38028	CTCTAGGAACTCACGG	49	5057
684431	1671	1686	38034	38049	AACAGCCTAGACCCAG	47	5058
684437	1694	1709	38057	38072	CCAGACAGTCCTTGGA	78	5059
684443	1714	1729	38077	38092	GTGGCCAATACAAGTC	55	5060
684448	1743	1758	38106	38121	GAAGGGCACCATATAT	58	5061
684454	1763	1778	38126	38141	GGTCTGGAGTCTTAGC	28	5062
684460	1812	1827	38175	38190	TAGTCCACACAGTTGG	23	5063
684465	1841	1856	38204	38219	GTTACTCTGATGTTTA	29	5064
684471	N/A	N/A	5452	5467	GCGCGCGAAGCAAGGG	101	5065
684477	N/A	N/A	5500	5515	CGTTGGCTCCGCTGCT	72	5066
684483	N/A	N/A	5539	5554	TCCCGATCCTCAGGGT	128	5067
684489	N/A	N/A	5560	5575	TACAGCCCAAAGGAAC	113	5068
684501	N/A	N/A	7177	7192	ACGGAGGCGCGCGCAG	83	5069
684507	N/A	N/A	7225	7240	CCTGCGAGGAGAGCGC	72	5070
684513	N/A	N/A	29345	29360	AAGATGCTAGGCAGAA	31	5071
			29290	29305
684519	N/A	N/A	29314	29329	GTAAGATGTAAGATGT	43	5072
			29321	29336
684521	N/A	N/A	3218	3233	CCACACCCAGAGCCCG	132	5073
684527	N/A	N/A	7342	7357	ACTCACGCTGACGATC	55	5074
684533	N/A	N/A	11320	11335	GATTACTTAACAAGTA	50	5075
684539	N/A	N/A	15284	15299	CACCTCAGCATGAAAA	64	5076
684545	N/A	N/A	19378	19393	TTATACCCTTGTTGGA	78	5077
684550	N/A	N/A	23171	23186	ACTGTTGCAACGAAGA	42	5078
684554	N/A	N/A	25990	26005	GATTAAGACATTTTGG	43	5079
684563	N/A	N/A	32257	32272	ACCTGAATACTGTCTT	19	5080
684569	N/A	N/A	36282	36297	CAGTATGACTGGGAAG	61	5081
684572	1003	1018	37366	37381	TGTTAGGATGTAAAGT	41	5082
684575	1240	1255	37603	37618	TCACACAGAGGTTCGG	34	5083

TABLE 5
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
597005	431	446	28404	28419	TCATGGTGGCCTGGAC	24	5084
684108	2	17	2645	2660	CGTCTTTCCAGTTTAT	83	262
684114	28	43	2671	2686	CTCCCTGTAACTGAAG	97	186
684120	57	72	2700	2715	CAGGCTCCCCGAGATG	83	110
684126	78	93	2721	2736	ACTAAGCCTGCAGCTT	90	190
684133	103	118	2746	2761	GCAGTCAGAGACCCGC	103	267
684140	144	159	2787	2802	GCCAAATGCAAGGGAT	107	37
684146	174	189	2817	2832	AACCCCTTCTTCCAAG	96	947
684152	216	231	7251	7266	GCAAGTTCTGCTCAGC	15	5085
684158	238	253	7273	7288	CAACAGGAGGAGCATT	59	5086
684164	260	275	7295	7310	CGTGGAGGACGATGAT	53	5087
684170	309	324	N/A	N/A	ATCCATTGGCTGACGA	71	5088
684176	326	341	8817	8832	CGTGTCCATTGCCCAC	36	5089
684182	360	375	8851	8866	GAAGAGGTGCTACAGT	24	5090
684188	396	411	8887	8902	GGTGATGATGAGAAAC	52	5091
684200	451	466	28424	28439	GCTGAAGATGATCGAC	39	5092
684206	504	519	28477	28492	CCCCCCTTGGTGAGGG	93	5093
684212	520	535	28493	28508	AGTGATGTAAAACCTG	29	5094
684218	546	561	N/A	N/A	AGACCAGCAAGAATTT	72*	5095
684225	569	584	36932	36947	TGGCCGCAGCACTCAT	9*	5096
684232	599	614	36962	36977	GATGCCACTCCGGGTG	2*	5097
684238	619	634	36982	36997	GTAGGAGTAATCCGAG	5*	5098
684244	673	688	37036	37051	ACCGCTGAGAAGGGCC	47	5099
684250	692	707	37055	37070	GCAAGATCACATAGAT	38	5100
684256	739	754	37102	37117	CGCTCAGAGCCTCAGA	31	5101
684262	795	810	37158	37173	GCTAGCTCTTTTTTCT	59	5102
684273	889	904	37252	37267	TTTATAAACCGGAGAT	35	5103
684279	949	964	37312	37327	GGTCAACATAAAAAGC	28	5104
684285	964	979	37327	37342	CAACACGAGGCTGATG	43	5105
684291	985	1000	37348	37363	CTTAGCTACTTCTTTA	30	5106
684296	1004	1019	37367	37382	CTGTTAGGATGTAAAG	20	5107
684301	1023	1038	37386	37401	AATACTGAGCTGGATT	33	5108
684307	1114	1129	37477	37492	AGGTATCTTCTTTCAG	22	5109
684313	1143	1158	37506	37521	GGTTTTCTAAATGAGG	6	5110
684318	1177	1192	37540	37555	GCTTTTGGACATTTGG	11	5111
684324	1204	1219	37567	37582	ATGCACTGGGTCACCC	40	5112
684330	1225	1240	37588	37603	GGCAGCGGCTGTTTCT	12	5113
684335	1242	1257	37605	37620	CTTCACACAGAGGTTC	45	5114
684341	1283	1298	37646	37661	AAGGGCTCCAGTTTGG	16	5115
684347	1306	1321	37669	37684	AATGCCACAAGCCGTG	27	5116
684353	1319	1334	37682	37697	GGGCAAGTATGCCAAT	46	5117
684359	1337	1352	37700	37715	AAGATACTCCACCTGT	33	5118
684365	1361	1376	37724	37739	GATTTCTCATTTAGAT	36	5119
684371	1395	1410	37758	37773	ATCCATAGCACCATTT	16	5120
684377	1419	1434	37782	37797	ATTAGTGATAATAAGG	6	5121
684384	1440	1455	37803	37818	TTCCAGTGAGTTGTTT	20	5122
684389	1474	1489	37837	37852	ATTCTATCTTATGTTG	28	5123
684395	1492	1507	37855	37870	AGAATTATTCAGGTCT	23	5124
684401	1536	1551	37899	37914	GCCTAGCTAGGTACAA	38	5125
684407	1570	1585	37933	37948	GCTTTATGATTTACTC	6	5126
684413	1600	1615	37963	37978	GACCGTAAGAAAAATG	41	5127
684419	1631	1646	37994	38009	CAAGGAGTCTAGACGC	63	5128
684425	1653	1668	38016	38031	AAGCTCTAGGAACTCA	25	5129
684433	1675	1690	38038	38053	ACAGAACAGCCTAGAC	82	5130
684438	1699	1714	38062	38077	CATTGCCAGACAGTCC	24	5131
684444	1719	1734	38082	38097	AGTTGGTGGCCAATAC	33	5132
684449	1746	1761	38109	38124	TCAGAAGGGCACCATA	45	5133
684455	1765	1780	38128	38143	AAGGTCTGGAGTCTTA	43	5134
684461	1816	1831	38179	38194	ATCTTAGTCCACACAG	20	5135
684466	1842	1857	38205	38220	AGTTACTCTGATGTTT	23	5136
684472	N/A	N/A	5457	5472	TGCGCGCGCGCGAAGC	76	5137
684478	N/A	N/A	5514	5529	CACAAACTCGGGTGCG	75	5138
684484	N/A	N/A	5544	5559	AGCTGTCCCGATCCTC	56	5139
684502	N/A	N/A	7181	7196	AGCGACGGAGGCGCGC	78	5140
684508	N/A	N/A	7230	7245	TTCTGCCTGCGAGGAG	43	5141
684514	N/A	N/A	29291	29306	TAAGATGCTAGGCAGA	16	5142
	N/A	N/A	29346	29361
684520	N/A	N/A	29317	29332	GATGTAAGATGTAAGA	39	5143
	N/A	N/A	29324	29339
684522	N/A	N/A	3871	3886	AATTGCCACCACTATT	73	5144
684528	N/A	N/A	7992	8007	TTACAATGTGCCTTAA	51	5145
684534	N/A	N/A	11970	11985	ACGAATATCCCCACAC	24	5146
684540	N/A	N/A	15938	15953	AAATCCAGAGCCATTC	35	5147
684546	N/A	N/A	20032	20047	GCCCAAACCTCCCAAC	77	5148
684551	N/A	N/A	23823	23838	AAAGGTGCCCAACCTC	45	5149
684555	N/A	N/A	26667	26682	GATAATGTTCTCATAA	38	5150
684564	N/A	N/A	33017	33032	AAGGCACCCCACTAAT	64	5151
684571	865	880	37228	37243	CATCTTCAATCAACAG	11	5152

TABLE 6
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684109	16	31	2659	2674	GAAGCCAGACCAGGCG	154	939
684115	31	46	2674	2689	GTGCTCCCTGTAACTG	85	109
684121	60	75	2703	2718	AACCAGGCTCCCCGAG	127	942
684127	82	97	2725	2740	ACAGACTAAGCCTGCA	128	191
684134	113	128	2756	2771	TCCCCACAGGGCAGTC	87	2611
684141	148	163	2791	2806	TGCAGCCAAATGCAAG	86	38
684147	191	206	N/A	N/A	GCCCGGCCAAACAGCG	99	39
684153	221	236	7256	7271	TGGCGGCAAGTTCTGC	36	5153
684159	244	259	7279	7294	ACTCAGCAACAGGAGG	48	5154
684165	274	289	7309	7324	CACCAGCACCGCGACG	35	5155
684171	311	326	N/A	N/A	CGATCCATTGGCTGAC	79	5156
684177	340	355	8831	8846	CCAGAGATCAGTTGCG	33	5157
684183	374	389	8865	8880	GGACATTTCCTGAGGA	23	5158
684189	401	416	8892	8907	CGTTTGGTGATGATGA	35	5159
684194	433	448	28406	28421	GATCATGGTGGCCTGG	52	5160
684201	454	469	28427	28442	AATGCTGAAGATGATC	74	5161
684207	509	524	28482	28497	ACCTGCCCCCCTTGGT	76	5162
684213	526	541	28499	28514	GATTCCAGTGATGTAA	71	5163
684219*	550	565	N/A	N/A	GCACAGACCAGCAAGA	36	5164
684226*	574	589	36937	36952	GTAGATGGCCGCAGCA	20	5165
684233*	604	619	36967	36982	GTTGAGATGCCACTCC	19	5166
684239*	623	638	36986	37001	AACCGTAGGAGTAATC	59	5167
684245	675	690	37038	37053	ACACCGCTGAGAAGGG	33	5168
684251	693	708	37056	37071	CGCAAGATCACATAGA	20	5169
684257	740	755	37103	37118	ACGCTCAGAGCCTCAG	30	5170
684263	800	815	37163	37178	TTTGGGCTAGCTCTTT	16	5171
684268	869	884	37232	37247	TATACATCTTCAATCA	36	5172
684274	893	908	37256	37271	AGGTTTTATAAACCGG	57	5173
684280	952	967	37315	37330	GATGGTCAACATAAAA	16	5174
684286	967	982	37330	37345	GCTCAACACGAGGCTG	22	5175
684292	987	1002	37350	37365	TCCTTAGCTACTTCTT	22	5176
684297	1007	1022	37370	37385	ATACTGTTAGGATGTA	32	5177
684302	1072	1087	37435	37450	TATCTTATTTCTGGGT	21	5178
684308	1118	1133	37481	37496	AGGGAGGTATCTTCTT	48	5179
684314	1152	1167	37515	37530	CCACACTTTGGTTTTC	26	5180
684319	1182	1197	37545	37560	AAAGGGCTTTTGGACA	43	5181
684325	1205	1220	37568	37583	GATGCACTGGGTCACC	31	5182
684331	1230	1245	37593	37608	GTTCGGGCAGCGGCTG	23	5183
684336	1245	1260	37608	37623	AAGCTTCACACAGAGG	43	5184
684342	1287	1302	37650	37665	TTGCAAGGGCTCCAGT	72	5185
684348	1308	1323	37671	37686	CCAATGCCACAAGCCG	28	5186
684354	1323	1338	37686	37701	GTAAGGGCAAGTATGC	37	5187
684360	1341	1356	37704	37719	GACGAAGATACTCCAC	13	5188
684366	1373	1388	37736	37751	CTTGTTGTCACTGATT	11	5189
684372	1398	1413	37761	37776	TAAATCCATAGCACCA	21	5190
684378	1424	1439	37787	37802	AGATGATTAGTGATAA	33	5191
684385	1444	1459	37807	37822	GGATTTCCAGTGAGTT	11	5192
684390	1476	1491	37839	37854	CCATTCTATCTTATGT	35	5193
684396	1518	1533	37881	37896	GCAGTTATAAACCATT	11	5194
684402	1541	1556	37904	37919	TAGCAGCCTAGCTAGG	71	5195
684408	1575	1590	37938	37953	TGAAGGCTTTATGATT	36	5196
684414	1602	1617	37965	37980	CCGACCGTAAGAAAAA	59	5197
684420	1634	1649	37997	38012	TCCCAAGGAGTCTAGA	88	5198
684426	1657	1672	38020	38035	AGCCAAGCTCTAGGAA	60	5199
684434	1684	1699	38047	38062	CTTGGAGGCACAGAAC	87	5200
684439	1702	1717	38065	38080	AGTCATTGCCAGACAG	26	5201
684445	1721	1736	38084	38099	ACAGTTGGTGGCCAAT	18	5202
684450	1751	1766	38114	38129	TAGCATCAGAAGGGCA	53	5203
684456	1768	1783	38131	38146	CAAAAGGTCTGGAGTC	43	5204
684462	1820	1835	38183	38198	ATGCATCTTAGTCCAC	10	5205
684467	1846	1861	38209	38224	AGTGAGTTACTCTGAT	64	5206
684473	N/A	N/A	5475	5490	AAAGCTGCGCTGCGGG	91	5207
684479	N/A	N/A	5517	5532	AAACACAAACTCGGGT	84	5208
684485	N/A	N/A	5548	5563	GAACAGCTGTCCCGAT	106	5209
684503	N/A	N/A	7186	7201	GGCCGAGCGACGGAGG	97	5210
684509	N/A	N/A	7235	7250	GGAGTTTCTGCCTGCG	36	5211
684510	N/A	N/A	24288	24303	TAGAACATATCATAGA	68	5212
			24330	24345
684515	N/A	N/A	29292	29307	GTAAGATGCTAGGCAG	21	5213
			29347	29362
684523	N/A	N/A	4523	4538	GCAGAGGCGCGCCCAA	109	5214
684529	N/A	N/A	8642	8657	CTTAAAAGCACCTTGT	57	5215
684535	N/A	N/A	12645	12660	GACCATGTCACATTTC	29	5216
684541	N/A	N/A	16591	16606	GTTCATCTCTGTGCAC	23	5217
684556	N/A	N/A	27318	27333	GCCCAGGGTAAAAATC	113	5218
684559	N/A	N/A	29359	29374	GTAAGAGCTAATGTAA	55	5219
684565	N/A	N/A	33669	33684	AGTGATCCAACAAATT	43	5220
684570	N/A	N/A	20245	20260	GGGCAATTCATAAAAC	91	5221

TABLE 7
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID	ID	ID
	NO:	NO:	NO:	NO:	NO:	NO:
	4	4	5	5	8	8		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Start	Stop		(%	ID
Number	Site	Site	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684105	N/A	N/A	N/A	N/A	470	485	AAGGAGTAATCCGAGT	20	5222
684106	N/A	N/A	N/A	N/A	696	711	GGATATTATATACATC	88	5223
684107	N/A	N/A	N/A	N/A	711	726	GGTTTTATAAACCGGG	21	5224
684490	154	169	N/A	N/A	N/A	N/A	CTGCTTACAGCCCAAA	75	5225
684491	159	174	N/A	N/A	N/A	N/A	AGTTTCTGCTTACAGC	83	5226
684492	164	179	N/A	N/A	N/A	N/A	AGCGGAGTTTCTGCTT	95	5227
684493	N/A	N/A	191	206	N/A	N/A	TTCCGGCCAAACAGCG	97	5228
684494	N/A	N/A	196	211	N/A	N/A	GGAGTTTCCGGCCAAA	125	5229
684495	N/A	N/A	201	216	N/A	N/A	TCAGCGGAGTTTCCGG	75	5230
684496	N/A	N/A	N/A	N/A	44	59	TGCAGCCCAAAGGAAC	92	5231
684497	N/A	N/A	N/A	N/A	49	64	GTTTCTGCAGCCCAAA	86	5232
684498	N/A	N/A	N/A	N/A	54	69	GCGGAGTTTCTGCAGC	38	5233

Example 2 Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides complementary to human PMP22 nucleic acid were tested for their effect on PMP22 RNA levels in vitro.

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists of ten 2′-β-D-deoxynucleosides and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a cEt nucleoside. All internucleoside linkages are phosphorothioate (P═S) linkages. All cytosine residues are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. Each modified oligonucleotide listed in the Tables below is 100% complementary to SEQ ID NO: 1 (GENBANK Accession No. NM_000304.3) and/or SEQ ID NO: 2 (GENBANK Accession No. NC_000017.11 truncated from nucleotides 15227001 to 15268000). ‘N/A’ indicates that the modified oligonucleotide is not 100% complementary to that particular gene sequence

Cultured K-562 cells at a density of 50,000 cells per well were treated with 10,000 nM of modified oligonucleotide by electroporation. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. RTS4579, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The values marked with an asterisk (*) indicate that the modified oligonucleotide is complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides complementary to the amplicon region.

TABLE 8
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2			SEQ
Compound	Start	Stop	Start	Stop		PMP22	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	(% UTC)	NO
596957	1105	1120	37468	37483	CTTTCAGATGAAAGGG	21	5234
596988	1724	1739	38087	38102	TCTACAGTTGGTGGCC	22	5235
597028	876	891	37239	37254	GATATTATATACATCT	75	5236
597029	896	911	37259	37274	AATAGGTTTTATAAAC	97	5237
684266	863	878	37226	37241	TCTTCAATCAACAGCA	9	4965
684267	864	879	37227	37242	ATCTTCAATCAACAGC	6	30
684277	905	920	37268	37283	AGTGTTATAAATAGGT	5	40
684571	865	880	37228	37243	CATCTTCAATCAACAG	10	5152
718269	1	16	2644	2659	GTCTTTCCAGTTTATT	93	5238
718270	27	42	2670	2685	TCCCTGTAACTGAAGC	99	118
718271	29	44	2672	2687	GCTCCCTGTAACTGAA	113	41
718272	324	339	8815	8830	TGTCCATTGCCCACGA	24	5239
718273	325	340	8816	8831	GTGTCCATTGCCCACG	38	5240
718274	344	359	8835	8850	TCTGCCAGAGATCAGT	60	5241
718275	346	361	8837	8852	GTTCTGCCAGAGATCA	9	5242
718276	347	362	8838	8853	AGTTCTGCCAGAGATC	13	5243
718277	348	363	8839	8854	CAGTTCTGCCAGAGAT	16	5244
718278	349	364	8840	8855	ACAGTTCTGCCAGAGA	16	5245
718279	416	431	28389	28404	CAGACTGCAGCCATTC	10	5246
718280	418	433	28391	28406	GACAGACTGCAGCCAT	20	5247
718281	419	434	28392	28407	GGACAGACTGCAGCCA	48	5248
718282	478	493	28451	28466	GCAGAAGAACAGGAAC	50	5249
718283	480	495	28453	28468	TGGCAGAAGAACAGGA	86	5250
718284	522	537	28495	28510	CCAGTGATGTAAAACC	64	5251
718285	523	538	28496	28511	TCCAGTGATGTAAAAC	85	5252
718286	552	567	N/A	N/A	ACGCACAGACCAGCAA	30*	5253
718287	553	568	N/A	N/A	CACGCACAGACCAGCA	13*	5254
718288	555	570	N/A	N/A	ATCACGCACAGACCAG	9*	5255
718289	557	572	36920	36935	TCATCACGCACAGACC	8*	5256
718290	558	573	36921	36936	CTCATCACGCACAGAC	11*	5257
718291	560	575	36923	36938	CACTCATCACGCACAG	9*	34
718292	561	576	36924	36939	GCACTCATCACGCACA	5*	35
718293	797	812	37160	37175	GGGCTAGCTCTTTTTT	31	5258
718294	862	877	37225	37240	CTTCAATCAACAGCAA	11	36
718295	866	881	37229	37244	ACATCTTCAATCAACA	20	5259
718296	867	882	37230	37245	TACATCTTCAATCAAC	17	5260
718297	868	883	37231	37246	ATACATCTTCAATCAA	15	5261
718298	871	886	37234	37249	TATATACATCTTCAAT	65	5262
718299	872	887	37235	37250	TTATATACATCTTCAA	33	5263
718300	873	888	37236	37251	ATTATATACATCTTCA	6	5264
718301	874	889	37237	37252	TATTATATACATCTTC	33	5265
718302	877	892	37240	37255	AGATATTATATACATC	72	5266
718303	902	917	37265	37280	GTTATAAATAGGTTTT	15	5267
718304	903	918	37266	37281	TGTTATAAATAGGTTT	55	5268
718305	906	921	37269	37284	AAGTGTTATAAATAGG	32	5269
718306	907	922	37270	37285	AAAGTGTTATAAATAG	59	5270
718307	911	926	37274	37289	GTAAAAAGTGTTATAA	76	5271
718308	912	927	37275	37290	TGTAAAAAGTGTTATA	89	5272
718309	913	928	37276	37291	ATGTAAAAAGTGTTAT	107	5273
718310	914	929	37277	37292	TATGTAAAAAGTGTTA	67	5274
718311	915	930	37278	37293	ATATGTAAAAAGTGTT	75	5275
718312	916	931	37279	37294	TATATGTAAAAAGTGT	97	5276
718313	948	963	37311	37326	GTCAACATAAAAAGCA	22	5277
718314	1002	1017	37365	37380	GTTAGGATGTAAAGTT	9	5278
718315	1203	1218	37566	37581	TGCACTGGGTCACCCA	19	5279
718316	1610	1625	37973	37988	CTGATGCTCCGACCGT	11	5280
718317	1683	1698	38046	38061	TTGGAGGCACAGAACA	68	5281
718318	1685	1700	38048	38063	CCTTGGAGGCACAGAA	58	5282
718319	1686	1701	38049	38064	TCCTTGGAGGCACAGA	36	5283
718320	1688	1703	38051	38066	AGTCCTTGGAGGCACA	31	5284
718321	1690	1705	38053	38068	ACAGTCCTTGGAGGCA	18	5285
718322	1691	1706	38054	38069	GACAGTCCTTGGAGGC	27	5286
718323	1693	1708	38056	38071	CAGACAGTCCTTGGAG	24	5287
718324	1695	1710	38058	38073	GCCAGACAGTCCTTGG	54	5288
718325	1712	1727	38075	38090	GGCCAATACAAGTCAT	70	5289
718326	1713	1728	38076	38091	TGGCCAATACAAGTCA	43	5290
718327	1715	1730	38078	38093	GGTGGCCAATACAAGT	42	5291
718328	1716	1731	38079	38094	TGGTGGCCAATACAAG	33	5292
718329	1717	1732	38080	38095	TTGGTGGCCAATACAA	41	5293
718330	1718	1733	38081	38096	GTTGGTGGCCAATACA	34	5294
718331	1720	1735	38083	38098	CAGTTGGTGGCCAATA	31	5295
718332	1722	1737	38085	38100	TACAGTTGGTGGCCAA	21	5296
718333	1723	1738	38086	38101	CTACAGTTGGTGGCCA	33	5297
718334	1726	1741	38089	38104	CATCTACAGTTGGTGG	23	5298
718335	1727	1742	38090	38105	ACATCTACAGTTGGTG	21	5299
718336	1728	1743	38091	38106	TACATCTACAGTTGGT	12	5300
718337	1730	1745	38093	38108	TATACATCTACAGTTG	48	5301
718338	1731	1746	38094	38109	ATATACATCTACAGTT	86	5302

TABLE 9
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2			SEQ
Compound	Start	Stop	Start	Stop		PMP22	ID
Number	Site	Site	Site	Site	Sequence (5′ to 3′)	(% UTC)	NO
596994	1815	1830	38178	38193	TCTTAGTCCACACAGT	24	5303
596996	1843	1858	38206	38221	GAGTTACTCTGATGTT	32	5304
684277	905	920	37268	37283	AGTGTTATAAATAGGT	6	40
684453	1758	1773	38121	38136	GGAGTCTTAGCATCAG	14	4995
684457	1801	1816	38164	38179	GTTGGTATAAAATCAG	11	4865
684462	1820	1835	38183	38198	ATGCATCTTAGTCCAC	7	5205
718339	1732	1747	38095	38110	TATATACATCTACAGT	68	5305
718340	1754	1769	38117	38132	TCTTAGCATCAGAAGG	35	5306
718341	1756	1771	38119	38134	AGTCTTAGCATCAGAA	11	5307
718342	1757	1772	38120	38135	GAGTCTTAGCATCAGA	17	5308
718343	1759	1774	38122	38137	TGGAGTCTTAGCATCA	24	5309
718344	1760	1775	38123	38138	CTGGAGTCTTAGCATC	24	5310
718345	1761	1776	38124	38139	TCTGGAGTCTTAGCAT	39	5311
718346	1762	1777	38125	38140	GTCTGGAGTCTTAGCA	26	5312
718347	1764	1779	38127	38142	AGGTCTGGAGTCTTAG	12	5313
718348	1766	1781	38129	38144	AAAGGTCTGGAGTCTT	33	5314
718349	1802	1817	38165	38180	AGTTGGTATAAAATCA	14	5315
718350	1803	1818	38166	38181	CAGTTGGTATAAAATC	32	5316
718351	1804	1819	38167	38182	ACAGTTGGTATAAAAT	47	5317
718352	1805	1820	38168	38183	CACAGTTGGTATAAAA	34	5318
718353	1806	1821	38169	38184	ACACAGTTGGTATAAA	40	5319
718354	1808	1823	38171	38186	CCACACAGTTGGTATA	23	5320
718355	1809	1824	38172	38187	TCCACACAGTTGGTAT	37	5321
718356	1811	1826	38174	38189	AGTCCACACAGTTGGT	11	5322
718357	1813	1828	38176	38191	TTAGTCCACACAGTTG	30	5323
718358	1814	1829	38177	38192	CTTAGTCCACACAGTT	10	5324
718359	1817	1832	38180	38195	CATCTTAGTCCACACA	10	5325
718360	1818	1833	38181	38196	GCATCTTAGTCCACAC	4	5326
718361	1819	1834	38182	38197	TGCATCTTAGTCCACA	11	5327
718362	1839	1854	38202	38217	TACTCTGATGTTTATT	28	5328
718363	1840	1855	38203	38218	TTACTCTGATGTTTAT	27	5329
718364	1844	1859	38207	38222	TGAGTTACTCTGATGT	23	5330
718365	1845	1860	38208	38223	GTGAGTTACTCTGATG	36	5331
718366	N/A	N/A	5414	5429	TCCCCTTTAACGGGAA	104	5332
718367	N/A	N/A	5415	5430	TTCCCCTTTAACGGGA	110	5333
718368	N/A	N/A	4674	4689	GAGTCCTGGCCATGGG	115	5334
718369	N/A	N/A	4675	4690	GGAGTCCTGGCCATGG	110	5335
718370	N/A	N/A	4676	4691	TGGAGTCCTGGCCATG	90	5336
718371	N/A	N/A	4677	4692	CTGGAGTCCTGGCCAT	108	5337
718372	N/A	N/A	4682	4697	CTTGGCTGGAGTCCTG	95	5338
718373	N/A	N/A	4683	4698	CCTTGGCTGGAGTCCT	102	5339
718374	N/A	N/A	4685	4700	AGCCTTGGCTGGAGTC	95	5340
718375	N/A	N/A	6699	6714	GTTTCCCAGACCCCAG	97	5341
718376	N/A	N/A	6700	6715	GGTTTCCCAGACCCCA	135	5342
718377	N/A	N/A	6702	6717	CTGGTTTCCCAGACCC	118	5343
718378	N/A	N/A	6705	6720	AGGCTGGTTTCCCAGA	75	5344
718379	N/A	N/A	7343	7358	CACTCACGCTGACGAT	90	5345
718380	N/A	N/A	7344	7359	GCACTCACGCTGACGA	64	5346
718381	N/A	N/A	10382	10397	ATGCTGTGGCTTTGGG	21	5347
718382	N/A	N/A	10383	10398	GATGCTGTGGCTTTGG	17	5348
718383	N/A	N/A	10539	10554	CCAGATGCCACTTGGG	75	5349
718384	N/A	N/A	10540	10555	GCCAGATGCCACTTGG	55	5350
718385	N/A	N/A	10541	10556	GGCCAGATGCCACTTG	93	5351
718386	N/A	N/A	10542	10557	TGGCCAGATGCCACTT	122	5352
718387	N/A	N/A	14660	14675	TCTGATTGTGAAAATA	12	5353
718388	N/A	N/A	19968	19983	GTCATTCCAGAAATAG	23	5354
718389	N/A	N/A	19969	19984	TGTCATTCCAGAAATA	25	5355
718390	N/A	N/A	19970	19985	ATGTCATTCCAGAAAT	37	5356
718391	N/A	N/A	19972	19987	GAATGTCATTCCAGAA	11	5357
718392	N/A	N/A	19973	19988	TGAATGTCATTCCAGA	8	5358
718393	N/A	N/A	19974	19989	ATGAATGTCATTCCAG	4	5359
718394	N/A	N/A	20446	20461	TTCAAGGTCAGATTCC	22	5360
718395	N/A	N/A	26920	26935	AGATTTCCAGAGGTGT	17	5361
718396	N/A	N/A	26921	26936	GAGATTTCCAGAGGTG	10	5362
718397	N/A	N/A	28385	28400	CTGCAGCCATTCTGGG	107	5363
718398	N/A	N/A	28386	28401	ACTGCAGCCATTCTGG	45	5364
718399	N/A	N/A	28388	28403	AGACTGCAGCCATTCT	55	5365
718400	N/A	N/A	35820	35835	GCTATTTGGGCTGCTG	30	5366
718401	N/A	N/A	35821	35836	TGCTATTTGGGCTGCT	63	5367
718402	N/A	N/A	35822	35837	CTGCTATTTGGGCTGC	23	5368
718403	N/A	N/A	35826	35841	CTCACTGCTATTTGGG	55	5369
718404	N/A	N/A	35827	35842	CCTCACTGCTATTTGG	67	5370
718405	N/A	N/A	35828	35843	ACCTCACTGCTATTTG	54	5371
718406	N/A	N/A	35830	35845	TAACCTCACTGCTATT	86	5372
718407	N/A	N/A	35831	35846	CTAACCTCACTGCTAT	90	5373
718408	N/A	N/A	36916	36931	CACGCACAGACCTGGG	26*	4809
718409	N/A	N/A	36917	36932	TCACGCACAGACCTGG	26*	4810
718410	N/A	N/A	36919	36934	CATCACGCACAGACCT	13*	4811

Example 3 Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides complementary to human PMP22 nucleic acid were tested for their effect on PMP22 RNA levels in vitro.

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists of ten 2′-β-D-deoxynucleosides and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a cEt nucleoside. All internucleoside linkages are phosphorothioate (P═S) linkages. All cytosine residues are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. Each modified oligonucleotide listed in the Tables below is 100% complementary to SEQ ID NO: 1 (GENBANK Accession No. NM_000304.3) and/or SEQ ID NO: 2 (GENBANK Accession No. NC_000017.11 truncated from nucleotides 15227001 to 15268000). ‘N/A’ indicates that the modified oligonucleotide is not 100% complementary to that particular gene sequence.

Cultured A-549 cells at a density of 15,000 cells per well were treated with 4,000 nM of modified oligonucleotide by electroporation. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS35670 (forward sequence AGAAATCTGCTTGGAAGAAGGG, designated herein as SEQ ID NO: 9; reverse sequence ACGTGGAGGACGATGATACT, designated herein as SEQ ID NO: 10; probe sequence AGCAACAGGAGGAGCATTCTGGC, designated herein as SEQ ID NO: 11) was used to measure RNA levels. In some cases, an additional human PMP22 primer probe set RTS35667 (forward sequence GTTTGAGGCCACCCTGAG, designated herein as SEQ ID NO: 12; reverse sequence GATACTCAGCAACAGGAGGAG, designated herein as SEQ ID NO: 13; probe sequence AGTTTCTGCAGCCCAAAGGAACAG, designated herein as SEQ ID NO: 14) was also used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The values marked with an asterisk (*) indicate that the modified oligonucleotide is complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides complementary to the amplicon region.

TABLE 10
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO:	NO:	NO:	NO:			PMP22
	1	1	2	2		PMP22	(% UTC)	SEQ
Compound	Start	Stop	Start	Stop		(% UTC)	RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	RTS 35670	35667	NO
684108	2	17	2645	2660	CGTCTTTCCAGTTTAT	137	99	262
684111	21	36	2664	2679	TAACTGAAGCCAGACC	96	93	263
684118	47	62	2690	2705	GAGATGTTCCCTGGTG	42	156	264
684125	73	88	2716	2731	GCCTGCAGCTTCCAAC	83	142	265
684128	87	102	2730	2745	AGCCGACAGACTAAGC	65	98	266
684133	103	118	2746	2761	GCAGTCAGAGACCCGC	27	93	267
684134	113	128	2756	2771	TCCCCACAGGGCAGTC	49	75	2611
684140	144	159	2787	2802	GCCAAATGCAAGGGAT	53	88	37
684141	148	163	2791	2806	TGCAGCCAAATGCAAG	99	102	38
684147	191	206	N/A	N/A	GCCCGGCCAAACAGCG	25*	97	39
684277	905	920	37268	37283	AGTGTTATAAATAGGT	36	32	40
718271	29	44	2672	2687	GCTCCCTGTAACTGAA	81	100	41
866361	25	40	2668	2683	CCTGTAACTGAAGCCA	73	74	42
866364	33	48	2676	2691	TGGTGCTCCCTGTAAC	67	152	43
866367	38	53	2681	2696	CCTGGTGGTGCTCCCT	56	99	44
866371	43	58	2686	2701	TGTTCCCTGGTGGTGC	50	127	45
866378	51	66	2694	2709	CCCCGAGATGTTCCCT	26	45	46
866381	55	70	2698	2713	GGCTCCCCGAGATGTT	62	79	47
866384	59	74	2702	2717	ACCAGGCTCCCCGAGA	60	109	48
866386	63	78	2706	2721	TCCAACCAGGCTCCCC	52	77	49
866388	68	83	2711	2726	CAGCTTCCAACCAGGC	63	86	50
866394	79	94	2722	2737	GACTAAGCCTGCAGCT	78	101	51
866397	83	98	2726	2741	GACAGACTAAGCCTGC	76	96	52
866404	91	106	2734	2749	CCGCAGCCGACAGACT	74	98	53
866407	95	110	2738	2753	AGACCCGCAGCCGACA	45	110	54
866409	99	114	2742	2757	TCAGAGACCCGCAGCC	50	118	55
866417	131	146	2774	2789	GATGTTAAGGCAAGAC	43	91	56
866419	135	150	2778	2793	AAGGGATGTTAAGGCA	49	119	57
866422	139	154	2782	2797	ATGCAAGGGATGTTAA	71	80	58
866429	173	188	2816	2831	ACCCCTTCTTCCAAGC	32*	94	59
866435	195	210	N/A	N/A	TTCTGCCCGGCCAAAC	20*	99	60
866438	199	214	N/A	N/A	GAGTTTCTGCCCGGCC	36*	88	61
866441	203	218	N/A	N/A	AGCGGAGTTTCTGCCC	65*	80	62
866444	N/A	N/A	2843	2858	ATAAAACTCACCCGGC	99*	106	63
866448	N/A	N/A	2858	2873	AGGCACAGTTTGCCAA	102	93	64
866452	N/A	N/A	2883	2898	TAAAGCATAGGCACAC	52	82	65
866456	N/A	N/A	2895	2910	AGGCAATTCTTGTAAA	51	97	66
866460	N/A	N/A	2967	2982	GTCAATTCCAACACAA	32	99	67
866464	N/A	N/A	2995	3010	AGGATATAAAAAGCCC	62	113	68
866468	N/A	N/A	3080	3095	TTCAATCTGGATGCAT	49	99	69
866472	N/A	N/A	3160	3175	TGCTTACCAAGGCCAC	48	48	70
866476	N/A	N/A	3312	3327	ACCCAACCCATCTGTC	69	95	71
866480	N/A	N/A	3324	3339	CCAGACAGGTAAACCC	52	83	72
866484	N/A	N/A	3360	3375	CAATAACCACCCAGGT	89	105	73
866488	N/A	N/A	3405	3420	TGCTACAGCTCGCTTC	61	120	74
866492	N/A	N/A	3441	3456	AGTCTAATACACATAC	49	101	75
866496	N/A	N/A	3502	3517	CATATCTAACTCAGGG	36	85	76
866500	N/A	N/A	3526	3541	AAGTAAGCACTTTAGA	60	87	77
866504	N/A	N/A	3548	3563	ACAACATACTCAGGAC	25	89	78
866508	N/A	N/A	3560	3575	ACTTATGTGATCACAA	36	109	79
866512	N/A	N/A	3639	3654	GGTCATTTTATAAGTT	38	85	80
866516	N/A	N/A	3670	3685	AAAGACATGGCAGTGT	62	86	81
866520	N/A	N/A	3798	3813	ACTAAAGTAGCTTGTA	74	75	82
866524	N/A	N/A	3838	3853	TCTCACATCAACCTTT	58	117	83
866528	N/A	N/A	3893	3908	CATAATAAGGGCCCAG	94	93	84
866532	N/A	N/A	3978	3993	AGGAAATAGTAATGCC	30	92	85
866536	N/A	N/A	4030	4045	GAATTTGGGCAATTTC	67	111	86
866540	N/A	N/A	4111	4126	GTGAGAGGCAGTATGG	32	90	87
866544	N/A	N/A	4236	4251	CTTCAAACAATGATCT	50	99	88
866548	N/A	N/A	4273	4288	TATTCTTACGGTAAGT	47	120	89
866552	N/A	N/A	4296	4311	AGCTGCTATTTTAGCT	93	100	90
866556	N/A	N/A	4358	4373	TCATAGAAGCTCATCA	71	87	91
866560	N/A	N/A	4464	4479	GAGCAGGAATGTGGAT	78	97	92
866564	N/A	N/A	4541	4556	CCCTTCAGTCTCGGCT	82	88	93
866568	N/A	N/A	4645	4660	GTGCGAGGTGGCCATT	66	117	94
866572	N/A	N/A	4733	4748	GAATAAGCTCTAGGCA	61	84	95
866576	N/A	N/A	4752	4767	GCAAAACCAGACTACC	49	89	96
866580	N/A	N/A	4814	4829	GGAAGAAAAGTCCGGC	46	106	97
866584	N/A	N/A	4868	4883	TTCCTAGGATTGGCGG	71	96	98
866588	N/A	N/A	4890	4905	TGCACCTACGAAGCAT	95	95	99
866592	N/A	N/A	4990	5005	CTGGAAGAAGTCCCTC	82	98	100
866596	N/A	N/A	5103	5118	AGCTCAGCGGATGCCC	65	80	101
866600	N/A	N/A	5212	5227	GGCTGAGCTTTCTCAC	52	82	102
866604	N/A	N/A	5233	5248	CTTTTACTCGAAACCA	68	93	103
866608	N/A	N/A	5249	5264	TGCAAAACCGCGGCGA	78	98	104
866612	N/A	N/A	5266	5281	AAGAAAAAGTCGGTCC	75	94	105
866616	N/A	N/A	5279	5294	TTAAATGCGCCTCAAG	88	101	106
866620	N/A	N/A	5299	5314	CAGGAGACAGTCACTT	53	77	107

TABLE 11
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ
	ID	ID	SEQ	SEQ		PMP22	PMP22
	NO:	NO:	ID	ID		(%	(%
	1	1	NO: 2	NO: 2		UTC)	UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	35667	NO
684112	23	38	2666	2681	TGTAACTGAAGCCAGA	63	86	108
684115	31	46	2674	2689	GTGCTCCCTGTAACTG	41	126	109
684120	57	72	2700	2715	CAGGCTCCCCGAGATG	70	78	110
684129	93	108	2736	2751	ACCCGCAGCCGACAGA	44	65	111
684130	97	112	2740	2755	AGAGACCCGCAGCCGA	37	108	112
684132	101	116	2744	2759	AGTCAGAGACCCGCAG	66	101	113
684137	133	148	2776	2791	GGGATGTTAAGGCAAG	58	83	114
684139	141	156	2784	2799	AAATGCAAGGGATGTT	43	61	115
			16186	16201
684144	166	181	2809	2824	CTTCCAAGCAGATTTC	78*	114	116
684149	201	216	N/A	N/A	CGGAGTTTCTGCCCGG	57*	98	117
684277	905	920	37268	37283	AGTGTTATAAATAGGT	26	35	40
718270	27	42	2670	2685	TCCCTGTAACTGAAGC	70	75	118
866358	17	32	2660	2675	TGAAGCCAGACCAGGC	128	117	119
866366	35	50	2678	2693	GGTGGTGCTCCCTGTA	54	123	120
866369	40	55	2683	2698	TCCCTGGTGGTGCTCC	40	59	121
866373	45	60	2688	2703	GATGTTCCCTGGTGGT	42	89	122
866376	49	64	2692	2707	CCGAGATGTTCCCTGG	29	76	123
866379	53	68	2696	2711	CTCCCCGAGATGTTCC	34	42	124
866385	61	76	2704	2719	CAACCAGGCTCCCCGA	58	96	125
866387	66	81	2709	2724	GCTTCCAACCAGGCTC	75	108	126
866390	70	85	2713	2728	TGCAGCTTCCAACCAG	74	98	127
866393	77	92	2720	2735	CTAAGCCTGCAGCTTC	92	105	128
866396	81	96	2724	2739	CAGACTAAGCCTGCAG	83	100	129
866399	85	100	2728	2743	CCGACAGACTAAGCCT	43	84	130
866402	89	104	2732	2747	GCAGCCGACAGACTAA	39	95	131
866413	105	120	2748	2763	GGGCAGTCAGAGACCC	73	82	132
866415	129	144	2772	2787	TGTTAAGGCAAGACCC	60	76	133
866421	137	152	2780	2795	GCAAGGGATGTTAAGG	34	75	134
866424	142	157	2785	2800	CAAATGCAAGGGATGT	42	68	135
866427	146	161	2789	2804	CAGCCAAATGCAAGGG	29	112	136
866430	176	191	2819	2834	GTAACCCCTTCTTCCA	18*	80	137
866433	193	208	N/A	N/A	CTGCCCGGCCAAACAG	24*	100	138
866436	197	212	N/A	N/A	GTTTCTGCCCGGCCAA	15*	111	139
866446	N/A	N/A	2847	2862	GCCAATAAAACTCACC	77	89	140
866450	N/A	N/A	2868	2883	CATCACCCAGAGGCAC	73	97	141
866454	N/A	N/A	2886	2901	TTGTAAAGCATAGGCA	34	104	142
866458	N/A	N/A	2926	2941	TTCATTTGCGGCTTGC	29	82	143
866462	N/A	N/A	2991	3006	TATAAAAAGCCCTCTG	77	88	144
866466	N/A	N/A	3067	3082	CATTAGGGTTTCTAGA	62	94	145
866470	N/A	N/A	3131	3146	GTGCACAGCTATTTTC	110	136	146
866474	N/A	N/A	3229	3244	GACCAGGCTTGCCACA	65	96	147
866478	N/A	N/A	3317	3332	GGTAAACCCAACCCAT	88	97	148
866482	N/A	N/A	3334	3349	CCATATACTGCCAGAC	40	91	149
866486	N/A	N/A	3366	3381	TTTAATCAATAACCAC	76	94	150
866490	N/A	N/A	3417	3432	GCATATATTGGGTGCT	49	84	151
866494	N/A	N/A	3500	3515	TATCTAACTCAGGGTT	57	76	152
866498	N/A	N/A	3509	3524	ATATGAGCATATCTAA	66	78	153
866502	N/A	N/A	3538	3553	CAGGACTGTTCTAAGT	41	87	154
866506	N/A	N/A	3550	3565	TCACAACATACTCAGG	30	98	155
866510	N/A	N/A	3564	3579	CAACACTTATGTGATC	35	88	156
866514	N/A	N/A	3646	3661	CTCCACAGGTCATTTT	63	88	157
866518	N/A	N/A	3696	3711	GCATATGCAAGTAGAA	63	106	158
866522	N/A	N/A	3820	3835	GGGAAGACCTGACCAC	45	91	159
866526	N/A	N/A	3876	3891	GCCCAAATTGCCACCA	78	99	160
866530	N/A	N/A	3919	3934	CAAAGCAGTTAACATC	41	95	161
866534	N/A	N/A	4015	4030	CTCAAGTTCACTGAGC	49	97	162
866538	N/A	N/A	4063	4078	AACAAACCTAATCACC	64	98	163
866542	N/A	N/A	4183	4198	TACTTGTAAACACTGC	18	89	164
866546	N/A	N/A	4270	4285	TCTTACGGTAAGTAAA	60	89	165
866550	N/A	N/A	4292	4307	GCTATTTTAGCTAATT	62	114	166
866554	N/A	N/A	4316	4331	TTATTTTACGATTTGA	59	93	167
866558	N/A	N/A	4360	4375	TGTCATAGAAGCTCAT	29	84	168
866562	N/A	N/A	4508	4523	ACTGAGACTCCCGTGC	83	84	169
866566	N/A	N/A	4564	4579	CGTTACAGGGAGAGAG	62	69	170
866570	N/A	N/A	4721	4736	GGCAAAGTGTTCCTGC	58	88	171
866574	N/A	N/A	4745	4760	CAGACTACCACCGAAT	57	88	172
866578	N/A	N/A	4790	4805	GGATAGCATGGTCTGG	25	92	173
866582	N/A	N/A	4850	4865	ATTGATCTAGCGGGCT	50	103	174
866586	N/A	N/A	4883	4898	ACGAAGCATGCCAGCT	61	81	175
866590	N/A	N/A	4933	4948	AGCCGGACACACCTGC	60	102	176
866594	N/A	N/A	5062	5077	CGCCGACCGCGCCCGC	68	126	177
866598	N/A	N/A	5121	5136	GAAGACCCAGCCAAAT	81	75	178
866602	N/A	N/A	5226	5241	TCGAAACCAGAGGCGG	56	87	179
866606	N/A	N/A	5244	5259	AACCGCGGCGACTTTT	65	92	180
866610	N/A	N/A	5263	5278	AAAAAGTCGGTCCCTG	64	93	181
866614	N/A	N/A	5268	5283	TCAAGAAAAAGTCGGT	59	88	182
866618	N/A	N/A	5291	5306	AGTCACTTGGCCTTAA	48	101	183
866622	N/A	N/A	5379	5394	CTGCAGTAGGGTGTGT	80	102	184

TABLE 12
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ
	ID	ID	SEQ	SEQ		PMP22	PMP22
	NO:	NO:	ID	ID		(%	(%
	1	1	NO: 2	NO: 2		UTC)	UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	35667	NO
684110	20	35	2663	2678	AACTGAAGCCAGACCA	124	117	185
684114	28	43	2671	2686	CTCCCTGTAACTGAAG	76	64	186
684116	37	52	2680	2695	CTGGTGGTGCTCCCTG	63	110	187
684122	62	77	2705	2720	CCAACCAGGCTCCCCG	36	102	188
684124	67	82	2710	2725	AGCTTCCAACCAGGCT	102	99	189
684126	78	93	2721	2736	ACTAAGCCTGCAGCTT	64	102	190
684127	82	97	2725	2740	ACAGACTAAGCCTGCA	78	110	191
684131	98	113	2741	2756	CAGAGACCCGCAGCCG	39	108	192
684138	138	153	2781	2796	TGCAAGGGATGTTAAG	79	75	193
684145	169	184	2812	2827	CTTCTTCCAAGCAGAT	100*	147	194
684277	905	920	37268	37283	AGTGTTATAAATAGGT	37	35	40
866360	24	39	2667	2682	CTGTAACTGAAGCCAG	97	103	195
866363	32	47	2675	2690	GGTGCTCCCTGTAACT	51	117	196
866370	41	56	2684	2699	TTCCCTGGTGGTGCTC	42	64	197
866374	46	61	2689	2704	AGATGTTCCCTGGTGG	59	142	198
866377	50	65	2693	2708	CCCGAGATGTTCCCTG	33	60	199
866380	54	69	2697	2712	GCTCCCCGAGATGTTC	36	37	200
866383	58	73	2701	2716	CCAGGCTCCCCGAGAT	57	89	201
866391	71	86	2714	2729	CTGCAGCTTCCAACCA	89	131	202
866400	86	101	2729	2744	GCCGACAGACTAAGCC	72	106	203
866403	90	105	2733	2748	CGCAGCCGACAGACTA	62	97	204
866406	94	109	2737	2752	GACCCGCAGCCGACAG	41	101	205
866411	102	117	2745	2760	CAGTCAGAGACCCGCA	29	93	206
866414	106	121	2749	2764	AGGGCAGTCAGAGACC	78	93	207
866416	130	145	2773	2788	ATGTTAAGGCAAGACC	75	124	208
866418	134	149	2777	2792	AGGGATGTTAAGGCAA	64	109	209
866425	143	158	2786	2801	CCAAATGCAAGGGATG	64	77	210
866428	147	162	2790	2805	GCAGCCAAATGCAAGG	70	161	211
866431	177	192	2820	2835	CGTAACCCCTTCTTCC	10*	132	212
866434	194	209	N/A	N/A	TCTGCCCGGCCAAACA	9*	93	213
866437	198	213	N/A	N/A	AGTTTCTGCCCGGCCA	24*	120	214
866440	202	217	N/A	N/A	GCGGAGTTTCTGCCCG	84*	86	215
866443	N/A	N/A	2842	2857	TAAAACTCACCCGGCC	83*	101	216
866447	N/A	N/A	2848	2863	TGCCAATAAAACTCAC	83	100	217
866451	N/A	N/A	2871	2886	ACACATCACCCAGAGG	60	89	218
866455	N/A	N/A	2894	2909	GGCAATTCTTGTAAAG	64	115	219
866459	N/A	N/A	2929	2944	CTTTTCATTTGCGGCT	80	118	220
866463	N/A	N/A	2994	3009	GGATATAAAAAGCCCT	72	88	221
866467	N/A	N/A	3068	3083	GCATTAGGGTTTCTAG	58	113	222
866471	N/A	N/A	3159	3174	GCTTACCAAGGCCACC	53	85	223
866475	N/A	N/A	3254	3269	GAGGAAGTGCTACTCA	76	89	224
866479	N/A	N/A	3322	3337	AGACAGGTAAACCCAA	72	93	225
866483	N/A	N/A	3339	3354	CCACACCATATACTGC	73	100	226
866487	N/A	N/A	3368	3383	AGTTTAATCAATAACC	67	105	227
866491	N/A	N/A	3419	3434	GTGCATATATTGGGTG	51	100	228
866495	N/A	N/A	3501	3516	ATATCTAACTCAGGGT	45	107	229
866499	N/A	N/A	3512	3527	GAAATATGAGCATATC	60	110	230
866503	N/A	N/A	3547	3562	CAACATACTCAGGACT	51	98	231
866507	N/A	N/A	3552	3567	GATCACAACATACTCA	19	101	232
866511	N/A	N/A	3567	3582	AACCAACACTTATGTG	57	97	233
866515	N/A	N/A	3668	3683	AGACATGGCAGTGTTT	70	127	234
866519	N/A	N/A	3796	3811	TAAAGTAGCTTGTAAC	85	102	235
866523	N/A	N/A	3821	3836	AGGGAAGACCTGACCA	64	107	236
866527	N/A	N/A	3892	3907	ATAATAAGGGCCCAGT	113	123	237
866531	N/A	N/A	3961	3976	GCTTTAAAGGTTTATG	47	93	238
866535	N/A	N/A	4024	4039	GGGCAATTTCTCAAGT	73	112	239
866539	N/A	N/A	4096	4111	GTGCAGTGGTTAGGCA	73	90	240
866543	N/A	N/A	4192	4207	AATGAAGTGTACTTGT	38	105	241
866547	N/A	N/A	4271	4286	TTCTTACGGTAAGTAA	53	112	242
866551	N/A	N/A	4293	4308	TGCTATTTTAGCTAAT	89	103	243
866555	N/A	N/A	4355	4370	TAGAAGCTCATCACTC	62	109	244
866559	N/A	N/A	4424	4439	CAGCAGTTCACGCACG	62	97	245
866563	N/A	N/A	4525	4540	TGGCAGAGGCGCGCCC	127	117	246
866567	N/A	N/A	4603	4618	AATCAGCTGATTCATA	101	101	247
866571	N/A	N/A	4726	4741	CTCTAGGCAAAGTGTT	81	105	248
866575	N/A	N/A	4751	4766	CAAAACCAGACTACCA	74	91	249
866579	N/A	N/A	4813	4828	GAAGAAAAGTCCGGCC	88	99	250
866583	N/A	N/A	4867	4882	TCCTAGGATTGGCGGG	89	122	251
866587	N/A	N/A	4888	4903	CACCTACGAAGCATGC	69	102	252
866591	N/A	N/A	4987	5002	GAAGAAGTCCCTCTCC	77	128	253
866595	N/A	N/A	5076	5091	TCTGGGCCCGCCGACG	91	117	254
866599	N/A	N/A	5150	5165	CGAGAAACTGGCTCCT	68	115	255
866603	N/A	N/A	5232	5247	TTTTACTCGAAACCAG	83	110	256
866607	N/A	N/A	5248	5263	GCAAAACCGCGGCGAC	65	95	257
866611	N/A	N/A	5265	5280	AGAAAAAGTCGGTCCC	83	102	258
866615	N/A	N/A	5269	5284	CTCAAGAAAAAGTCGG	60	95	259
866619	N/A	N/A	5297	5312	GGAGACAGTCACTTGG	31	85	260
866623	N/A	N/A	5411	5426	CCTTTAACGGGAACAA	113	108	261

TABLE 13
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO:	NO:	NO:	NO:		PMP22	PMP22
	1	1	2	2		(% UTC)	(% UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	35667	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	27	31
885424	205	220	7240	7255	TCAGCGGAGTTTCTGC	40*	32	4812
885444	232	247	7267	7282	GAGGAGCATTCTGGCG	20*	14	4813
885464	314	329	N/A	N/A	CCACGATCCATTGGCT	62	42	4814
885484	447	462	28420	28435	AAGATGATCGACAGGA	67	61	4815
885503	575	590	36938	36953	TGTAGATGGCCGCAGC	55	71	4816
885522	602	617	36965	36980	TGAGATGCCACTCCGG	67	64	268
885542	676	691	37039	37054	GACACCGCTGAGAAGG	54	49	269
885562	799	814	37162	37177	TTGGGCTAGCTCTTTT	59	49	270
885582	966	981	37329	37344	CTCAACACGAGGCTGA	65	72	271
885602	1016	1031	37379	37394	AGCTGGATTATACTGT	50	68	272
885622	1139	1154	37502	37517	TTCTAAATGAGGTGGA	34	44	273
885642	1224	1239	37587	37602	GCAGCGGCTGTTTCTG	53	54	274
885662	1294	1309	37657	37672	CGTGTTTTTGCAAGGG	36	43	275
885682	1329	1344	37692	37707	CCACCTGTAAGGGCAA	37	50	276
885702	1377	1392	37740	37755	AAGACTTGTTGTCACT	18	24	277
885719	1531	1546	37894	37909	GCTAGGTACAAAAGCA	77	76	278
885739	1609	1624	37972	37987	TGATGCTCCGACCGTA	65	65	279
885759	1670	1685	38033	38048	ACAGCCTAGACCCAGC	36	60	280
885778	1749	1764	38112	38127	GCATCAGAAGGGCACC	36	35	281
885797	N/A	N/A	5499	5514	GTTGGCTCCGCTGCTG	44	61	282
885837	N/A	N/A	7182	7197	GAGCGACGGAGGCGCG	74	76	283
885857	N/A	N/A	7227	7242	TGCCTGCGAGGAGAGC	124*	129	284
885897	N/A	N/A	32737	32752	AATCCCGGTAACCACA	46	46	285
885917	N/A	N/A	33016	33031	AGGCACCCCACTAATT	86	93	286
885937	N/A	N/A	3414	3429	TATATTGGGTGCTACA	39	119	287
885957	N/A	N/A	4494	4509	GCGCAGGCCAGCCTTG	106	165	288
885977	N/A	N/A	5061	5076	GCCGACCGCGCCCGCG	94	131	289
885994	N/A	N/A	5805	5820	CGCTATCCAGACACCA	24	25	290
886014	N/A	N/A	6318	6333	GAGTAGATGTCCAGCG	60	70	291
886034	N/A	N/A	6835	6850	CTCCGAGACCCCGGTT	65	68	292
886054	N/A	N/A	7663	7678	CTTCAACGAGGCTGCA	53	65	293
886074	N/A	N/A	8553	8568	ACTCAACCTTAGACAC	74	88	294
886094	N/A	N/A	9129	9144	GCACTAAGGGCATGTC	42	45	295
886114	N/A	N/A	9599	9614	GGTACCTAGTTGGTGC	80	86	296
886134	N/A	N/A	10056	10071	TATAATGCTTCAGCTG	49	46	297
886154	N/A	N/A	10658	10673	CAACTTAGCAACTCCT	48	51	298
886174	N/A	N/A	11135	11150	CGCCACTTAAGGCTGA	79	91	299
886194	N/A	N/A	11861	11876	GTCAAAGTCAGTTAGT	35	40	300
886214	N/A	N/A	12330	12345	AACCAGAACACTAGCC	49	70	301
886234	N/A	N/A	12974	12989	AGAGAAGCCTCAACAG	74	83	302
886254	N/A	N/A	13879	13894	ACTTAACAGAAGCAGG	35	53	303
886274	N/A	N/A	14287	14302	AACTACGCCAAGCTCC	48	72	304
886294	N/A	N/A	14943	14958	CATTCAATAGCAGGGC	27	33	305
886313	N/A	N/A	15900	15915	GCTGAGGGAGCCACGA	48	58	306
886333	N/A	N/A	16541	16556	GGCTCAATAGAGTTGA	67	66	307
886353	N/A	N/A	17330	17345	CCCTAACTCCCTACAT	87	88	308
886373	N/A	N/A	18266	18281	CGTCAACTGTTTGAAG	36	51	309
886393	N/A	N/A	18755	18770	CTCGATGCCACAATTA	88	94	310
886413	N/A	N/A	19267	19282	GTGCATTGTACGATGA	32	44	311
886432	N/A	N/A	19678	19693	GGGTATTTTAGCTAGA	52	47	312
886452	N/A	N/A	20052	20067	CCCAAGACCAGGACTC	87	80	313
886472	N/A	N/A	21247	21262	AGCCAATATCCAACCT	61	52	314
886492	N/A	N/A	21714	21729	TGCCTTTGTATCACAA	34	47	315
886511	N/A	N/A	22709	22724	GGTAACAACCAGCGCA	40	52	316
886531	N/A	N/A	23308	23323	ACACAACATGTCATCA	59	67	317
886551	N/A	N/A	24434	24449	AGATACCACCTACCAG	44	56	318
886571	N/A	N/A	25440	25455	ATAACATGGCCTGAAA	73	72	319
886591	N/A	N/A	26705	26720	AGCATAGAGGTTCTTC	42	41	320
886611	N/A	N/A	27023	27038	TCCTAGATTTTCACCT	55	62	321
886631	N/A	N/A	27693	27708	CGGGAATGGCTGTTAG	55	59	322
886651	N/A	N/A	28712	28727	TTCTAAGTCCCAAGTT	82	100	323
886671	N/A	N/A	29157	29172	TTAAGGAGACCTCTCA	22	18	324
886691	N/A	N/A	29580	29595	TACCATGGGCATTCTG	75	75	325
886711	N/A	N/A	30174	30189	AACAAGGTTTGAGCGA	34	35	326
886731	N/A	N/A	30918	30933	GGACAAAGTCATGCGC	39	35	327
886751	N/A	N/A	31283	31298	TACTAGTCTGTGAGTC	46	44	328
886771	N/A	N/A	31777	31792	AGCCTTGTGGCTAAGT	93	85	329
886791	N/A	N/A	32576	32591	TCCTTTTAGGTCTGTG	25	24	330
886811	N/A	N/A	33522	33537	CTATGATGTTGGGTTG	59	69	331
886831	N/A	N/A	34101	34116	GCTCACTAAGGGTCAG	65	73	332
886851	N/A	N/A	34482	34497	CCCCATGAGAGTGATT	69	82	333
886871	N/A	N/A	35061	35076	CTTAACCGTGATAAGC	54	62	334
886891	N/A	N/A	35499	35514	GTCCAGGATCCTTAAT	56	46	335
886911	N/A	N/A	35903	35918	TGCCGTGTGGGATTCA	58	54	336
886931	N/A	N/A	36448	36463	CGCCATGGTAAAAGGA	75	85	337

TABLE 14
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
885425	207	222	7242	7257	GCTCAGCGGAGTTTCT	40*	338
885445	233	248	7268	7283	GGAGGAGCATTCTGGC	23*	339
885465	315	330	N/A	N/A	CCCACGATCCATTGGC	58	340
885485	449	464	28422	28437	TGAAGATGATCGACAG	72	341
885504	576	591	36939	36954	GTGTAGATGGCCGCAG	68	342
885523	603	618	36966	36981	TTGAGATGCCACTCCG	77	343
885543	677	692	37040	37055	TGACACCGCTGAGAAG	56	344
885563	803	818	37166	37181	GATTTTGGGCTAGCTC	28	345
885583	968	983	37331	37346	GGCTCAACACGAGGCT	33	346
885603	1017	1032	37380	37395	GAGCTGGATTATACTG	41	347
885623	1154	1169	37517	37532	ACCCACACTTTGGTTT	76	348
885643	1226	1241	37589	37604	GGGCAGCGGCTGTTTC	36	349
885663	1295	1310	37658	37673	CCGTGTTTTTGCAAGG	45	350
885683	1330	1345	37693	37708	TCCACCTGTAAGGGCA	33	351
885703	1378	1393	37741	37756	AAAGACTTGTTGTCAC	35	352
885720	1533	1548	37896	37911	TAGCTAGGTACAAAAG	75	353
885740	1611	1626	37974	37989	TCTGATGCTCCGACCG	42	354
885760	1672	1687	38035	38050	GAACAGCCTAGACCCA	58	355
885779	1752	1767	38115	38130	TTAGCATCAGAAGGGC	32	356
885798	N/A	N/A	5515	5530	ACACAAACTCGGGTGC	56	357
885818	N/A	N/A	N/A	N/A	GAGTTTCCGGCCAAAC	110	358
885838	N/A	N/A	7183	7198	CGAGCGACGGAGGCGC	32	359
885858	N/A	N/A	7228	7243	CTGCCTGCGAGGAGAG	88*	360
885878	N/A	N/A	8807	8822	GCCCACGATCCATTGC	63	361
885898	N/A	N/A	32738	32753	TAATCCCGGTAACCAC	31	362
885918	N/A	N/A	33018	33033	CAAGGCACCCCACTAA	73	363
885938	N/A	N/A	3503	3518	GCATATCTAACTCAGG	28	364
885958	N/A	N/A	4513	4528	GCCCAACTGAGACTCC	67	365
885978	N/A	N/A	5107	5122	ATGTAGCTCAGCGGAT	45	366
885995	N/A	N/A	5813	5828	CCCTTATCCGCTATCC	31	367
886015	N/A	N/A	6330	6345	CTGGACCGAAGGGAGT	54	368
886035	N/A	N/A	6904	6919	GGCCACTGCACGCTTC	78	369
886055	N/A	N/A	7680	7695	TCATAAATACTCCTCT	55	370
886075	N/A	N/A	8574	8589	CTATAGTAGAAGGAGC	40	371
886095	N/A	N/A	9136	9151	CAGGAGGGCACTAAGG	88	372
886115	N/A	N/A	9686	9701	AAACAGCTCATCCTGT	59	373
886135	N/A	N/A	10083	10098	TTGTACTGTGGTTCAA	25	374
886155	N/A	N/A	10668	10683	GGTTTAAGCACAACTT	42	375
886175	N/A	N/A	11146	11161	CCTGGAGGATTCGCCA	48	376
886195	N/A	N/A	11867	11882	GGCGGAGTCAAAGTCA	44	377
886215	N/A	N/A	12339	12354	CCTAATCCTAACCAGA	106	378
886235	N/A	N/A	13006	13021	CTTATACCTGGAGAGG	58	379
886255	N/A	N/A	13885	13900	GGTGAGACTTAACAGA	48	380
886275	N/A	N/A	14345	14360	TGATTCTACTTACCCC	49	381
886295	N/A	N/A	15093	15108	TCCCAAGCCGCCTGTG	60	382
886314	N/A	N/A	15914	15929	GAGATTATGGGTTGGC	23	383
886334	N/A	N/A	16546	16561	GGACAGGCTCAATAGA	42	384
886354	N/A	N/A	17355	17370	CGTAGAGTCATCTAGA	30	385
886374	N/A	N/A	18331	18346	GCTTATGCAGCTGGGA	76	386
886394	N/A	N/A	18811	18826	TGCAATTCTACCCCAT	45	387
886414	N/A	N/A	19309	19324	TGGAAGACTTACTCCA	64	388
886433	N/A	N/A	19696	19711	CTCAACAGGTAATCCT	47	389
886453	N/A	N/A	20103	20118	TATTAACACCTCCCAT	73	390
886473	N/A	N/A	21258	21273	TGGAAGTTTTAAGCCA	62	391
886493	N/A	N/A	21747	21762	GGTCATACGGTCTTCT	31	392
886512	N/A	N/A	22719	22734	GGAATAGACAGGTAAC	46	393
886532	N/A	N/A	23321	23336	GAGTAAGGTGCACACA	104	394
886552	N/A	N/A	24544	24559	GAGCAATGACAGATAA	42	395
886572	N/A	N/A	25480	25495	CATGATCTATGACTGA	36	396
886592	N/A	N/A	26774	26789	CGGCTAATGGGTTGTG	33	397
886612	N/A	N/A	27033	27048	GGTTAACTGTTCCTAG	35	398
886632	N/A	N/A	27698	27713	GATCACGGGAATGGCT	86	399
886652	N/A	N/A	28801	28816	GTTGATACGCCTGGCT	40	400
886672	N/A	N/A	29174	29189	ACAGTTTAGGCAGGAG	44	401
886692	N/A	N/A	29586	29601	AAATGGTACCATGGGC	35	402
886712	N/A	N/A	30201	30216	CATCAGATGGGTAACG	46	403
886732	N/A	N/A	30942	30957	AGCTAGATGTAAAGGG	55	404
886752	N/A	N/A	31310	31325	TACTTAGCTCTCTAAT	77	405
886772	N/A	N/A	31799	31814	GAAGAGATAGTTCCTA	61	406
886792	N/A	N/A	32633	32648	CCACATGGAGCTTGAT	75	407
886812	N/A	N/A	33528	33543	GTGCAGCTATGATGTT	42	408
886832	N/A	N/A	34110	34125	GGCTGATTAGCTCACT	34	409
886852	N/A	N/A	34533	34548	CTAAAGCCCTTTTGAA	54	410
886872	N/A	N/A	35068	35083	CTCTAAGCTTAACCGT	48	411
886892	N/A	N/A	35542	35557	CAGCAGTTTTGATCTG	72	412
886912	N/A	N/A	35908	35923	CAGTATGCCGTGTGGG	28	413
886932	N/A	N/A	36459	36474	TATTGGAGTCACGCCA	43	414

TABLE 15
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	NO
597060	1821	1836	38184	38199	AATGCATCTTAGTCCA	34	415
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	18	31
885426	208	223	7243	7258	TGCTCAGCGGAGTTTC	38*	416
885446	234	249	7269	7284	AGGAGGAGCATTCTGG	29*	417
885466	317	332	8808	8823	TGCCCACGATCCATTG	66	418
885486	450	465	28423	28438	CTGAAGATGATCGACA	79	419
885505	577	592	36940	36955	CGTGTAGATGGCCGCA	89	420
885524	607	622	36970	36985	CGAGTTGAGATGCCAC	57	421
885544	684	699	37047	37062	ACATAGATGACACCGC	36	422
885564	804	819	37167	37182	GGATTTTGGGCTAGCT	31	423
885584	970	985	37333	37348	AAGGCTCAACACGAGG	48	424
885604	1019	1034	37382	37397	CTGAGCTGGATTATAC	46	425
885624	1160	1175	37523	37538	GTTTCTACCCACACTT	53	426
885644	1227	1242	37590	37605	CGGGCAGCGGCTGTTT	49	427
885664	1296	1311	37659	37674	GCCGTGTTTTTGCAAG	71	428
885684	1331	1346	37694	37709	CTCCACCTGTAAGGGC	55	429
885704	1379	1394	37742	37757	CAAAGACTTGTTGTCA	50	430
885721	1534	1549	37897	37912	CTAGCTAGGTACAAAA	75	431
885741	1613	1628	37976	37991	GTTCTGATGCTCCGAC	58	432
885761	1673	1688	38036	38051	AGAACAGCCTAGACCC	52	433
885799	N/A	N/A	5516	5531	AACACAAACTCGGGTG	58	434
885839	N/A	N/A	7184	7199	CCGAGCGACGGAGGCG	50	435
885859	N/A	N/A	7229	7244	TCTGCCTGCGAGGAGA	91*	436
885899	N/A	N/A	32739	32754	TTAATCCCGGTAACCA	69	437
885919	N/A	N/A	33025	33040	CGTGCTCCAAGGCACC	95	438
885939	N/A	N/A	3545	3560	ACATACTCAGGACTGT	43	439
885959	N/A	N/A	4524	4539	GGCAGAGGCGCGCCCA	97	440
885979	N/A	N/A	5113	5128	AGCCAAATGTAGCTCA	63	441
885996	N/A	N/A	5827	5842	CGAGAACTGGGCCGCC	69	442
886016	N/A	N/A	6395	6410	CCAGGACACGAACCCC	79	443
886036	N/A	N/A	6969	6984	AACAAGCGGTTCGCAC	64	444
886056	N/A	N/A	7707	7722	TCTGACTATGGTTTGG	53	445
886076	N/A	N/A	8596	8611	CGATTATGTGCAGAGA	53	446
886096	N/A	N/A	9147	9162	TCCTAAGTGATCAGGA	85	447
886116	N/A	N/A	9710	9725	TCGCTATGGCCTACCC	27	448
886136	N/A	N/A	10211	10226	CCAATAGGACTGGGAC	40	449
886156	N/A	N/A	10710	10725	TGTAACATGCTACAGG	37	450
886176	N/A	N/A	11161	11176	CTCAATCAAAGAGGCC	47	451
886196	N/A	N/A	11872	11887	AGGCAGGCGGAGTCAA	37	452
886216	N/A	N/A	12389	12404	TCTTACTTAAGCCCCT	62	453
886236	N/A	N/A	13401	13416	AGATATCCCAAGGGAA	67	454
886256	N/A	N/A	13960	13975	TCCCGAAGTGGGAAGT	83	455
886276	N/A	N/A	14397	14412	GTGCACCCAACTCCTT	77	456
886296	N/A	N/A	15129	15144	GGGCAAGCCAGGACTG	104	457
886315	N/A	N/A	15930	15945	AGCCATTCCTTGGGTA	50	458
886335	N/A	N/A	16551	16566	ACATAGGACAGGCTCA	46	459
886355	N/A	N/A	17369	17384	GCTCAAGCCCAAAACG	48	460
886375	N/A	N/A	18374	18389	GCCAAACCACTGACCA	46	461
886395	N/A	N/A	18817	18832	GCCTACTGCAATTCTA	75	462
886415	N/A	N/A	19321	19336	AAGAATTGCTCTTGGA	35	463
886434	N/A	N/A	19723	19738	GGCGATGAAGGTGACG	34	464
886454	N/A	N/A	20137	20152	AGCCATGAGAGGGTAA	73	465
886474	N/A	N/A	21298	21313	TGCAAAGTGGAGGCCT	83	466
886494	N/A	N/A	21752	21767	TTGCAGGTCATACGGT	32	467
886513	N/A	N/A	22746	22761	CCCCAATCAGAGCCAT	76	468
886533	N/A	N/A	23455	23470	GGACATTGATTGTAGC	41	469
886553	N/A	N/A	24594	24609	TGCAACTGGAACTGGA	69	470
886573	N/A	N/A	25499	25514	GATCTTTACTTCTGGT	65	471
886593	N/A	N/A	26780	26795	AAATGACGGCTAATGG	62	472
886613	N/A	N/A	27140	27155	AGTACTCACAGCTCTG	69	473
886633	N/A	N/A	27704	27719	GGTAAAGATCACGGGA	46	474
886653	N/A	N/A	28834	28849	CTGATTATGTGTCCAG	34	475
886673	N/A	N/A	29221	29236	CTGCACACTATGCATA	79	476
886693	N/A	N/A	29626	29641	CGTCAACCTTCCAATG	58	477
886713	N/A	N/A	30238	30253	ATAACGAGCCTGTACA	66	478
886733	N/A	N/A	30984	30999	GACCAACAGATAACTG	70	479
886753	N/A	N/A	31318	31333	CCCTAATCTACTTAGC	72	480
886773	N/A	N/A	31813	31828	CCTAATGCAATCAAGA	49	481
886793	N/A	N/A	32682	32697	ATCTAATCATCCAACC	53	482
886813	N/A	N/A	33534	33549	TGGAAGGTGCAGCTAT	60	483
886833	N/A	N/A	34121	34136	CTCATATAATAGGCTG	49	484
886853	N/A	N/A	34573	34588	CAGGATGGGTAGGTCT	59	485
886873	N/A	N/A	35136	35151	GTGCAGCGACTAACTA	58	486
886893	N/A	N/A	35572	35587	CATTGCGGGTTAATTG	56	487
886913	N/A	N/A	36065	36080	TCAAACTGATGGCCCC	61	488
886933	N/A	N/A	36490	36505	AGCCAATGGAAGTGAA	48	489

TABLE 16
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	14	31
684432	1674	1689	38037	38052	CAGAACAGCCTAGACC	65	490
885427	209	224	7244	7259	CTGCTCAGCGGAGTTT	56*	491
885447	236	251	7271	7286	ACAGGAGGAGCATTCT	27*	492
885467	319	334	8810	8825	ATTGCCCACGATCCAT	38	493
885487	452	467	28425	28440	TGCTGAAGATGATCGA	87	494
885506	578	593	36941	36956	CCGTGTAGATGGCCGC	51	495
885525	608	623	36971	36986	CCGAGTTGAGATGCCA	53	496
885545	685	700	37048	37063	CACATAGATGACACCG	31	497
885565	858	873	37221	37236	AATCAACAGCAACCCC	47	498
885585	971	986	37334	37349	TAAGGCTCAACACGAG	61	499
885605	1021	1036	37384	37399	TACTGAGCTGGATTAT	45	500
885625	1161	1176	37524	37539	GGTTTCTACCCACACT	58	501
885645	1228	1243	37591	37606	TCGGGCAGCGGCTGTT	17	502
885665	1297	1312	37660	37675	AGCCGTGTTTTTGCAA	45	503
885685	1334	1349	37697	37712	ATACTCCACCTGTAAG	43	504
885705	1380	1395	37743	37758	TCAAAGACTTGTTGTC	37	505
885722	1535	1550	37898	37913	CCTAGCTAGGTACAAA	80	506
885742	1614	1629	37977	37992	TGTTCTGATGCTCCGA	54	507
885780	N/A	N/A	5412	5427	CCCTTTAACGGGAACA	86	508
885800	N/A	N/A	5518	5533	CAAACACAAACTCGGG	40	509
885840	N/A	N/A	7185	7200	GCCGAGCGACGGAGGC	96	510
885860	N/A	N/A	7231	7246	TTTCTGCCTGCGAGGA	62*	511
885900	N/A	N/A	32740	32755	CTTAATCCCGGTAACC	44	512
885920	N/A	N/A	33112	33127	GGGCCTGATCATAGTT	59	513
885940	N/A	N/A	3566	3581	ACCAACACTTATGTGA	53	514
885960	N/A	N/A	4594	4609	ATTCATAGCCTCCTAA	90	515
885997	N/A	N/A	5838	5853	CTTCAGCAAGGCGAGA	41	516
886017	N/A	N/A	6457	6472	TGCTCTTGCGCTAGAC	46	517
886037	N/A	N/A	6996	7011	CGGAACATCTTTTGCT	56	518
886057	N/A	N/A	7716	7731	ATTCACCCATCTGACT	75	519
886077	N/A	N/A	8607	8622	GCACACAGAAACGATT	68	520
886097	N/A	N/A	9185	9200	TCCCAGGTCGATATTT	51	521
886117	N/A	N/A	9715	9730	ATCAATCGCTATGGCC	24	522
886137	N/A	N/A	10231	10246	GATTAAGCACTGTTCT	57	523
886157	N/A	N/A	10740	10755	TCCAACGGCAGAAGAC	22	524
886177	N/A	N/A	11191	11206	AGCTTATTGTCTGCAG	47	525
886197	N/A	N/A	11877	11892	CGAGAAGGCAGGCGGA	20	526
886217	N/A	N/A	12435	12450	GGCTACCTACTTCCAG	58	527
886237	N/A	N/A	13527	13542	CTCTAGATGTTTGGCT	49	528
886257	N/A	N/A	14002	14017	GAAATAGTCCTGCATG	64	529
886277	N/A	N/A	14434	14449	GGTCTAAGGAAATCAC	23	530
886297	N/A	N/A	15232	15247	GACTTTGTGAGCAGGG	28	531
886316	N/A	N/A	15955	15970	TCTCATAAGAGCCTGT	26	532
886336	N/A	N/A	16638	16653	CTCCAACTCCTTGTGA	80	533
886356	N/A	N/A	17382	17397	TTACACACCAGTTGCT	68	534
886376	N/A	N/A	18421	18436	GCAAAGAGAGAGCGGC	24	535
886396	N/A	N/A	18853	18868	CCGTTTACAAGCACAA	35	536
886416	N/A	N/A	19340	19355	GAGTAGGCTTTGTTTC	57	537
886435	N/A	N/A	19732	19747	GCTCACAAAGGCGATG	39	538
886455	N/A	N/A	20266	20281	CCCCATATCAAGTCCC	55	539
886475	N/A	N/A	21348	21363	AGAACTTATGTTGAGT	43	540
886495	N/A	N/A	21805	21820	CTGCACAGATAGCAAA	88	541
886514	N/A	N/A	22761	22776	TCAGATGATGCTGCTC	33	542
886534	N/A	N/A	23507	23522	TCTACTATATCCTGGA	57	543
886554	N/A	N/A	24600	24615	CCATATTGCAACTGGA	45	544
886574	N/A	N/A	25548	25563	GGCCAGAGAGTTGTTT	95	545
886594	N/A	N/A	26786	26801	GTAAGAAAATGACGGC	33	546
886614	N/A	N/A	27155	27170	TTCAATGCTTCACCCA	24	547
886634	N/A	N/A	27781	27796	GGGCTTATCAGAACTT	77	548
886654	N/A	N/A	28849	28864	CCTCAGTATTCACCTC	44	549
886674	N/A	N/A	29258	29273	GAAGATGTCACCCTGT	74	550
886694	N/A	N/A	29640	29655	TACAACCCTATTTACG	79	551
886714	N/A	N/A	30277	30292	CATTTATCCTCTGGTG	22	552
886734	N/A	N/A	31036	31051	TGCTATTACAGCTCAG	48	553
886754	N/A	N/A	31324	31339	CAACAACCCTAATCTA	63	554
886774	N/A	N/A	31819	31834	AGCCAACCTAATGCAA	55	555
886794	N/A	N/A	32700	32715	TGCCGAGGAAACACAA	55	556
886814	N/A	N/A	33570	33585	GGAAAGGGATGTCAGT	48	557
886834	N/A	N/A	34128	34143	ACGGACTCTCATATAA	76	558
886854	N/A	N/A	34610	34625	TGCTGAGCATTCAACT	39	559
886874	N/A	N/A	35141	35156	GAGAAGTGCAGCGACT	49	560
886894	N/A	N/A	35579	35594	GCGAAATCATTGCGGG	53	561
886914	N/A	N/A	36077	36092	GAGCAGCCACGCTCAA	55	562
886934	N/A	N/A	36502	36517	GGCATTACCTAAAGCC	50	563
886951	N/A	N/A	5153	5168	GACCGAGAAACTGGCT	43	564

TABLE 17
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop		RTS	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	35670	NO
684227	579	594	36942	36957	ACCGTGTAGATGGCCG	70	565
684376	1418	1433	37781	37796	TTAGTGATAATAAGGA	18	566
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	32	31
885428	210	225	7245	7260	TCTGCTCAGCGGAGTT	53*	567
885448	237	252	7272	7287	AACAGGAGGAGCATTC	30*	568
885468	320	335	8811	8826	CATTGCCCACGATCCA	69	569
885488	492	507	28465	28480	AGGGTGAAGAGTTGGC	63	570
885526	611	626	36974	36989	AATCCGAGTTGAGATG	86	571
885546	694	709	37057	37072	CCGCAAGATCACATAG	40	572
885566	881	896	37244	37259	CCGGAGATATTATATA	63	573
885586	972	987	37335	37350	TTAAGGCTCAACACGA	47	574
885606	1022	1037	37385	37400	ATACTGAGCTGGATTA	33	575
885626	1179	1194	37542	37557	GGGCTTTTGGACATTT	41	576
885646	1229	1244	37592	37607	TTCGGGCAGCGGCTGT	22	577
885666	1299	1314	37662	37677	CAAGCCGTGTTTTTGC	48	578
885686	1338	1353	37701	37716	GAAGATACTCCACCTG	47	579
885723	1537	1552	37900	37915	AGCCTAGCTAGGTACA	37	580
885743	1615	1630	37978	37993	TTGTTCTGATGCTCCG	79	581
885762	1696	1711	38059	38074	TGCCAGACAGTCCTTG	62	582
885781	N/A	N/A	5416	5431	GTTCCCCTTTAACGGG	157	583
885801	N/A	N/A	5536	5551	CGATCCTCAGGGTGGC	72	584
885841	N/A	N/A	7187	7202	GGGCCGAGCGACGGAG	85	585
885861	N/A	N/A	7234	7249	GAGTTTCTGCCTGCGA	32*	586
885901	N/A	N/A	32741	32756	TCTTAATCCCGGTAAC	67	587
885921	N/A	N/A	2838	2853	ACTCACCCGGCCAAAC	90*	588
885941	N/A	N/A	3626	3641	GTTAGATTTGCTCTAG	25	589
885961	N/A	N/A	4644	4659	TGCGAGGTGGCCATTT	69	590
885980	N/A	N/A	5164	5179	GACCTAGTGTTGACCG	34	591
885998	N/A	N/A	5882	5897	CGCCACAGGGACTGTT	88	592
886018	N/A	N/A	6465	6480	GGGCATTCTGCTCTTG	73	593
886038	N/A	N/A	7004	7019	GCCTGCAACGGAACAT	67	594
886058	N/A	N/A	7742	7757	GTCCTAAAAGGGTGTT	61	595
886078	N/A	N/A	8670	8685	CTGCATGGTAAGAGCC	27	596
886098	N/A	N/A	9205	9220	TATCATACCACCTTCA	69	597
886118	N/A	N/A	9725	9740	GGCTCTTAACATCAAT	30	598
886138	N/A	N/A	10301	10316	CACCATGCAAACCCAC	45	599
886158	N/A	N/A	10746	10761	GCTATTTCCAACGGCA	55	600
886178	N/A	N/A	11247	11262	GAGCATAGTTCATTTG	22	601
886198	N/A	N/A	11936	11951	GCCCACACGAGGCAGA	87	602
886218	N/A	N/A	12487	12502	TAGAAAGTGTCTGCAT	52	603
886238	N/A	N/A	13538	13553	GTCAAGGCAGACTCTA	58	604
886258	N/A	N/A	14017	14032	ACGAGAGTTGTTCAAG	44	605
886278	N/A	N/A	14451	14466	ACCCGTGGAAGACAGC	44	606
886298	N/A	N/A	15290	15305	GCCTAACACCTCAGCA	107	607
886317	N/A	N/A	15974	15989	TACCACCAGGGTCTCA	53	608
886337	N/A	N/A	16682	16697	TTCCACTACCCATAGT	80	609
886357	N/A	N/A	17434	17449	CCGCAAATCTTCTGTT	66	610
886377	N/A	N/A	18433	18448	GAGAATGGTGTGGCAA	32	611
886397	N/A	N/A	18865	18880	GTAAACCAATGCCCGT	51	612
886417	N/A	N/A	19379	19394	TTTATACCCTTGTTGG	45	613
886436	N/A	N/A	19755	19770	AGACAACTATGTGCCA	49	614
886456	N/A	N/A	20353	20368	AGTGAGTTAAGGGCTC	48	615
886476	N/A	N/A	21349	21364	TAGAACTTATGTTGAG	24	616
886496	N/A	N/A	21841	21856	CAGCATAAGGGTGCTA	74	617
886515	N/A	N/A	22803	22818	GCTCAAAGGGAACCCC	64	618
886535	N/A	N/A	23523	23538	TGTGTTCAAGTGCTTA	19	619
886555	N/A	N/A	24606	24621	CCTAATCCATATTGCA	57	620
886575	N/A	N/A	25559	25574	AGGATAAAAGTGGCCA	47	621
886595	N/A	N/A	26833	26848	GCACAACATATGCTTC	35	622
886615	N/A	N/A	27164	27179	AAGCATACCTTCAATG	59	623
886635	N/A	N/A	27786	27801	TTGAAGGGCTTATCAG	80	624
886655	N/A	N/A	28857	28872	ACAGATAGCCTCAGTA	76	625
886675	N/A	N/A	29286	29301	TGCTAGGCAGAATCCA	58	626
886695	N/A	N/A	29667	29682	CATCTAACCTTGGGCT	77	627
886715	N/A	N/A	30319	30334	CACTCAACCGTCCCTG	49	628
886735	N/A	N/A	31065	31080	GGACACTCTCAGGACT	55	629
886755	N/A	N/A	31373	31388	GTTAAGTTGTCACTTG	49	630
886775	N/A	N/A	31845	31860	AGCCTTTTGATATGCA	56	631
886795	N/A	N/A	32708	32723	TTTGATTCTGCCGAGG	26	632
886815	N/A	N/A	33625	33640	TCGCAAAAGCACTTTC	50	633
886835	N/A	N/A	34133	34148	GCCACACGGACTCTCA	83	634
886855	N/A	N/A	34628	34643	GTCCAGACAATACAAA	79	635
886875	N/A	N/A	35146	35161	GTATAGAGAAGTGCAG	46	636
886895	N/A	N/A	35586	35601	GTCAGGAGCGAAATCA	52	637
886915	N/A	N/A	36139	36154	GCCCACCAATGCAGCC	82	638
886935	N/A	N/A	36512	36527	AGTGAGTGGTGGCATT	74	639

TABLE 18
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	8	31
885429	212	227	7247	7262	GTTCTGCTCAGCGGAG	55*	640
885449	246	261	7281	7296	ATACTCAGCAACAGGA	20*	641
885469	322	337	8813	8828	TCCATTGCCCACGATC	40	642
885489	503	518	28476	28491	CCCCCTTGGTGAGGGT	114	643
885507	581	596	36944	36959	TCACCGTGTAGATGGC	40	644
885527	612	627	36975	36990	TAATCCGAGTTGAGAT	45	645
885547	695	710	37058	37073	TCCGCAAGATCACATA	65	646
885567	882	897	37245	37260	ACCGGAGATATTATAT	76	647
885587	973	988	37336	37351	TTTAAGGCTCAACACG	46	648
885607	1024	1039	37387	37402	AAATACTGAGCTGGAT	64	649
885627	1180	1195	37543	37558	AGGGCTTTTGGACATT	21	650
885647	1231	1246	37594	37609	GGTTCGGGCAGCGGCT	31	651
885667	1300	1315	37663	37678	ACAAGCCGTGTTTTTG	57	652
885687	1339	1354	37702	37717	CGAAGATACTCCACCT	50	653
885706	1427	1442	37790	37805	TTTAGATGATTAGTGA	43	654
885724	1538	1553	37901	37916	CAGCCTAGCTAGGTAC	54	655
885744	1618	1633	37981	37996	CGCTTGTTCTGATGCT	103	656
885763	1697	1712	38060	38075	TTGCCAGACAGTCCTT	39	657
885782	N/A	N/A	5453	5468	CGCGCGCGAAGCAAGG	69	658
885802	N/A	N/A	5537	5552	CCGATCCTCAGGGTGG	53	659
885842	N/A	N/A	7188	7203	TGGGCCGAGCGACGGA	67	660
885862	N/A	N/A	7236	7251	CGGAGTTTCTGCCTGC	40*	661
885902	N/A	N/A	32742	32757	TTCTTAATCCCGGTAA	67	662
885922	N/A	N/A	2880	2895	AGCATAGGCACACATC	23	663
885942	N/A	N/A	3781	3796	CTCTGATAGGTAGGTA	25	664
885962	N/A	N/A	4650	4665	GGCGGGTGCGAGGTGG	89	665
885981	N/A	N/A	5215	5230	GGCGGCTGAGCTTTCT	39	666
885999	N/A	N/A	5903	5918	GTCCAACACTCTCGGG	54	667
886019	N/A	N/A	6504	6519	GTCCACCGCGCGCTTC	45	668
886039	N/A	N/A	7086	7101	AGCCTTCGCGCCGCCT	41	669
886059	N/A	N/A	7802	7817	GCCGACATGGGACCTG	48	670
886079	N/A	N/A	8692	8707	CACCTAGCCACACCGC	42	671
886099	N/A	N/A	9212	9227	GCTTAGCTATCATACC	53	672
886119	N/A	N/A	9732	9747	GTCCACGGGCTCTTAA	78	673
886139	N/A	N/A	10360	10375	CAGTGCTACGGTCACA	25	674
886159	N/A	N/A	10758	10773	CACCAACTGACAGCTA	42	675
886179	N/A	N/A	11254	11269	TCGCAATGAGCATAGT	16	676
886199	N/A	N/A	11957	11972	CACTAAGCCTCTCTTA	98	677
886219	N/A	N/A	12574	12589	GAATCATGGATGAGAT	34	678
886239	N/A	N/A	13544	13559	CGTCAAGTCAAGGCAG	49	679
886259	N/A	N/A	14022	14037	GGTACACGAGAGTTGT	37	680
886279	N/A	N/A	14459	14474	ACTGAGAAACCCGTGG	41	681
886299	N/A	N/A	15359	15374	TGCTTTGGTGTTGAGC	77	682
886318	N/A	N/A	16002	16017	ACACATTCCGTCCTCT	26	683
886338	N/A	N/A	16693	16708	TGCAGAGCATGTTCCA	28	684
886358	N/A	N/A	17441	17456	CACCTTCCCGCAAATC	62	685
886378	N/A	N/A	18452	18467	AAACTAGAGAGGGTGG	50	686
886398	N/A	N/A	18879	18894	CCCCACCAGTGACAGT	50	687
886418	N/A	N/A	19400	19415	TAGTAAGCTGTCTGAG	56	688
886437	N/A	N/A	19776	19791	TGCGGAAAGCAAAACA	44	689
886457	N/A	N/A	20364	20379	GCCTACAACCTAGTGA	89	690
886477	N/A	N/A	21350	21365	GTAGAACTTATGTTGA	24	691
886516	N/A	N/A	22824	22839	GATTCAAGAGCTCTCG	53	692
886536	N/A	N/A	23532	23547	GACACTATATGTGTTC	80	693
886556	N/A	N/A	24675	24690	CTGGATAGAAACACTC	50	694
886576	N/A	N/A	25577	25592	AATAGAACTTATGTTG	73	695
886596	N/A	N/A	26855	26870	GTCTAGCACTCTTCAC	59	696
886616	N/A	N/A	27184	27199	GCCATATGTAATGGCT	103	697
886636	N/A	N/A	27822	27837	GCCTACTACCTTCCCT	68	698
886656	N/A	N/A	28863	28878	TGCTCTACAGATAGCC	49	699
886676	N/A	N/A	29287	29302	ATGCTAGGCAGAATCC	54	700
886696	N/A	N/A	29672	29687	ACCAACATCTAACCTT	52	701
886716	N/A	N/A	30330	30345	ATTCAGTGTAACACTC	30	702
886736	N/A	N/A	31070	31085	GGACAGGACACTCTCA	38	703
886756	N/A	N/A	31450	31465	TCACATCCCATGAGTG	51	704
886776	N/A	N/A	31878	31893	AGCTCAGGTTGAAAGC	94	705
886796	N/A	N/A	33197	33212	TATTAATCCCCCCCCA	88	706
886816	N/A	N/A	33632	33647	GGTAACCTCGCAAAAG	64	707
886836	N/A	N/A	34156	34171	GTCCAAACTGGAGAAC	64	708
886856	N/A	N/A	34659	34674	GGTCATCTTTAAGCAG	65	709
886876	N/A	N/A	35175	35190	TCCTTGAACAAGAGGG	88	710
886896	N/A	N/A	35592	35607	GGCCATGTCAGGAGCG	106	711
886916	N/A	N/A	36171	36186	GGATATGCAGGTGGGT	108	712
886936	N/A	N/A	36529	36544	CTATATGCCACTCTAC	99	713
886957	N/A	N/A	21861	21876	ATCAATTCATATCTCC	52	714

TABLE 19
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
885430	213	228	7248	7263	AGTTCTGCTCAGCGGA	37*	715
885450	248	263	7283	7298	TGATACTCAGCAACAG	23*	716
885470	341	356	8832	8847	GCCAGAGATCAGTTGC	37	717
885490	505	520	28478	28493	GCCCCCCTTGGTGAGG	94	718
885508	582	597	36945	36960	CTCACCGTGTAGATGG	52	719
885528	613	628	36976	36991	GTAATCCGAGTTGAGA	53	720
885548	696	711	37059	37074	TTCCGCAAGATCACAT	52	721
885568	884	899	37247	37262	AAACCGGAGATATTAT	54	722
885588	980	995	37343	37358	CTACTTCTTTAAGGCT	40	723
885608	1080	1095	37443	37458	GATGGAGTTATCTTAT	39	724
885628	1181	1196	37544	37559	AAGGGCTTTTGGACAT	26	725
885648	1232	1247	37595	37610	AGGTTCGGGCAGCGGC	33	726
885668	1302	1317	37665	37680	CCACAAGCCGTGTTTT	43	727
885688	1340	1355	37703	37718	ACGAAGATACTCCACC	43	728
885707	1429	1444	37792	37807	TGTTTAGATGATTAGT	29	729
885725	1539	1554	37902	37917	GCAGCCTAGCTAGGTA	51	730
885745	1619	1634	37982	37997	ACGCTTGTTCTGATGC	57	731
885764	1698	1713	38061	38076	ATTGCCAGACAGTCCT	32	732
885783	N/A	N/A	5454	5469	GCGCGCGCGAAGCAAG	79	733
885803	N/A	N/A	5538	5553	CCCGATCCTCAGGGTG	60	734
885843	N/A	N/A	7189	7204	CTGGGCCGAGCGACGG	69	735
885863	N/A	N/A	7237	7252	GCGGAGTTTCTGCCTG	43*	736
885903	N/A	N/A	32743	32758	GTTCTTAATCCCGGTA	32	737
885923	N/A	N/A	2885	2900	TGTAAAGCATAGGCAC	39	738
885943	N/A	N/A	3786	3801	TGTAACTCTGATAGGT	21	739
885963	N/A	N/A	4700	4715	TCGGGCTTGGCTGTCA	34	740
885982	N/A	N/A	5224	5239	GAAACCAGAGGCGGCT	34	741
886000	N/A	N/A	5911	5926	CCACAGGAGTCCAACA	54	742
886020	N/A	N/A	6522	6537	CCGGACCCTGCGCTTC	89	743
886040	N/A	N/A	7091	7106	TCAGGAGCCTTCGCGC	72	744
886060	N/A	N/A	7811	7826	TGCCATAAAGCCGACA	19	745
886080	N/A	N/A	8699	8714	CCGCATCCACCTAGCC	69	746
886100	N/A	N/A	9219	9234	GCCAAAGGCTTAGCTA	69	747
886120	N/A	N/A	9738	9753	ATCCAGGTCCACGGGC	46	748
886140	N/A	N/A	10366	10381	GACAAGCAGTGCTACG	34	749
886160	N/A	N/A	10767	10782	TGCTTCTAGCACCAAC	30	750
886180	N/A	N/A	11265	11280	AGTTAAATGGTTCGCA	16	751
886200	N/A	N/A	11969	11984	CGAATATCCCCACACT	35	752
886220	N/A	N/A	12585	12600	CCCTACTGCTTGAATC	46	753
886240	N/A	N/A	13558	13573	GAAAGAAGGAAACGCG	67	754
886260	N/A	N/A	14035	14050	TGCAATAGTCTCTGGT	55	755
886280	N/A	N/A	14483	14498	CTCCAACTTGGAATCA	52	756
886300	N/A	N/A	15378	15393	AGCTCAACAATTCCCT	15	757
886319	N/A	N/A	16039	16054	GAGAAACCCTAAGGGT	72	758
886339	N/A	N/A	16712	16727	GATCACCCTATTTGTT	66	759
886359	N/A	N/A	17446	17461	TTCTACACCTTCCCGC	34	760
886379	N/A	N/A	18468	18483	GACTTAGAATCCACAA	26	761
886399	N/A	N/A	18925	18940	GAACACGCATTATGGA	46	762
886419	N/A	N/A	19413	19428	GGTTACTGGATAATAG	40	763
886438	N/A	N/A	19782	19797	GATTCATGCGGAAAGC	26	764
886458	N/A	N/A	20383	20398	GCTATATTCTTAGCCC	44	765
886478	N/A	N/A	21351	21366	AGTAGAACTTATGTTG	32	766
886497	N/A	N/A	21910	21925	TATTAGCACATTGGCC	63	767
886517	N/A	N/A	22903	22918	AAGGACAGCGAGAGGA	71	768
886537	N/A	N/A	23552	23567	TGTAACACCTCTAGCG	32	769
886557	N/A	N/A	24686	24701	ATACTAAGTTCCTGGA	47	770
886577	N/A	N/A	25711	25726	AGAGAGACATTGTAGC	39	771
886597	N/A	N/A	26860	26875	TTCTAGTCTAGCACTC	43	772
886617	N/A	N/A	27216	27231	CTGCAGCATTTAATCC	59	773
886637	N/A	N/A	27845	27860	GTGTTAAAGAGGGCCT	45	774
886657	N/A	N/A	28879	28894	TCTCAAGCCTGACCTT	65	775
886677	N/A	N/A	29288	29303	GATGCTAGGCAGAATC	64	776
886697	N/A	N/A	29683	29698	TAGACAAGGTCACCAA	38	777
886717	N/A	N/A	30348	30363	TAAGAAGTACCTCACT	70	778
886737	N/A	N/A	31075	31090	ACGGAGGACAGGACAC	48	779
886757	N/A	N/A	31457	31472	GTAGATTTCACATCCC	13	780
886777	N/A	N/A	31907	31922	TTAAAGGACCTCAGGT	70	781
886797	N/A	N/A	33223	33238	CTCTGAACAGGATGGC	24	782
886817	N/A	N/A	33641	33656	GTGTACTTTGGTAACC	53	783
886837	N/A	N/A	34175	34190	GAGCATAGACGGGCGC	47	784
886857	N/A	N/A	34666	34681	GAGCATAGGTCATCTT	48	785
886877	N/A	N/A	35191	35206	GAGATACCAGATTCCA	31	786
886897	N/A	N/A	35622	35637	CCTACAGGAAGTTCAG	44	787
886917	N/A	N/A	36178	36193	GGGCACTGGATATGCA	80	788
886937	N/A	N/A	36551	36566	GGGTATGGAAACCCCT	76	789

TABLE 20
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	3	31
885431	214	229	7249	7264	AAGTTCTGCTCAGCGG	67*	790
885451	251	266	7286	7301	CGATGATACTCAGCAA	51*	791
885471	342	357	8833	8848	TGCCAGAGATCAGTTG	46	792
885491	506	521	28479	28494	TGCCCCCCTTGGTGAG	77	793
885509	585	600	36948	36963	TGCCTCACCGTGTAGA	45	794
885529	615	630	36978	36993	GAGTAATCCGAGTTGA	58	795
885549	699	714	37062	37077	CGTTTCCGCAAGATCA	34	796
885569	885	900	37248	37263	TAAACCGGAGATATTA	45	797
885589	981	996	37344	37359	GCTACTTCTTTAAGGC	61	798
885609	1081	1096	37444	37459	AGATGGAGTTATCTTA	37	799
885629	1196	1211	37559	37574	GGTCACCCACCAGAAA	82	800
885649	1233	1248	37596	37611	GAGGTTCGGGCAGCGG	41	801
885669	1304	1319	37667	37682	TGCCACAAGCCGTGTT	52	802
885689	1342	1357	37705	37720	TGACGAAGATACTCCA	51	803
885708	1430	1445	37793	37808	TTGTTTAGATGATTAG	60	804
885726	1540	1555	37903	37918	AGCAGCCTAGCTAGGT	57	805
885746	1632	1647	37995	38010	CCAAGGAGTCTAGACG	116	806
885765	1700	1715	38063	38078	TCATTGCCAGACAGTC	27	807
885784	N/A	N/A	5455	5470	CGCGCGCGCGAAGCAA	83	808
885804	N/A	N/A	5540	5555	GTCCCGATCCTCAGGG	73	809
885844	N/A	N/A	7190	7205	ACTGGGCCGAGCGACG	80	810
885864	N/A	N/A	7238	7253	AGCGGAGTTTCTGCCT	59*	811
885904	N/A	N/A	32744	32759	TGTTCTTAATCCCGGT	31	812
885924	N/A	N/A	2925	2940	TCATTTGCGGCTTGCA	50	813
885944	N/A	N/A	3802	3817	CTGCACTAAAGTAGCT	44	814
885964	N/A	N/A	4706	4721	CAGCAGTCGGGCTTGG	53	815
886001	N/A	N/A	5942	5957	AGCCGATGGCAGGAGG	18	816
886021	N/A	N/A	6535	6550	TCGAGAGGGTTGCCCG	97	817
886041	N/A	N/A	7106	7121	GACCGCCCGCGCGGGT	104	818
886061	N/A	N/A	7843	7858	GTGGAAGCTTTACTAA	65	819
886081	N/A	N/A	8711	8726	GGCGAAAAGCACCCGC	62	820
886101	N/A	N/A	9241	9256	ATCCAATGTCCCAAGG	27	821
886121	N/A	N/A	9748	9763	GATCATGTGGATCCAG	72	822
886141	N/A	N/A	10393	10408	GGAGAAACCGGATGCT	51	823
886161	N/A	N/A	10788	10803	CCCTAGTGCCTCTTTG	50	824
886181	N/A	N/A	11628	11643	AGTCACATGGCGCAGT	56	825
886201	N/A	N/A	11992	12007	AGGCACTGGATACAAT	69	826
886221	N/A	N/A	12664	12679	TGTAAATAGGTGTAGG	16	827
886241	N/A	N/A	13577	13592	CGTGACAATGCTGAGA	30	828
886261	N/A	N/A	14070	14085	CATAAGCTCTTGTTCA	58	829
886281	N/A	N/A	14488	14503	TGTCACTCCAACTTGG	62	830
886301	N/A	N/A	15386	15401	TACAGGAAAGCTCAAC	47	831
886320	N/A	N/A	16053	16068	GGGTATTGGCATCAGA	24	832
886340	N/A	N/A	16719	16734	TCCATTGGATCACCCT	31	833
886360	N/A	N/A	17565	17580	CGGTATAGAGGAATGA	46	834
886380	N/A	N/A	18517	18532	TGATATGCTTGCAATC	31	835
886400	N/A	N/A	18966	18981	AATAGAGTTCTCCTCC	59	836
886420	N/A	N/A	19435	19450	ACGCAGCCACTGAGGT	35	837
886439	N/A	N/A	19788	19803	GCCTATGATTCATGCG	40	838
886459	N/A	N/A	20388	20403	CCTCAGCTATATTCTT	57	839
886479	N/A	N/A	21400	21415	GGCGATACTCTTCCCC	56	840
886498	N/A	N/A	21918	21933	AGCCAGGTTATTAGCA	64	841
886518	N/A	N/A	22925	22940	TGCCATTGATCAAAAG	64	842
886538	N/A	N/A	23692	23707	AGCTACCTGCAGACAC	43	843
886558	N/A	N/A	24747	24762	GGGATACATCAACAAG	61	844
886578	N/A	N/A	26021	26036	AGGCACTCATAAGATA	67	845
886598	N/A	N/A	26869	26884	GGCCTTTGATTCTAGT	83	846
886618	N/A	N/A	27329	27344	TGTAGAGGGAAGCCCA	83	847
886638	N/A	N/A	27930	27945	CATCACTAGGAGTTAA	61	848
886658	N/A	N/A	28910	28925	CTGGAGGCATAATGTA	50	849
886678	N/A	N/A	29296	29311	GCATGTAAGATGCTAG	55	850
886698	N/A	N/A	29822	29837	AGACATGTGTAAGTAG	28	851
886718	N/A	N/A	30528	30543	GTCTTATAGTACAGGC	50	852
886738	N/A	N/A	31092	31107	CTTGACTGGGATTAAC	60	853
886758	N/A	N/A	31475	31490	TGCCGGGCATGCACGC	38	854
886778	N/A	N/A	32258	32273	GACCTGAATACTGTCT	67	855
886798	N/A	N/A	33247	33262	TTGACTTAAGCCACCT	31	856
886818	N/A	N/A	33673	33688	GCAGAGTGATCCAACA	51	857
886838	N/A	N/A	34181	34196	CCCCAAGAGCATAGAC	95	858
886858	N/A	N/A	34702	34717	AATGACCGGGACTCCC	49	859
886878	N/A	N/A	35198	35213	CTAAGAGGAGATACCA	84	860
886898	N/A	N/A	35648	35663	AATGGGACAGCATCCA	62	861
886918	N/A	N/A	36184	36199	GCTAAAGGGCACTGGA	73	862
886938	N/A	N/A	36597	36612	ATTCAGGCTGCAAGAA	60	863
886952	N/A	N/A	5234	5249	ACTTTTACTCGAAACC	58	864

TABLE 21
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
885432	215	230	7250	7265	CAAGTTCTGCTCAGCG	42*	865
885452	252	267	7287	7302	ACGATGATACTCAGCA	30*	866
885472	343	358	8834	8849	CTGCCAGAGATCAGTT	42	867
885492	507	522	28480	28495	CTGCCCCCCTTGGTGA	82	868
885510	586	601	36949	36964	GTGCCTCACCGTGTAG	61	869
885530	616	631	36979	36994	GGAGTAATCCGAGTTG	48	870
885550	724	739	37087	37102	ACAGACCGTCTGGGCG	90	871
885570	887	902	37250	37265	TATAAACCGGAGATAT	74	872
885590	988	1003	37351	37366	TTCCTTAGCTACTTCT	45	873
885610	1083	1098	37446	37461	CGAGATGGAGTTATCT	24	874
885630	1197	1212	37560	37575	GGGTCACCCACCAGAA	105	875
885650	1234	1249	37597	37612	AGAGGTTCGGGCAGCG	28	876
885670	1305	1320	37668	37683	ATGCCACAAGCCGTGT	50	877
885690	1344	1359	37707	37722	TGTGACGAAGATACTC	47	878
885709	1431	1446	37794	37809	GTTGTTTAGATGATTA	23	879
885727	1543	1558	37906	37921	AATAGCAGCCTAGCTA	69	880
885747	1637	1652	38000	38015	CGGTCCCAAGGAGTCT	148	881
885766	1701	1716	38064	38079	GTCATTGCCAGACAGT	35	882
885785	N/A	N/A	5456	5471	GCGCGCGCGCGAAGCA	119	883
885805	N/A	N/A	5541	5556	TGTCCCGATCCTCAGG	46	884
885845	N/A	N/A	7192	7207	GCACTGGGCCGAGCGA	132	885
885905	N/A	N/A	32745	32760	CTGTTCTTAATCCCGG	28	886
885925	N/A	N/A	2955	2970	ACAAATGCACCATCTC	43	887
885945	N/A	N/A	3875	3890	CCCAAATTGCCACCAC	49	888
885965	N/A	N/A	4720	4735	GCAAAGTGTTCCTGCA	72	889
886002	N/A	N/A	5949	5964	TGAATTAAGCCGATGG	28	890
886022	N/A	N/A	6545	6560	AAAGAATGGCTCGAGA	97	891
886042	N/A	N/A	7114	7129	CGCAGCCCGACCGCCC	67	892
886062	N/A	N/A	7848	7863	TACCAGTGGAAGCTTT	60	893
886082	N/A	N/A	8721	8736	GCCCAGGGATGGCGAA	75	894
886102	N/A	N/A	9323	9338	AGCTAGCCCCACTGTC	106	895
886122	N/A	N/A	9768	9783	ACACATCTTCTGGAAC	32	896
886142	N/A	N/A	10420	10435	CGGGAACTTCAGCCAG	52	897
886162	N/A	N/A	10794	10809	AAATAACCCTAGTGCC	73	898
886182	N/A	N/A	11677	11692	TGTCATGGTCATGCAC	48	899
886202	N/A	N/A	11999	12014	GCCGGAGAGGCACTGG	53	900
886222	N/A	N/A	12694	12709	GGCCGAATGACTATAT	101	901

Example 4: Effect of Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides complementary to a human PMP22 nucleic acid were tested for their effect on PMP22 RNA levels in vitro.

The modified oligonucleotides in the tables below are 3-10-3 cEt gapmers, as described in Example 1 above. The internucleoside linkages throughout each modified oligonucleotide are phosphorothioate (P═S) linkages. All cytosine residues throughout each modified oligonucleotide are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is complementary in the human gene sequence. Each modified oligonucleotide listed in the Tables below is 100% complementary to SEQ ID NO: 1, SEQ ID NO: 2 and/or SEQ ID NO: 3 (GENBANK Accession No. NM_153321.2). ‘N/A’ indicates that the modified oligonucleotide does not target that particular gene sequence with 100% complementarity.

Cultured A-549 cells at a density of 15,000 cells per well were treated using electroporation with 4,000 nM of modified oligonucleotide. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS35670 described herein above was used to measure RNA levels. In some cases, an additional human PMP22 primer probe set RTS35667, described herein above, was also used to measure PMP22 RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The modified oligonucleotides with percent control values marked with an asterisk (*) are complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region.

TABLE 22
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
Compound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684109	16	31	2659	2674	GAAGCCAGACCAGGCG	127	939
684113	26	41	2669	2684	CCCTGTAACTGAAGCC	52	940
684119	52	67	2695	2710	TCCCCGAGATGTTCCC	18	941
684121	60	75	2703	2718	AACCAGGCTCCCCGAG	56	942
684123	64	79	2707	2722	TTCCAACCAGGCTCCC	40	943
684135	128	143	2771	2786	GTTAAGGCAAGACCCT	65	944
684136	132	147	2775	2790	GGATGTTAAGGCAAGA	51	945
684143	162	177	2805	2820	CAAGCAGATTTCTTTG	100*	946
684146	174	189	2817	2832	AACCCCTTCTTCCAAG	45*	947
684148	196	211	N/A	N/A	TTTCTGCCCGGCCAAA	30*	948
684277	905	920	37268	37283	AGTGTTATAAATAGGT	23	40
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	5	31
866359	22	37	2665	2680	GTAACTGAAGCCAGAC	140	949
866362	30	45	2673	2688	TGCTCCCTGTAACTGA	47	950
866365	34	49	2677	2692	GTGGTGCTCCCTGTAA	41	951
866368	39	54	2682	2697	CCCTGGTGGTGCTCCC	15	952
866372	44	59	2687	2702	ATGTTCCCTGGTGGTG	67	953
866375	48	63	2691	2706	CGAGATGTTCCCTGGT	40	954
866382	56	71	2699	2714	AGGCTCCCCGAGATGT	41	955
866389	69	84	2712	2727	GCAGCTTCCAACCAGG	51	956
866392	76	91	2719	2734	TAAGCCTGCAGCTTCC	88	957
866395	80	95	2723	2738	AGACTAAGCCTGCAGC	57	958
866398	84	99	2727	2742	CGACAGACTAAGCCTG	70	959
866401	88	103	2731	2746	CAGCCGACAGACTAAG	85	960
866405	92	107	2735	2750	CCCGCAGCCGACAGAC	28	961
866408	96	111	2739	2754	GAGACCCGCAGCCGAC	25	962
866410	100	115	2743	2758	GTCAGAGACCCGCAGC	32	963
866412	104	119	2747	2762	GGCAGTCAGAGACCCG	34	964
866420	136	151	2779	2794	CAAGGGATGTTAAGGC	34	965
866423	140	155	2783	2798	AATGCAAGGGATGTTA	50	966
866426	145	160	2788	2803	AGCCAAATGCAAGGGA	44	967
866432	192	207	N/A	N/A	TGCCCGGCCAAACAGC	19*	968
866439	200	215	N/A	N/A	GGAGTTTCTGCCCGGC	17*	969
866442	204	219	7239	7254	CAGCGGAGTTTCTGCC	81*	970
866445	N/A	N/A	2844	2859	AATAAAACTCACCCGG	105*	971
866449	N/A	N/A	2864	2879	ACCCAGAGGCACAGTT	80	972
866453	N/A	N/A	2884	2899	GTAAAGCATAGGCACA	31	973
866457	N/A	N/A	2899	2914	AATTAGGCAATTCTTG	72	974
866461	N/A	N/A	2972	2987	CTCCAGTCAATTCCAA	49	975
866465	N/A	N/A	3005	3020	CTTTTAACCAAGGATA	72	976
866469	N/A	N/A	3110	3125	GGGAAAAAGCATCTAG	116	977
866473	N/A	N/A	3168	3183	CCCTAACCTGCTTACC	67	978
866477	N/A	N/A	3316	3331	GTAAACCCAACCCATC	55	979
866481	N/A	N/A	3332	3347	ATATACTGCCAGACAG	72	980
866485	N/A	N/A	3364	3379	TAATCAATAACCACCC	62	981
866489	N/A	N/A	3413	3428	ATATTGGGTGCTACAG	42	982
866493	N/A	N/A	3447	3462	TAATAAAGTCTAATAC	86	983
866497	N/A	N/A	3504	3519	AGCATATCTAACTCAG	19	984
866501	N/A	N/A	3529	3544	TCTAAGTAAGCACTTT	39	985
866505	N/A	N/A	3549	3564	CACAACATACTCAGGA	39	986
866509	N/A	N/A	3563	3578	AACACTTATGTGATCA	20	987
866513	N/A	N/A	3644	3659	CCACAGGTCATTTTAT	70	988
866517	N/A	N/A	3672	3687	CTAAAGACATGGCAGT	52	989
866521	N/A	N/A	3801	3816	TGCACTAAAGTAGCTT	84	990
866525	N/A	N/A	3874	3889	CCAAATTGCCACCACT	87	991
866529	N/A	N/A	3895	3910	AACATAATAAGGGCCC	101	992
866533	N/A	N/A	3992	4007	TTCTCAGGTGCAAAAG	24	993
866537	N/A	N/A	4058	4073	ACCTAATCACCCTGCT	33	994
866541	N/A	N/A	4126	4141	TTATATGCATGGTCTG	21	995
866545	N/A	N/A	4266	4281	ACGGTAAGTAAAAATA	104	996
866549	N/A	N/A	4287	4302	TTTAGCTAATTGTATA	77	997
866553	N/A	N/A	4315	4330	TATTTTACGATTTGAA	76	998
866557	N/A	N/A	4359	4374	GTCATAGAAGCTCATC	19	999
866561	N/A	N/A	4489	4504	GGCCAGCCTTGAGGCA	148	1000
866565	N/A	N/A	4562	4577	TTACAGGGAGAGAGGC	62	1001
866569	N/A	N/A	4709	4724	CTGCAGCAGTCGGGCT	79	1002
866573	N/A	N/A	4737	4752	CACCGAATAAGCTCTA	55	1003
866577	N/A	N/A	4754	4769	AGGCAAAACCAGACTA	85	1004
866581	N/A	N/A	4815	4830	GGGAAGAAAAGTCCGG	93	1005
866585	N/A	N/A	4875	4890	TGCCAGCTTCCTAGGA	103	1006
866589	N/A	N/A	4902	4917	GCTATTACTGTCTGCA	53	1007
866593	N/A	N/A	5018	5033	CTAATAGAGGGCAGCG	56	1008
866597	N/A	N/A	5112	5127	GCCAAATGTAGCTCAG	55	1009
866601	N/A	N/A	5222	5237	AACCAGAGGCGGCTGA	76	1010
866605	N/A	N/A	5238	5253	GGCGACTTTTACTCGA	40	1011
866609	N/A	N/A	5250	5265	CTGCAAAACCGCGGCG	78	1012
866613	N/A	N/A	5267	5282	CAAGAAAAAGTCGGTC	80	1013
866617	N/A	N/A	5281	5296	CCTTAAATGCGCCTCA	76	1014
866621	N/A	N/A	5301	5316	GGCAGGAGACAGTCAC	30	1015

TABLE 23
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO:	NO:	NO:	NO:
	1	1	2	2		PMP22	PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35670	RTS35667	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	12	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	8	16	31
885433	217	232	7252	7267	GGCAAGTTCTGCTCAG	22*	10	1016
885453	254	269	7289	7304	GGACGATGATACTCAG	8*	47	1017
885473	352	367	8843	8858	GCTACAGTTCTGCCAG	30	42	1018
885493	508	523	28481	28496	CCTGCCCCCCTTGGTG	83	54	1019
885511	588	603	36951	36966	GGGTGCCTCACCGTGT	36	66	1020
885531	617	632	36980	36995	AGGAGTAATCCGAGTT	75	59	1021
885551	725	740	37088	37103	GACAGACCGTCTGGGC	85	76	1022
885571	888	903	37251	37266	TTATAAACCGGAGATA	68	83	1023
885591	989	1004	37352	37367	GTTCCTTAGCTACTTC	31	42	1024
885611	1084	1099	37447	37462	GCGAGATGGAGTTATC	37	62	1025
885631	1198	1213	37561	37576	TGGGTCACCCACCAGA	72	84	1026
885651	1237	1252	37600	37615	CACAGAGGTTCGGGCA	33	44	1027
885671	1307	1322	37670	37685	CAATGCCACAAGCCGT	35	57	1028
885691	1345	1360	37708	37723	GTGTGACGAAGATACT	37	43	1029
885710	1433	1448	37796	37811	GAGTTGTTTAGATGAT	18	19	1030
885728	1545	1560	37908	37923	ATAATAGCAGCCTAGC	55	54	1031
885748	1638	1653	38001	38016	ACGGTCCCAAGGAGTC	151	94	1032
885767	1703	1718	38066	38081	AAGTCATTGCCAGACA	62	50	1033
885786	N/A	N/A	5458	5473	CTGCGCGCGCGCGAAG	120	93	1034
885806	N/A	N/A	5542	5557	CTGTCCCGATCCTCAG	86	14*	1035
885846	N/A	N/A	7193	7208	CGCACTGGGCCGAGCG	94	91	1036
885906	N/A	N/A	32746	32761	TCTGTTCTTAATCCCG	17	25	1037
885926	N/A	N/A	3019	3034	GAGTATATATCCACCT	35	69	1038
885946	N/A	N/A	3890	3905	AATAAGGGCCCAGTGC	86	105	1039
885966	N/A	N/A	4735	4750	CCGAATAAGCTCTAGG	51	83	1040
885983	N/A	N/A	5264	5279	GAAAAAGTCGGTCCCT	94	104	1041
886003	N/A	N/A	6060	6075	AAGTACCCAATCCCAG	48	73	1042
886023	N/A	N/A	6570	6585	GCAGAGCCAGAGTAGT	128	88	1043
886043	N/A	N/A	7141	7156	GCGGAAGGCCCGGCCT	62	100	1044
886063	N/A	N/A	7870	7885	AGTTACTCTGATGGCC	59	50	1045
886083	N/A	N/A	8779	8794	GATAGATATCCTGAGT	124	108	1046
886103	N/A	N/A	9338	9353	ACTGACGGTGCAGTGA	59	75	1047
886123	N/A	N/A	9812	9827	GTTAGGAAAGCTCTGC	19	20	1048
886143	N/A	N/A	10425	10440	TGCTCCGGGAACTTCA	71	74	1049
886163	N/A	N/A	10877	10892	ACTAAGGAGGCATTGT	61	80	1050
886183	N/A	N/A	11702	11717	TGGCAACCCCCAGAGA	92	88	1051
886203	N/A	N/A	12022	12037	TTCCAGATCCTTGTAT	74	91	1052
886223	N/A	N/A	12700	12715	CCCCAAGGCCGAATGA	65	81	1053
886243	N/A	N/A	13610	13625	AGGCATTGGAACAATG	68	55	1054
886263	N/A	N/A	14125	14140	TTCTTACCATTGCCCC	38	50	1055
886283	N/A	N/A	14509	14524	GCCTTATAGAGGCTTC	76	91	1056
886303	N/A	N/A	15430	15445	TGCCCTTAGACAATGG	93	67	1057
886322	N/A	N/A	16117	16132	GACTATAGATTCCAGG	27	30	1058
886342	N/A	N/A	16792	16807	TCTAAATCTCAGACCA	32	39	1059
886362	N/A	N/A	17583	17598	ACAACATTGAATACCC	45	37	1060
886382	N/A	N/A	18606	18621	GGCAGACCCGGTGCAG	53	69	1061
886402	N/A	N/A	19000	19015	CTTCAGGTTTAGGAGG	78	73	1062
886422	N/A	N/A	19498	19513	CTGCACTTTGACATCC	25	30	1063
886441	N/A	N/A	19909	19924	CCCATATGCTTCGCCC	46	44	1064
886461	N/A	N/A	20441	20456	GGTCAGATTCCTGCTG	53	55	1065
886481	N/A	N/A	21420	21435	ATTAACACAAGCCCCA	84	77	1066
886500	N/A	N/A	22294	22309	GGTCACACCAAGCAGT	46	66	1067
886520	N/A	N/A	22999	23014	GGCTAGTGGAATTCTG	79	70	1068
886540	N/A	N/A	23722	23737	TGGATAATATCAGCAG	23	31	1069
886560	N/A	N/A	24934	24949	GTATACACTTCTAAGC	72	64	1070
886580	N/A	N/A	26103	26118	TTCAACCATAAGCACA	41	53	1071
886600	N/A	N/A	26882	26897	GCCAAATCTAAGAGGC	109	82	1072
886620	N/A	N/A	27487	27502	GGCTTACACTTCCTTA	72	59	1073
886640	N/A	N/A	28305	28320	GGCCTGAAGGGCCATG	111	90	1074
886660	N/A	N/A	28933	28948	TCTTAGCACATCAGGG	61	59	1075
886680	N/A	N/A	29343	29358	GATGCTAGGCAGAATG	42	53	1076
886700	N/A	N/A	29859	29874	AGCCAGCAACCATCCA	124	112	1077
886720	N/A	N/A	30611	30626	GAAGATGAAGGTACTG	31	37	1078
886740	N/A	N/A	31110	31125	GACCAACTCTCAGATG	63	69	1079
886760	N/A	N/A	31493	31508	GTGCATTGGAGAGGCA	57	82	1080
886780	N/A	N/A	32311	32326	ACCTAGGCAGTGGATC	74	73	1081
886800	N/A	N/A	33289	33304	CCATAATCATCCGTCC	39	42	1082
886820	N/A	N/A	33718	33733	GGGAATAGAGCTTCAA	191	91	1083
886840	N/A	N/A	34220	34235	CGATGGAATTTCGAGA	57	49	1084
886860	N/A	N/A	34753	34768	GGCAAGGGTAAGTGAG	39	49	1085
886880	N/A	N/A	35220	35235	AGCTACTCCCCGATTT	108	90	1086
886900	N/A	N/A	35666	35681	CAATAGTCTTGGAACC	50	54	1087
886920	N/A	N/A	36238	36253	AGGCAAGCTCCATTTC	59	89	1088
886940	N/A	N/A	36621	36636	GGCCACACTACATGGC	115	128	1089

TABLE 24
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35760	NO
684223	563	578	36926	36941	CAGCACTCATCACGCA	42	1090
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	21	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
885436	220	235	7255	7270	GGCGGCAAGTTCTGCT	89*	1091
885456	258	273	7293	7308	TGGAGGACGATGATAC	10*	1092
885476	356	371	8847	8862	AGGTGCTACAGTTCTG	28	1093
885514	592	607	36955	36970	CTCCGGGTGCCTCACC	55	1094
885534	621	636	36984	36999	CCGTAGGAGTAATCCG	78	1095
885554	731	746	37094	37109	GCCTCAGACAGACCGT	111	1096
885574	892	907	37255	37270	GGTTTTATAAACCGGA	33	1097
885594	993	1008	37356	37371	TAAAGTTCCTTAGCTA	58	1098
885614	1115	1130	37478	37493	GAGGTATCTTCTTTCA	55	1099
885634	1207	1222	37570	37585	TGGATGCACTGGGTCA	46	1100
885654	1249	1264	37612	37627	CGTAAAGCTTCACACA	104	1101
885674	1316	1331	37679	37694	CAAGTATGCCAATGCC	36	1102
885694	1348	1363	37711	37726	GATGTGTGACGAAGAT	37	1103
885713	1438	1453	37801	37816	CCAGTGAGTTGTTTAG	44	1104
885731	1583	1598	37946	37961	GGGAGTGATGAAGGCT	60	1105
885751	1641	1656	38004	38019	CTCACGGTCCCAAGGA	80	1106
885770	1707	1722	38070	38085	ATACAAGTCATTGCCA	70	1107
885789	N/A	N/A	5477	5492	CCAAAGCTGCGCTGCG	170	1108
885809	N/A	N/A	5546	5561	ACAGCTGTCCCGATCC	41	1109
885829	N/A	N/A	7172	7187	GGCGCGCGCAGAGGGA	64	1110
885849	N/A	N/A	7198	7213	CCGAACGCACTGGGCC	165	1111
885909	N/A	N/A	32838	32853	GCTATATTGATCTTTC	38	1112
885929	N/A	N/A	3074	3089	CTGGATGCATTAGGGT	24	1113
885949	N/A	N/A	4089	4104	GGTTAGGCACTCTGGC	39	1114
885969	N/A	N/A	4758	4773	GCCTAGGCAAAACCAG	93	1115
885986	N/A	N/A	5408	5423	TTAACGGGAACAACGC	111	1116
886006	N/A	N/A	6165	6180	TGTTAGAGGACATGCA	76	1117
886026	N/A	N/A	6611	6626	GCTCAGCCTCGCGCAG	75	1118
886046	N/A	N/A	7350	7365	CGCCAGGCACTCACGC	86	1119
886066	N/A	N/A	7993	8008	CTTACAATGTGCCTTA	59	1120
886086	N/A	N/A	8898	8913	CCTCACCGTTTGGTGA	93	1121
886106	N/A	N/A	9435	9450	CCCCATCTTGCAACAA	46	1122
886126	N/A	N/A	9870	9885	TATGAGTAGCTCCAGC	43	1123
886146	N/A	N/A	10456	10471	CAGTAGCGAGTACGGA	19	1124
886166	N/A	N/A	10908	10923	CGGAAAGCAACGAGGC	37	1125
886186	N/A	N/A	11745	11760	GCACGATGCCAGGAGG	45	1126
886206	N/A	N/A	12058	12073	GACCAGGCTCGGGACC	44	1127
886226	N/A	N/A	12772	12787	GAAAGTATTCCACACC	32	1128
886246	N/A	N/A	13645	13660	CAAACGAGGAAGCAGC	48	1129
886266	N/A	N/A	14212	14227	TCATATGGCTGGCTCC	31	1130
886286	N/A	N/A	14591	14606	AGTGATAAGAATCCCG	48	1131
886325	N/A	N/A	16228	16243	ATCCACAACCTCAGGC	46	1132
886345	N/A	N/A	16975	16990	CAATGATGTCCCAACT	118	1133
886365	N/A	N/A	17664	17679	GCCCAAGACTTAGCTC	68	1134
886385	N/A	N/A	18679	18694	CAGGTCCTACCTCAAT	67	1135
886405	N/A	N/A	19065	19080	GCAATTGCAGTCATGA	132	1136
886425	N/A	N/A	19553	19568	TTCCTAATTAAGAGGC	57	1137
886444	N/A	N/A	19976	19991	GTATGAATGTCATTCC	20	1138
886464	N/A	N/A	20489	20504	GCAGATAGTGGGAAGC	63	1139
886484	N/A	N/A	21466	21481	GATCAAACCTAGTGTG	127	1140
886503	N/A	N/A	22405	22420	GTTAAAGGATAGTGCA	46	1141
886523	N/A	N/A	23052	23067	ACAGATGCAGCACTCT	9	1142
886543	N/A	N/A	23827	23842	CGTAAAAGGTGCCCAA	61	1143
886563	N/A	N/A	25143	25158	GGCTCAACATATACCT	77	1144
886583	N/A	N/A	26171	26186	TGAATACCTACTGCTT	60	1145
886603	N/A	N/A	26908	26923	GTGTTTTCATGAGCCC	18	1146
886623	N/A	N/A	27510	27525	CGCCAACCACCAGACG	66	1147
886643	N/A	N/A	28532	28547	TACCATCCACAACTTA	126	1148
886663	N/A	N/A	28958	28973	CATACCTGATAACTAC	77	1149
886683	N/A	N/A	29381	29396	CAGTAAGTCAACAGAC	69	1150
886703	N/A	N/A	29971	29986	CCCCAGAATATGTTAC	68	1151
886723	N/A	N/A	30679	30694	GATGTAATGATGTTGC	18	1152
886743	N/A	N/A	31154	31169	AGCCATTTCCAGTGCA	60	1153
886763	N/A	N/A	31548	31563	AGCCACTTCCGGAGAC	50	1154
886783	N/A	N/A	32372	32387	GGATTAGGGACAGTTT	41	1155
886803	N/A	N/A	33336	33351	AGCCACCCATAGCATT	72	1156
886823	N/A	N/A	33822	33837	CAGTAGAAGGCTGGCT	70	1157
886843	N/A	N/A	34301	34316	CCAAGATAAGTGAGAC	47	1158
886863	N/A	N/A	34831	34846	GCCAAATACCCCTAGT	49	1159
886883	N/A	N/A	35280	35295	TCCCAAATGGGCTGTC	83	1160
886903	N/A	N/A	35700	35715	TGCCACTTGACTGGCC	106	1161
886923	N/A	N/A	36285	36300	CGACAGTATGACTGGG	79	1162
886943	N/A	N/A	36702	36717	GGCCACCTAGGCCTTA	125	1163
886955	N/A	N/A	15620	15635	CACAACCTATTGATAG	82	1164

TABLE 25
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35670	NO
684383	1439	1454	37802	37817	TCCAGTGAGTTGTTTA	37	1165
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	24	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	23	31
885437	222	237	7257	7272	CTGGCGGCAAGTTCTG	29*	1166
885457	275	290	7310	7325	GCACCAGCACCGCGAC	30*	1167
885477	357	372	8848	8863	GAGGTGCTACAGTTCT	30	1168
885496	565	580	36928	36943	CGCAGCACTCATCACG	88	1169
885515	593	608	36956	36971	ACTCCGGGTGCCTCAC	40	1170
885535	622	637	36985	37000	ACCGTAGGAGTAATCC	48	1171
885555	745	760	37108	37123	TATGTACGCTCAGAGC	80	1172
885575	894	909	37257	37272	TAGGTTTTATAAACCG	82	1173
885595	994	1009	37357	37372	GTAAAGTTCCTTAGCT	46	1174
885615	1117	1132	37480	37495	GGGAGGTATCTTCTTT	82	1175
885635	1209	1224	37572	37587	GTTGGATGCACTGGGT	75	1176
885655	1264	1279	37627	37642	TTTTGTCCGTGTGCGC	48	1177
885675	1317	1332	37680	37695	GCAAGTATGCCAATGC	54	1178
885695	1350	1365	37713	37728	TAGATGTGTGACGAAG	24	1179
885732	1584	1599	37947	37962	TGGGAGTGATGAAGGC	32	1180
885752	1643	1658	38006	38021	AACTCACGGTCCCAAG	68	1181
885771	1709	1724	38072	38087	CAATACAAGTCATTGC	34	1182
885790	N/A	N/A	5478	5493	GCCAAAGCTGCGCTGC	59	1183
885830	N/A	N/A	7173	7188	AGGCGCGCGCAGAGGG	57	1184
885850	N/A	N/A	7199	7214	GCCGAACGCACTGGGC	76	1185
885890	N/A	N/A	32723	32738	CACATTTGACTTGAGT	36	1186
885910	N/A	N/A	32839	32854	AGCTATATTGATCTTT	55	1187
885930	N/A	N/A	3233	3248	TGCTGACCAGGCTTGC	108	1188
885950	N/A	N/A	4156	4171	CCGTTATATGCCAAGC	13	1189
885970	N/A	N/A	4792	4807	CTGGATAGCATGGTCT	37	1190
885987	N/A	N/A	5633	5648	CGCTTTCTGGCACCCT	39	1191
886007	N/A	N/A	6224	6239	AGTAATGCGGTCCTCG	46	1192
886027	N/A	N/A	6630	6645	AGGAACGGTCCTGGCC	125	1193
886047	N/A	N/A	7366	7381	GCGCAGGGAGCCTCCC	86	1194
886067	N/A	N/A	8409	8424	GTGAAGATGCTTGTAA	51	1195
886087	N/A	N/A	8919	8934	GCTCATGGAGCACAAA	87	1196
886107	N/A	N/A	9464	9479	AGCTTAGGGTTTTGCA	78	1197
886127	N/A	N/A	9935	9950	TACTGAACTGGATCTA	46	1198
886147	N/A	N/A	10474	10489	CTTGTAACCACCAGGT	48	1199
886167	N/A	N/A	10916	10931	GGTCCTCACGGAAAGC	53	1200
886187	N/A	N/A	11752	11767	CCTCATGGCACGATGC	42	1201
886207	N/A	N/A	12081	12096	CCATATCTATCTCCTG	41	1202
886227	N/A	N/A	12811	12826	GTATGATTGGGTATGG	30	1203
886247	N/A	N/A	13686	13701	GTTCAGGCAAACTAGT	77	1204
886267	N/A	N/A	14224	14239	TCCCCGAGATGTTCAT	45	1205
886287	N/A	N/A	14712	14727	CCTACTTACTACTCAA	54	1206
886306	N/A	N/A	15645	15660	CCCAAAGCATTGATCT	41	1207
886326	N/A	N/A	16234	16249	ATCAACATCCACAACC	77	1208
886346	N/A	N/A	17034	17049	GCCAGAATGAGCTTAC	35	1209
886366	N/A	N/A	17680	17695	CGTTAACCCCTGGCAT	53	1210
886386	N/A	N/A	18680	18695	TCAGGTCCTACCTCAA	20	1211
886406	N/A	N/A	19080	19095	ACGGGAAAGGCAGTTG	28	1212
886426	N/A	N/A	19566	19581	TCAATGAACTGCATTC	38	1213
886445	N/A	N/A	19977	19992	AGTATGAATGTCATTC	27	1214
886465	N/A	N/A	20494	20509	CCCCAGCAGATAGTGG	91	1215
886485	N/A	N/A	21532	21547	ATGATTCGAGTTCAGA	25	1216
886504	N/A	N/A	22454	22469	TTATTGGGTTGTCATA	44	1217
886524	N/A	N/A	23148	23163	GGTCAAGAAGCCTTTC	35	1218
886544	N/A	N/A	23945	23960	CTCTAGTTCGCATCAT	49	1219
886564	N/A	N/A	25148	25163	ATGTAGGCTCAACATA	77	1220
886584	N/A	N/A	26211	26226	ATTAGAGGATCAAGGA	62	1221
886604	N/A	N/A	26909	26924	GGTGTTTTCATGAGCC	37	1222
886624	N/A	N/A	27516	27531	TGTGATCGCCAACCAC	44	1223
886644	N/A	N/A	28544	28559	CCACATGGACTTTACC	116	1224
886664	N/A	N/A	28965	28980	GAAGACACATACCTGA	44	1225
886684	N/A	N/A	29430	29445	CACTACATCTAGCTCT	65	1226
886704	N/A	N/A	30046	30061	ATCCACTGATGCAATG	77	1227
886724	N/A	N/A	30726	30741	GTGACTTAAGGGTTCT	34	1228
886744	N/A	N/A	31167	31182	GGAAAGATCCTGCAGC	57	1229
886764	N/A	N/A	31567	31582	GAGATAATGCAGCCCT	27	1230
886784	N/A	N/A	32384	32399	AACCTTACAGTGGGAT	44	1231
886804	N/A	N/A	33342	33357	CTAGAAAGCCACCCAT	89	1232
886824	N/A	N/A	33842	33857	TGCTACCCAAATGCAG	90	1233
886844	N/A	N/A	34312	34327	CTCTAGATGTACCAAG	45	1234
886864	N/A	N/A	34856	34871	TGTCATCCAGTAGTCA	36	1235
886884	N/A	N/A	35300	35315	TATCATCATGCAGGCA	70	1236
886904	N/A	N/A	35736	35751	GTTAAGCCTGTCCTCC	47	1237
886924	N/A	N/A	36296	36311	AAGGATGCAGCCGACA	76	1238
886944	N/A	N/A	36763	36778	AAAGGAGGTAGCACAA	113	1239

TABLE 26
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	20	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	20	31
885438	223	238	7258	7273	TCTGGCGGCAAGTTCT	21*	1240
885458	286	301	7321	7336	GACGAACAGCAGCACC	88	1241
885478	358	373	8849	8864	AGAGGTGCTACAGTTC	36	1242
885497	567	582	36930	36945	GCCGCAGCACTCATCA	89	1243
885516	595	610	36958	36973	CCACTCCGGGTGCCTC	35	1244
885536	624	639	36987	37002	AAACCGTAGGAGTAAT	88	1245
885556	746	761	37109	37124	CTATGTACGCTCAGAG	52	1246
885576	953	968	37316	37331	TGATGGTCAACATAAA	63	1247
885596	999	1014	37362	37377	AGGATGTAAAGTTCCT	95	1248
885616	1119	1134	37482	37497	GAGGGAGGTATCTTCT	96	1249
885636	1211	1226	37574	37589	CTGTTGGATGCACTGG	52	1250
885656	1265	1280	37628	37643	ATTTTGTCCGTGTGCG	79	1251
885676	1320	1335	37683	37698	AGGGCAAGTATGCCAA	63	1252
885696	1351	1366	37714	37729	TTAGATGTGTGACGAA	32	1253
885714	1441	1456	37804	37819	TTTCCAGTGAGTTGTT	35	1254
885733	1599	1614	37962	37977	ACCGTAAGAAAAATGT	97	1255
885753	1644	1659	38007	38022	GAACTCACGGTCCCAA	71	1256
885772	1710	1725	38073	38088	CCAATACAAGTCATTG	82	1257
885791	N/A	N/A	5481	5496	GCCGCCAAAGCTGCGC	119	1258
885831	N/A	N/A	7174	7189	GAGGCGCGCGCAGAGG	61	1259
885851	N/A	N/A	7200	7215	GGCCGAACGCACTGGG	166	1260
885891	N/A	N/A	32724	32739	ACACATTTGACTTGAG	30	1261
885911	N/A	N/A	32840	32855	TAGCTATATTGATCTT	67	1262
885931	N/A	N/A	3318	3333	AGGTAAACCCAACCCA	83	1263
885951	N/A	N/A	4169	4184	GCATTTACAGTGCCCG	14	1264
885971	N/A	N/A	4801	4816	GGCCGACTACTGGATA	113	1265
885988	N/A	N/A	5641	5656	CTGCGCTGCGCTTTCT	71	1266
886008	N/A	N/A	6242	6257	GGCAGGACATTTATCC	73	1267
886028	N/A	N/A	6677	6692	CCGCATTCCGTTTGTC	131	1268
886048	N/A	N/A	7534	7549	CGCTTGGTTCCTATCA	68	1269
886068	N/A	N/A	8419	8434	TGGAGATACTGTGAAG	68	1270
886088	N/A	N/A	8924	8939	GACAAGCTCATGGAGC	70	1271
886108	N/A	N/A	9469	9484	GGCTTAGCTTAGGGTT	48	1272
886128	N/A	N/A	9979	9994	GGATTATGCAAAGCCA	48	1273
886148	N/A	N/A	10479	10494	CACTACTTGTAACCAC	55	1274
886168	N/A	N/A	10992	11007	GTGCAGTGTCCAGATG	31	1275
886188	N/A	N/A	11762	11777	TGTTAGACTGCCTCAT	84	1276
886208	N/A	N/A	12099	12114	AGGGAGTGATTCACCC	94	1277
886228	N/A	N/A	12831	12846	AACTGAGCTATTGCAA	62	1278
886248	N/A	N/A	13693	13708	AGAAAGGGTTCAGGCA	54	1279
886268	N/A	N/A	14225	14240	CTCCCCGAGATGTTCA	35	1280
886288	N/A	N/A	14722	14737	GCAGAGGGAACCTACT	75	1281
886307	N/A	N/A	15721	15736	GCGATGATAGGAGACC	19	1282
886327	N/A	N/A	16290	16305	GACCTGACCACAGTCA	105	1283
886347	N/A	N/A	17108	17123	CTGGACTATGACCACA	31	1284
886367	N/A	N/A	17751	17766	GACAATATCTCCTGGC	24	1285
886387	N/A	N/A	18696	18711	AGGTCCTACCTCAACT	97	1286
886407	N/A	N/A	19092	19107	CCATAGAAAATGACGG	29	1287
886446	N/A	N/A	19978	19993	CAGTATGAATGTCATT	42	1288
886466	N/A	N/A	20509	20524	ACCCAGACCTAGCTCC	67	1289
886486	N/A	N/A	21556	21571	AACAAGTCAGCTGTAC	82	1290
886505	N/A	N/A	22477	22492	CGTACTTGAGGCACTA	39	1291
886525	N/A	N/A	23166	23181	TGCAACGAAGAAGAGT	65	1292
886545	N/A	N/A	23977	23992	GGCTATTCATTTGGTA	59	1293
886565	N/A	N/A	25154	25169	GAAATGATGTAGGCTC	33	1294
886585	N/A	N/A	26263	26278	CCCCATTACAATTGAG	86	1295
886605	N/A	N/A	26910	26925	AGGTGTTTTCATGAGC	22	1296
886625	N/A	N/A	27527	27542	ACAGAGCGGTGTGTGA	80	1297
886645	N/A	N/A	28557	28572	ATGCACCCCGCTTCCA	49	1298
886665	N/A	N/A	28975	28990	CCTATTGGTGGAAGAC	47	1299
886685	N/A	N/A	29453	29468	TGAATTTGGACCACAG	53	1300
886705	N/A	N/A	30052	30067	GGGCATATCCACTGAT	99	1301
886725	N/A	N/A	30731	30746	CATGAGTGACTTAAGG	44	1302
886745	N/A	N/A	31179	31194	CTCAGAATTAGTGGAA	38	1303
886765	N/A	N/A	31572	31587	GTGCAGAGATAATGCA	84	1304
886785	N/A	N/A	32456	32471	GTCCAGACGCAGGATC	47	1305
886805	N/A	N/A	33354	33369	GACCATTGCTGCCTAG	39	1306
886825	N/A	N/A	33854	33869	GCCTACGGAGGATGCT	81	1307
886845	N/A	N/A	34340	34355	TTGCATGCGGGCCCTG	97	1308
886865	N/A	N/A	34870	34885	CCCAAGACAGTTAATG	77	1309
886885	N/A	N/A	35315	35330	GGGCAGGACAACACTT	161	1310
886905	N/A	N/A	35754	35769	CGCCACATGAACCACC	43	1311
886925	N/A	N/A	36359	36374	TGCCTATGGGCACTGC	114	1312
886945	N/A	N/A	36829	36844	GACAATTGCTGGGTAG	38	1313
886956	N/A	N/A	19586	19601	GCTAACTTTGATACAG	71	1314

TABLE 27
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	11	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	19	31
885439	224	239	7259	7274	TTCTGGCGGCAAGTTC	19*	1315
885459	288	303	7323	7338	GAGACGAACAGCAGCA	107	1316
885479	359	374	8850	8865	AAGAGGTGCTACAGTT	47	1317
885498	568	583	36931	36946	GGCCGCAGCACTCATC	102	1318
885517	596	611	36959	36974	GCCACTCCGGGTGCCT	58	1319
885537	625	640	36988	37003	GAAACCGTAGGAGTAA	51	1320
885557	747	762	37110	37125	CCTATGTACGCTCAGA	36	1321
885577	956	971	37319	37334	GGCTGATGGTCAACAT	31	1322
885597	1001	1016	37364	37379	TTAGGATGTAAAGTTC	39	1323
885617	1120	1135	37483	37498	GGAGGGAGGTATCTTC	139	1324
885637	1212	1227	37575	37590	TCTGTTGGATGCACTG	76	1325
885657	1286	1301	37649	37664	TGCAAGGGCTCCAGTT	103	1326
885677	1321	1336	37684	37699	AAGGGCAAGTATGCCA	46	1327
885697	1353	1368	37716	37731	ATTTAGATGTGTGACG	45	1328
885715	1472	1487	37835	37850	TCTATCTTATGTTGTA	31	1329
885734	1601	1616	37964	37979	CGACCGTAAGAAAAAT	93	1330
885754	1645	1660	38008	38023	GGAACTCACGGTCCCA	93	1331
885773	1740	1755	38103	38118	GGGCACCATATATACA	94	1332
885792	N/A	N/A	5482	5497	CGCCGCCAAAGCTGCG	99	1333
885832	N/A	N/A	7175	7190	GGAGGCGCGCGCAGAG	99	1334
885852	N/A	N/A	7202	7217	GAGGCCGAACGCACTG	80	1335
885892	N/A	N/A	32732	32747	CGGTAACCACACATTT	66	1336
885912	N/A	N/A	32843	32858	CTATAGCTATATTGAT	78	1337
885932	N/A	N/A	3326	3341	TGCCAGACAGGTAAAC	37	1338
885952	N/A	N/A	4357	4372	CATAGAAGCTCATCAC	47	1339
885972	N/A	N/A	4847	4862	GATCTAGCGGGCTCCT	87	1340
885989	N/A	N/A	5656	5671	GCCAAAGCCCCGCGCC	98	1341
886009	N/A	N/A	6260	6275	TTTCAGCCGGTCAGAG	124	1342
886029	N/A	N/A	6713	6728	CGGCGAGGAGGCTGGT	58	1343
886049	N/A	N/A	7553	7568	GCTAACCCAGCCCAGC	88	1344
886069	N/A	N/A	8446	8461	GTCTGATATCATCATC	36	1345
886089	N/A	N/A	9000	9015	GCAACGACATTCTGGC	16	1346
886109	N/A	N/A	9474	9489	CCCAAGGCTTAGCTTA	67	1347
886129	N/A	N/A	9985	10000	GCAACTGGATTATGCA	89	1348
886149	N/A	N/A	10496	10511	CCCTTTTCGGGCTGAG	79	1349
886169	N/A	N/A	10999	11014	TGTTCAGGTGCAGTGT	43	1350
886189	N/A	N/A	11768	11783	CCTAGATGTTAGACTG	35	1351
886209	N/A	N/A	12203	12218	GATCAGATTCTACCTC	116	1352
886229	N/A	N/A	12849	12864	TGGAACTGCATAGGGC	26	1353
886249	N/A	N/A	13802	13817	CCAATGAACGGCCTCT	58	1354
886269	N/A	N/A	14226	14241	CCTCCCCGAGATGTTC	33	1355
886289	N/A	N/A	14772	14787	CGCCATGGACCCTGCG	93	1356
886308	N/A	N/A	15730	15745	TTGAAGACAGCGATGA	25	1357
886328	N/A	N/A	16372	16387	GATGACTCCGGGTCCC	110	1358
886348	N/A	N/A	17121	17136	CATCATGTCCAGTCTG	28	1359
886368	N/A	N/A	17776	17791	GCCCAGCCGAGGTAAT	66	1360
886388	N/A	N/A	18697	18712	CAGGTCCTACCTCAAC	34	1361
886408	N/A	N/A	19122	19137	GAAGAGCTCACTTAAA	74	1362
886427	N/A	N/A	19600	19615	GTCAAGGTATTCCAGC	17	1363
886447	N/A	N/A	19979	19994	TCAGTATGAATGTCAT	22	1364
886467	N/A	N/A	20528	20543	TGACATGGGCCGTGGC	37	1365
886487	N/A	N/A	21590	21605	GCAAGCTATTATCTGC	67	1366
886506	N/A	N/A	22526	22541	GCCCACCTAACTTGCC	86	1367
886526	N/A	N/A	23179	23194	CAGGAACTACTGTTGC	59	1368
886546	N/A	N/A	23989	24004	ATACATAGTGTTGGCT	47	1369
886566	N/A	N/A	25200	25215	ACTGACTATAAGGGCA	39	1370
886586	N/A	N/A	26277	26292	AATTTTAGTCCCAACC	93	1371
886606	N/A	N/A	26911	26926	GAGGTGTTTTCATGAG	51	1372
886626	N/A	N/A	27549	27564	GATCATGGCCATTAGC	63	1373
886646	N/A	N/A	28569	28584	CCGCAGACTTGGATGC	37	1374
886666	N/A	N/A	28980	28995	CACTACCTATTGGTGG	71	1375
886686	N/A	N/A	29492	29507	ACCTAGACATACTCTG	62	1376
886706	N/A	N/A	30059	30074	ATCTTGAGGGCATATC	44	1377
886726	N/A	N/A	30736	30751	AGTTACATGAGTGACT	67	1378
886746	N/A	N/A	31196	31211	TCCTAACTCTTTCAGT	115	1379
886766	N/A	N/A	31615	31630	TGCCATCCATAAAGAT	78	1380
886786	N/A	N/A	32461	32476	CCAAAGTCCAGACGCA	31	1381
886806	N/A	N/A	33360	33375	CCAAATGACCATTGCT	40	1382
886826	N/A	N/A	33860	33875	CGTAATGCCTACGGAG	96	1383
886846	N/A	N/A	34345	34360	GCCTATTGCATGCGGG	56	1384
886866	N/A	N/A	34875	34890	TGCAACCCAAGACAGT	83	1385
886886	N/A	N/A	35331	35346	TAACAGAGTGCTAGCA	101	1386
886906	N/A	N/A	35761	35776	GGGAATACGCCACATG	91	1387
886926	N/A	N/A	36364	36379	AGCAATGCCTATGGGC	146	1388
886946	N/A	N/A	36838	36853	CCGGATGCTGACAATT	78	1389

TABLE 28
Percent control of human PMP22 RNA with 3-10-3
cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(% UTC)	ID
ID	Site	Site	Site	Site	(5′ to 3′)	RTS35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	19	31
885440*	226	241	7261	7276	CATTCTGGCGGCAAGT	38	1390
885460	307	322	N/A	N/A	CCATTGGCTGACGATC	104	1391
885480	380	395	8871	8886	AGTGGTGGACATTTCC	34	1392
885499	570	585	36933	36948	ATGGCCGCAGCACTCA	44	1393
885518	597	612	36960	36975	TGCCACTCCGGGTGCC	59	1394
885538	626	641	36989	37004	CGAAACCGTAGGAGTA	62	1395
885558	750	765	37113	37128	TTCCCTATGTACGCTC	36	1396
885578	960	975	37323	37338	ACGAGGCTGATGGTCA	16	1397
885598	1005	1020	37368	37383	ACTGTTAGGATGTAAA	30	1398
885618	1133	1148	37496	37511	ATGAGGTGGACTGGGA	59	1399
885638	1213	1228	37576	37591	TTCTGTTGGATGCACT	69	1400
885658	1288	1303	37651	37666	TTTGCAAGGGCTCCAG	24	1401
885678	1322	1337	37685	37700	TAAGGGCAAGTATGCC	55	1402
885698	1354	1369	37717	37732	CATTTAGATGTGTGAC	37	1403
885716	1482	1497	37845	37860	AGGTCTCCATTCTATC	30	1404
885735	1603	1618	37966	37981	TCCGACCGTAAGAAAA	74	1405
885755	1651	1666	38014	38029	GCTCTAGGAACTCACG	36	1406
885774	1741	1756	38104	38119	AGGGCACCATATATAC	172	1407
885793	N/A	N/A	5483	5498	GCGCCGCCAAAGCTGC	122	1408
885833	N/A	N/A	7176	7191	CGGAGGCGCGCGCAGA	151	1409
885853	N/A	N/A	7203	7218	TGAGGCCGAACGCACT	92	1410
885893	N/A	N/A	32733	32748	CCGGTAACCACACATT	91	1411
885913	N/A	N/A	32844	32859	TCTATAGCTATATTGA	85	1412
885933	N/A	N/A	3336	3351	CACCATATACTGCCAG	34	1413
885953	N/A	N/A	4368	4383	GTGTACTGTGTCATAG	13	1414
885973	N/A	N/A	4887	4902	ACCTACGAAGCATGCC	61	1415
885990	N/A	N/A	5721	5736	CCCATTGGAGGGAAAC	89	1416
886010	N/A	N/A	6267	6282	CCGAGAATTTCAGCCG	43	1417
886030	N/A	N/A	6721	6736	GGAGACAGCGGCGAGG	64	1418
886050	N/A	N/A	7570	7585	AAATAGAGACCTGCGC	80	1419
886070	N/A	N/A	8454	8469	TCCTATCAGTCTGATA	103	1420
886090	N/A	N/A	9071	9086	CCCCAGCGAGATCACC	32	1421
886110	N/A	N/A	9487	9502	CTGGATTAAGGACCCC	29	1422
886130	N/A	N/A	9995	10010	GTCCAGCAAAGCAACT	103	1423
886150	N/A	N/A	10567	10582	GTCCAGGATTCTGTGC	57	1424
886170	N/A	N/A	11034	11049	GATTAAGCCTGAGTGG	56	1425
886190	N/A	N/A	11773	11788	CACAACCTAGATGTTA	58	1426
886210	N/A	N/A	12233	12248	ACTTAAATCCTGCCCA	93	1427
886230	N/A	N/A	12856	12871	GGACTTATGGAACTGC	23	1428
886250	N/A	N/A	13807	13822	TAAGACCAATGAACGG	79	1429
886270	N/A	N/A	14227	14242	ACCTCCCCGAGATGTT	51	1430
886290	N/A	N/A	14787	14802	CCTCATTCAAAGCGAC	51	1431
886309	N/A	N/A	15748	15763	AACAAGTCTGGGATCG	53	1432
886329	N/A	N/A	16404	16419	GGCTCGATGGGATAGG	29	1433
886349	N/A	N/A	17261	17276	CCCTAGCTAAGCCACC	46	1434
886369	N/A	N/A	18079	18094	GGGTTTAACAAGGTAA	57	1435
886389	N/A	N/A	18698	18713	GCAGGTCCTACCTCAA	29	1436
886409	N/A	N/A	19164	19179	CGGATTTATCAGGAGA	15	1437
886428	N/A	N/A	19614	19629	GAAGGAATCTTCATGT	57	1438
886448	N/A	N/A	19980	19995	CTCAGTATGAATGTCA	35	1439
886468	N/A	N/A	20555	20570	CCGGTATAAGAGCTGC	101	1440
886488	N/A	N/A	21597	21612	TCGACATGCAAGCTAT	51	1441
886507	N/A	N/A	22576	22591	GTTAGGACAGCCCAGG	64	1442
886527	N/A	N/A	23195	23210	TGTCAGTGGGTTCCCC	49	1443
886547	N/A	N/A	24062	24077	TGGAAGCATACATGTA	30	1444
886567	N/A	N/A	25222	25237	CACACATGGGACAGCT	58	1445
886587	N/A	N/A	26403	26418	ACTACGAGACCTCACA	94	1446
886607	N/A	N/A	26915	26930	TCCAGAGGTGTTTTCA	38	1447
886627	N/A	N/A	27592	27607	GGACAACCCGTATTTT	47	1448
886647	N/A	N/A	28576	28591	AATCATTCCGCAGACT	83	1449
886667	N/A	N/A	29040	29055	GCCCAGTAGAATCTAG	106	1450
886687	N/A	N/A	29511	29526	ATTGAGAACATCTCCC	50	1451
886707	N/A	N/A	30064	30079	ATATTATCTTGAGGGC	33	1452
886727	N/A	N/A	30793	30808	CGCAATACCTAGGAGA	38	1453
886747	N/A	N/A	31209	31224	CTCCAAATAGAGTTCC	95	1454
886767	N/A	N/A	31625	31640	AGCTGATGTGTGCCAT	38	1455
886787	N/A	N/A	32491	32506	TGGCTATAGGTTCTGA	60	1456
886807	N/A	N/A	33366	33381	CAGTATCCAAATGACC	45	1457
886827	N/A	N/A	33889	33904	GGGTTAGTGAGTCAAG	75	1458
886847	N/A	N/A	34401	34416	TCCCAGTACATCCTTA	68	1459
886867	N/A	N/A	34934	34949	GCAATAGATGTACCCT	49	1460
886887	N/A	N/A	35421	35436	ACTGAAGTTGTCTCTT	65	1461
886907	N/A	N/A	35768	35783	CAGAAGTGGGAATACG	63	1462
886927	N/A	N/A	36384	36399	GCCACATACCAGGTGA	64	1463
886947	N/A	N/A	36845	36860	CGCCACCCCGGATGCT	87	1464

TABLE 29
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
Com-	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
pound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	14	31
					CTCCA
684394	1489	1504	37852	37867	ATTATTCAGGT	12	31
					CTCCA
823764	1488	1503	37851	37866	TTATTCAGGTC	17	1465
					TCCAT
885441	227	242	7262	7277	GCATTCTGGCG	18*	1466
					GCAAG
885461	308	323	N/A	N/A	TCCATTGGCTG	105	1467
					ACGAT
885481	381	396	8872	8887	CAGTGGTGGAC	63	1468
					ATTTC
885500	571	586	36934	36949	GATGGCCGCAG	52	1469
					CACTC
885519	598	613	36961	36976	ATGCCACTCCG	52	1470
					GGTGC
885539	628	643	36991	37006	GGCGAAACCGT	48	1471
					AGGAG
885559	751	766	37114	37129	CTTCCCTATGT	35	1472
					ACGCT
885579	962	977	37325	37340	ACACGAGGCTG	50	1473
					ATGGT
885599	1006	1021	37369	37384	TACTGTTAGGA	62	1474
					TGTAA
885619	1135	1150	37498	37513	AAATGAGGTGG	46	1475
					ACTGG
885639	1221	1236	37584	37599	GCGGCTGTTTC	55	1476
					TGTTG
885659	1289	1304	37652	37667	TTTTGCAAGGG	42	1477
					CTCCA
885679	1324	1339	37687	37702	TGTAAGGGCAA	81	1478
					GTATG
885699	1355	1370	37718	37733	TCATTTAGATG	55	1479
					TGTGA
885736	1605	1620	37968	37983	GCTCCGACCGT	77	1480
					AAGAA
885756	1654	1669	38017	38032	CAAGCTCTAGG	39	1481
					AACTC
885775	1744	1759	38107	38122	AGAAGGGCACC	46	1482
					ATATA
885794	N/A	N/A	5496	5511	GGCTCCGCTGC	66	1483
					TGGCG
885834	N/A	N/A	7178	7193	GACGGAGGCGC	97	1484
					GCGCA
885854	N/A	N/A	7204	7219	GTGAGGCCGAA	76	1485
					CGCAC
885894	N/A	N/A	32734	32749	CCCGGTAACCA	74	1486
					CACAT
885914	N/A	N/A	32847	32862	TGCTCTATAGC	30	1487
					TATAT
885934	N/A	N/A	3341	3356	AGCCACACCAT	96	1488
					ATACT
885954	N/A	N/A	4373	4388	CTCTAGTGTAC	36	1489
					TGTGT
885974	N/A	N/A	4903	4918	CGCTATTACTG	54	1490
					TCTGC
885991	N/A	N/A	5755	5770	CCATAAAGGCT	72	1491
					CTCCT
886011	N/A	N/A	6280	6295	TAAAAGGCTGA	57	1492
					GTCCG
886031	N/A	N/A	6769	6784	GCCCAGATTTC	77	1493
					CGTCT
886051	N/A	N/A	7588	7603	TCTGAAGTTAC	27	1494
					TTGGC
886071	N/A	N/A	8463	8478	GTTTATAGCTC	54	1495
					CTATC
886091	N/A	N/A	9076	9091	AGCTTCCCCAG	85	1496
					CGAGA
886111	N/A	N/A	9497	9512	ATACGATCTTC	40	1497
					TGGAT
886131	N/A	N/A	10019	10034	GGGTACTGAGC	33	1498
					TGTAA
886151	N/A	N/A	10608	10623	TTTAACACGCC	48	1499
					TGCCA
886171	N/A	N/A	11077	11092	GATAACCACTA	50	1500
					CTGGG
886191	N/A	N/A	11781	11796	TCAAACTACAC	62	1501
					AACCT
886211	N/A	N/A	12281	12296	CCTTACCTTAG	56	1502
					GTCAC
886231	N/A	N/A	12863	12878	ATAACTGGGAC	65	1503
					TTATG
886251	N/A	N/A	13844	13859	TTCCGATGGGC	52	1504
					CTTGT
886271	N/A	N/A	14232	14247	ATGGAACCTCC	64	1505
					CCGAG
886291	N/A	N/A	14830	14845	TTCCAGATTGT	48	1506
					ATGAG
886310	N/A	N/A	15797	15812	GGAAATTGTCT	45	1507
					GGTGT
886330	N/A	N/A	16431	16446	TGGTAGGCATA	31	1508
					TTGCA
886350	N/A	N/A	17295	17310	TGTCATGAGAC	42	1509
					CTGTT
886370	N/A	N/A	18139	18154	CAGCACATCAG	60	1510
					GCATG
886390	N/A	N/A	18699	18714	TGCAGGTCCTA	68	1511
					CCTCA
886410	N/A	N/A	19206	19221	GATCAAAGCCT	71	1512
					GCTTA
886429	N/A	N/A	19637	19652	GGGCACAAACT	89	1513
					GCTCA
886449	N/A	N/A	19981	19996	TCTCAGTATGA	29	1514
					ATGTC
886469	N/A	N/A	20565	20580	CTGAGAGTGTC	33	1515
					CGGTA
886489	N/A	N/A	21602	21617	TGGATTCGACA	19	1516
					TGCAA
886508	N/A	N/A	22637	22652	AGGTAAGGGTC	38	1517
					CCGTG
886528	N/A	N/A	23200	23215	ATTGATGTCAG	24	1518
					TGGGT
886548	N/A	N/A	24067	24082	GACTTTGGAAG	38	1519
					CATAC
886568	N/A	N/A	25333	25348	TGTCAGGTAGA	60	1520
					CCAAA
886588	N/A	N/A	26412	26427	GCAGAAACTAC	32	1521
					TACGA
886608	N/A	N/A	26950	26965	TCAACTAGTCC	46	1522
					AGCTC
886628	N/A	N/A	27603	27618	TCAATTTGCTT	38	1523
					GGACA
886648	N/A	N/A	28581	28596	AAACTAATCAT	41	1524
					TCCGC
886668	N/A	N/A	29050	29065	GTCAATCAAAG	24	1525
					CCCAG
886688	N/A	N/A	29543	29558	TGCTACATCCT	127	1526
					TTGCC
886708	N/A	N/A	30132	30147	ACCCAATCATC	52	1527
					GCTTA
886728	N/A	N/A	30823	30838	GCAAGAGTGGA	40	1528
					TTAGT
886748	N/A	N/A	31229	31244	CGATAAGGGAA	43	1529
					CCAGG
886768	N/A	N/A	31664	31679	CTCCAAGAGCC	73	1530
					CTAGC
886788	N/A	N/A	32502	32517	CAAGGAATAGA	79	1531
					TGGCT
886808	N/A	N/A	33386	33401	GCCCACTCCTT	53	1532
					TTACA
886828	N/A	N/A	33930	33945	AGCTGGAAGGT	85	1533
					GCATG
886848	N/A	N/A	34408	34423	AGGGAATTCCC	129	1534
					AGTAC
886868	N/A	N/A	34954	34969	CAAGATTGTCT	60	1535
					GCATG
886888	N/A	N/A	35445	35460	TGCTAACTCTT	74	1536
					GTCTT
886908	N/A	N/A	35837	35852	CTACATCTAAC	102	1537
					CTCAC
886928	N/A	N/A	36397	36412	CCCTAACAGAG	54	1538
					TTGCC
886948	N/A	N/A	36865	36880	TGGCAGAGCGG	149	1539
					CCCCC

TABLE 30
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
Com-	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
pound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	30	31
					CTCCA
684394	1489	1504	37852	37867	ATTATTCAGGT	17	31
					CTCCA
885442	228	243	7263	7278	AGCATTCTGGC	29*	1540
					GGCAA
885462	310	325	N/A	N/A	GATCCATTGGC	125	1541
					TGACG
885482	383	398	8874	8889	AACAGTGGTGG	64	1542
					ACATT
885501	572	587	36935	36950	AGATGGCCGCA	60	1543
					GCACT
885520	600	615	36963	36978	AGATGCCACTC	57	1544
					CGGGT
885540	630	645	36993	37008	TAGGCGAAACC	45	1545
					GTAGG
885560	752	767	37115	37130	CCTTCCCTATG	53	1546
					TACGC
885580	963	978	37326	37341	AACACGAGGCT	43	1547
					GATGG
885600	1008	1023	37371	37386	TATACTGTTAG	33	1548
					GATGT
885620	1136	1151	37499	37514	TAAATGAGGTG	57	1549
					GACTG
885640	1222	1237	37585	37600	AGCGGCTGTTT	43	1550
					CTGTT
885660	1290	1305	37653	37668	TTTTTGCAAGG	46	1551
					GCTCC
885680	1326	1341	37689	37704	CCTGTAAGGGC	48	1552
					AAGTA
885700	1374	1389	37737	37752	ACTTGTTGTCA	23	1553
					CTGAT
885717	1490	1505	37853	37868	AATTATTCAGG	18	1554
					TCTCC
885737	1606	1621	37969	37984	TGCTCCGACCG	80	1555
					TAAGA
885757	1655	1670	38018	38033	CCAAGCTCTAG	49	1556
					GAACT
885776	1745	1760	38108	38123	CAGAAGGGCAC	50	1557
					CATAT
885795	N/A	N/A	5497	5512	TGGCTCCGCTG	54	1558
					CTGGC
885835	N/A	N/A	7179	7194	CGACGGAGGCG	110	1559
					CGCGC
885855	N/A	N/A	7205	7220	CGTGAGGCCGA	99	1560
					ACGCA
885895	N/A	N/A	32735	32750	TCCCGGTAACC	56	1561
					ACACA
885915	N/A	N/A	32848	32863	ATGCTCTATAG	51	1562
					CTATA
885935	N/A	N/A	3361	3376	TCAATAACCAC	39	1563
					CCAGG
885955	N/A	N/A	4419	4434	GTTCACGCACG	75	1564
					CGCGC
885975	N/A	N/A	4938	4953	GTCTTAGCCGG	81	1565
					ACACA
885992	N/A	N/A	5766	5781	GGTCTTATAGA	108	1566
					CCATA
886012	N/A	N/A	6305	6320	GCGGACGGGAG	77	1567
					AGAGA
886032	N/A	N/A	6814	6829	GGTGAATTCCC	77	1568
					CTATG
886052	N/A	N/A	7600	7615	CCCTAGATCGG	57	1569
					CTCTG
886072	N/A	N/A	8513	8528	CAGCATCTCGG	96	1570
					GATCA
886092	N/A	N/A	9109	9124	GGTAGAGTGAA	25	1571
					TCACA
886112	N/A	N/A	9538	9553	TTCCATATCTC	74	1572
					ACAAG
886132	N/A	N/A	10028	10043	GGTATTACTGG	41	1573
					GTACT
886152	N/A	N/A	10616	10631	CGCCGGGTTTT	72	1574
					AACAC
886172	N/A	N/A	11086	11101	AGCGGCAGAGA	47	1575
					TAACC
886192	N/A	N/A	11804	11819	GGGCAAGATCT	71	1576
					GGTGT
886212	N/A	N/A	12318	12333	AGCCAACCAGT	69	1577
					CTACC
886232	N/A	N/A	12942	12957	GAAGAGCCCAT	60	1578
					GTGAG
886252	N/A	N/A	13849	13864	GTAGATTCCGA	29	1579
					TGGGC
886272	N/A	N/A	14252	14267	GCACTTGACGG	20	1580
					TCCTT
886292	N/A	N/A	14888	14903	ACTCACCCATA	62	1581
					GGGTC
886311	N/A	N/A	15851	15866	GCAGAAGGTCT	58	1582
					CCCGT
886331	N/A	N/A	16439	16454	TGAACATGTGG	15	1583
					TAGGC
886351	N/A	N/A	17303	17318	GCAAACCCTGT	65	1584
					CATGA
886371	N/A	N/A	18218	18233	CTGCAGTCATT	67	1585
					GTCCA
886391	N/A	N/A	18706	18721	TGCAATGTGCA	55	1586
					GGTCC
886411	N/A	N/A	19247	19262	TATCAATCTCC	134	1587
					CTCCT
886430	N/A	N/A	19647	19662	GGCCACTAGTG	85	1588
					GGCAC
886450	N/A	N/A	19982	19997	TTCTCAGTATG	57	1589
					AATGT
886470	N/A	N/A	21207	21222	ACTAAAGCTCT	163	1590
					GGCCG
886490	N/A	N/A	21607	21622	CAGGTTGGATT	44	1591
					CGACA
886509	N/A	N/A	22660	22675	TGACAGGGCTT	87	1592
					TGATC
886529	N/A	N/A	23217	23232	AGCCAAAGTTG	37	1593
					TGTCA
886549	N/A	N/A	24227	24242	GTTCAAGTGCT	34	1594
					TATAT
886569	N/A	N/A	25338	25353	ATAGATGTCAG	54	1595
					GTAGA
886589	N/A	N/A	26441	26456	CCCTTAACCCC	75	1596
					GCGCC
886609	N/A	N/A	26959	26974	CCTGAGAGATC	70	1597
					AACTA
886629	N/A	N/A	27622	27637	CTCTCTATAGG	34	1598
					TATGG
886649	N/A	N/A	28596	28611	CCACATCCTTC	74	1599
					TACTA
886669	N/A	N/A	29093	29108	TGACACAAGAG	100	1600
					TGTCA
886689	N/A	N/A	29548	29563	AGAGATGCTAC	63	1601
					ATCCT
886709	N/A	N/A	30164	30179	GAGCGAGGCAC	70	1602
					ATCTC
886729	N/A	N/A	30893	30908	CGGAATTCTGC	67	1603
					ACTTC
886749	N/A	N/A	31236	31251	TGTCACACGAT	62	1604
					AAGGG
886769	N/A	N/A	31676	31691	ACCTACAGTCA	82	1605
					GCTCC
886789	N/A	N/A	32517	32532	CCCAACAGATC	53	1606
					TTGTC
886809	N/A	N/A	33396	33411	TGTGATTGAAG	46	1607
					CCCAC
886829	N/A	N/A	34010	34025	ACATGATCAGA	67	1608
					CGCAC
886849	N/A	N/A	34426	34441	GGTCAAAGGAA	76	1609
					GTAGC
886869	N/A	N/A	34987	35002	CATGAGACTGA	83	1610
					TGTTT
886889	N/A	N/A	35451	35466	CCAAAGTGCTA	47	1611
					ACTCT
886909	N/A	N/A	35843	35858	GGCCACCTACA	103	1612
					TCTAA
886929	N/A	N/A	36409	36424	GGCCTATGGTC	92	1613
					CCCCT
886949	N/A	N/A	36882	36897	GGGTGACGGAG	97	1614
					AGTCC

TABLE 31
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
Com-	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
pound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	8	31
					CTCCA
684394	1489	1504	37852	37867	ATTATTCAGGT	6	31
					CTCCA
885443	230	245	7265	7280	GGAGCATTCTG	2*	1615
					GCGGC
885463	312	327	N/A	N/A	ACGATCCATTG	60	1616
					GCTGA
885483	446	461	28419	28434	AGATGATCGAC	78	1617
					AGGAT
885502	573	588	36936	36951	TAGATGGCCGC	60	1618
					AGCAC
885521	601	616	36964	36979	GAGATGCCACT	62	1619
					CCGGG
885541	674	689	37037	37052	CACCGCTGAGA	60	1620
					AGGGC
885561	753	768	37116	37131	CCCTTCCCTAT	65	1621
					GTACG
885581	965	980	37328	37343	TCAACACGAGG	46	1622
					CTGAT
885601	1012	1027	37375	37390	GGATTATACTG	7	1623
					TTAGG
885621	1138	1153	37501	37516	TCTAAATGAGG	50	1624
					TGGAC
885641	1223	1238	37586	37601	CAGCGGCTGTT	39	1625
					TCTGT
885661	1291	1306	37654	37669	GTTTTTGCAAG	28	1626
					GGCTC
885681	1327	1342	37690	37705	ACCTGTAAGGG	30	1627
					CAAGT
885701	1375	1390	37738	37753	GACTTGTTGTC	16	1628
					ACTGA
885718	1519	1534	37882	37897	AGCAGTTATAA	28	1629
					ACCAT
885738	1608	1623	37971	37986	GATGCTCCGAC	65	1630
					CGTAA
885758	1667	1682	38030	38045	GCCTAGACCCA	61	1631
					GCCAA
885777	1747	1762	38110	38125	ATCAGAAGGGC	32	1632
					ACCAT
885796	N/A	N/A	5498	5513	TTGGCTCCGCT	56	1633
					GCTGG
885836	N/A	N/A	7180	7195	GCGACGGAGGC	99	1634
					GCGCG
885856	N/A	N/A	7226	7241	GCCTGCGAGGA	109*	1635
					GAGCG
885896	N/A	N/A	32736	32751	ATCCCGGTAAC	41	1636
					CACAC
885916	N/A	N/A	32849	32864	AATGCTCTATA	41	1637
					GCTAT
885936	N/A	N/A	3404	3419	GCTACAGCTCG	33	1638
					CTTCT
885956	N/A	N/A	4484	4499	GCCTTGAGGCA	56	1639
					CGGGA
885976	N/A	N/A	5017	5032	TAATAGAGGGC	41	1640
					AGCGG
885993	N/A	N/A	5772	5787	CTGTAAGGTCT	59	1641
					TATAG
886013	N/A	N/A	6310	6325	GTCCAGCGGAC	84	1642
					GGGAG
886033	N/A	N/A	6820	6835	TCAGATGGTGA	34	1643
					ATTCC
886053	N/A	N/A	7618	7633	TCAAATGAAGG	20	1644
					TCGGG
886073	N/A	N/A	8548	8563	ACCTTAGACAC	39	1645
					CTGCA
886093	N/A	N/A	9114	9129	CTCTAGGTAGA	48	1646
					GTGAA
886113	N/A	N/A	9567	9582	CCCTTAATTTG	33	1647
					ACCCT
886133	N/A	N/A	10034	10049	TGCTTGGGTAT	22	1648
					TACTG
886153	N/A	N/A	10626	10641	GCTGAAACTTC	50	1649
					GCCGG
886173	N/A	N/A	11094	11109	GGGAAGATAGC	65	1650
					GGCAG
886193	N/A	N/A	11822	11837	TATTAAGATGT	67	1651
					AGCCT
886213	N/A	N/A	12325	12340	GAACACTAGCC	34	1652
					AACCA
886233	N/A	N/A	12964	12979	CAACAGGTCCT	102	1653
					AAAGT
886253	N/A	N/A	13859	13874	GATCATTCAGG	78	1654
					TAGAT
886273	N/A	N/A	14265	14280	CCCCAGCGATC	61	1655
					TTGCA
886293	N/A	N/A	14917	14932	CCTGAATCCTT	90	1656
					TGGGT
886312	N/A	N/A	15895	15910	GGGAGCCACGA	92	1657
					AGATT
886332	N/A	N/A	16467	16482	GGTAATAAGTT	40	1658
					CCCCA
886352	N/A	N/A	17322	17337	CCCTACATCTA	68	1659
					ACCCA
886372	N/A	N/A	18225	18240	GGTCACCCTGC	46	1660
					AGTCA
886392	N/A	N/A	18750	18765	TGCCACAATTA	32	1661
					CATCC
886412	N/A	N/A	19258	19273	ACGATGAAGGA	34	1662
					TATCA
886431	N/A	N/A	19669	19684	AGCTAGAGCAA	45	1663
					AGCCT
886451	N/A	N/A	20007	20022	TCACACAGATC	60	1664
					GCCAT
886471	N/A	N/A	21240	21255	ATCCAACCTTG	43	1665
					GTGCT
886491	N/A	N/A	21692	21707	CCATAGCCATG	54	1666
					GACAA
886510	N/A	N/A	22697	22712	CGCAGTAAGAG	39	1667
					ACAGC
886530	N/A	N/A	23258	23273	CGTATAGACAT	27	1668
					CCACA
886550	N/A	N/A	24228	24243	TGTTCAAGTGC	13	1669
					TTATA
886570	N/A	N/A	25363	25378	GAAGACTTTAG	85	1670
					CTTCC
886590	N/A	N/A	26509	26524	CATGAGGAGTA	63	1671
					TGGCT
886610	N/A	N/A	27010	27025	CCTAAGATGTT	53	1672
					TCCAA
886630	N/A	N/A	27632	27647	GAAAGGTATGC	26	1673
					TCTCT
886650	N/A	N/A	28705	28720	TCCCAAGTTCT	31	1674
					AAGAC
886670	N/A	N/A	29126	29141	TGTCATAGCCC	62	1675
					CATGT
886690	N/A	N/A	29566	29581	TGACAACCAAC	55	1676
					TCAGA
886710	N/A	N/A	30169	30184	GGTTTGAGCGA	17	1677
					GGCAC
886730	N/A	N/A	30905	30920	CGCTTTTACAT	18	1678
					TCGGA
886750	N/A	N/A	31242	31257	TAGAACTGTCA	34	1679
					CACGA
886770	N/A	N/A	31745	31760	GGCAAACCATG	53	1680
					GAGAC
886790	N/A	N/A	32533	32548	GTCTAGTGCAA	57	1681
					CCCAA
886810	N/A	N/A	33472	33487	CCTCAGGGCAA	84	1682
					CAAGG
886830	N/A	N/A	34076	34091	GGCCTTACATG	140	1683
					ACATG
886850	N/A	N/A	34472	34487	GTGATTAGAGC	43	1684
					CCAGA
886870	N/A	N/A	35056	35071	CCGTGATAAGC	25	1685
					AGTAA
886890	N/A	N/A	35471	35486	CTCTTCCACGG	33	1686
					CTTGC
886910	N/A	N/A	35872	35887	CCCAATGCACC	79	1687
					CGCGC
886930	N/A	N/A	36435	36450	GGATTAAGCTC	42	1688
					CATGC
886950	N/A	N/A	36897	36912	GGAGAGGGACA	192	1689
					AGCTG

TABLE 32
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
Com-	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
pound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	23	31
					CTCCA
684394	1489	1504	37852	37867	ATTATTCAGGT	17	31
					CTCCA
885434	218	233	7253	7268	CGGCAAGTTCT	55*	1690
					GCTCA
885454	256	271	7291	7306	GAGGACGATGA	62*	1691
					TACTC
885474	353	368	8844	8859	TGCTACAGTTC	61	1692
					TGCCA
885494	521	536	28494	28509	CAGTGATGTAA	82	1693
					AACCT
885512	590	605	36953	36968	CCGGGTGCCTC	83	1694
					ACCGT
885532	618	633	36981	36996	TAGGAGTAATC	87	1695
					CGAGT
885552	727	742	37090	37105	CAGACAGACCG	105	1696
					TCTGG
885572	890	905	37253	37268	TTTTATAAACC	40	1697
					GGAGA
885592	991	1006	37354	37369	AAGTTCCTTAG	60	1698
					CTACT
885612	1085	1100	37448	37463	GGCGAGATGGA	54	1699
					GTTAT
885632	1199	1214	37562	37577	CTGGGTCACCC	78	1700
					ACCAG
885652	1238	1253	37601	37616	ACACAGAGGTT	49	1701
					CGGGC
885672	1309	1324	37672	37687	GCCAATGCCAC	50	1702
					AAGCC
885692	1346	1361	37709	37724	TGTGTGACGAA	53	1703
					GATAC
885711	1435	1450	37798	37813	GTGAGTTGTTT	29	1704
					AGATG
885729	1581	1596	37944	37959	GAGTGATGAAG	41	1705
					GCTTT
885749	1639	1654	38002	38017	CACGGTCCCAA	84	1706
					GGAGT
885768	1704	1719	38067	38082	CAAGTCATTGC	50	1707
					CAGAC
885787	N/A	N/A	5459	5474	GCTGCGCGCGC	88	1708
					GCGAA
885807	N/A	N/A	5543	5558	GCTGTCCCGAT	44	1709
					CCTCA
885827	N/A	N/A	7158	7173	GAGGGTCCCGC	142	1710
					GCACT
885847	N/A	N/A	7196	7211	GAACGCACTGG	79	1711
					GCCGA
885907	N/A	N/A	32763	32778	GAGTCCCCTCT	96	1712
					ATTCT
885927	N/A	N/A	3024	3039	AGCCAGAGTAT	43	1713
					ATATC
885947	N/A	N/A	3943	3958	GGTGATTGAAG	13	1714
					GAGAC
885967	N/A	N/A	4740	4755	TACCACCGAAT	47	1715
					AAGCT
885984	N/A	N/A	5283	5298	GGCCTTAAATG	89	1716
					CGCCT
886004	N/A	N/A	6118	6133	GACCATTTTAG	84	1717
					GCAGA
886024	N/A	N/A	6590	6605	GGCGGCTCCGG	70	1718
					AGAGG
886044	N/A	N/A	7151	7166	CCGCGCACTAG	110	1719
					CGGAA
886064	N/A	N/A	7899	7914	TCTAATGGGCT	55	1720
					GGACA
886084	N/A	N/A	8805	8820	CCACGATCCAT	71	1721
					TGCTA
886104	N/A	N/A	9347	9362	GTCCATGTAAC	69	1722
					TGACG
886124	N/A	N/A	9830	9845	GCCTTTTAAAC	42	1723
					CCAGG
886144	N/A	N/A	10431	10446	CCGGAGTGCTC	115	1724
					CGGGA
886164	N/A	N/A	10888	10903	TTGAAACCCAC	108	1725
					ACTAA
886184	N/A	N/A	11708	11723	CATGAGTGGCA	65	1726
					ACCCC
886204	N/A	N/A	12037	12052	GGCAAGGCCCA	101	1727
					TGCAT
886224	N/A	N/A	12755	12770	GGCTTACAGAG	56	1728
					AGGTA
886244	N/A	N/A	13616	13631	GGCAACAGGCA	57	1729
					TTGGA
886264	N/A	N/A	14148	14163	TCCCATTACCC	69	1730
					TGTCT
886284	N/A	N/A	14549	14564	ACCGATGCATT	56	1731
					TCTAC
886304	N/A	N/A	15440	15455	CTGCAGGTACT	72	1732
					GCCCT
886323	N/A	N/A	16147	16162	GGGATACAATT	71	1733
					GAAGT
886343	N/A	N/A	16816	16831	CCTATAACTGG	47	1734
					TCCTT
886363	N/A	N/A	17597	17612	CTGTATTCAGC	30	1735
					ACCAC
886383	N/A	N/A	18644	18659	AACCAGGGTAC	76	1736
					CTGCC
886403	N/A	N/A	19027	19042	AGGGAATAATT	64	1737
					CGCTT
886423	N/A	N/A	19513	19528	TGTCAGGGTCT	51	1738
					AGTTC
886442	N/A	N/A	19929	19944	CCTAAACAATG	99	1739
					TGGCC
886462	N/A	N/A	20475	20490	GCTCGAGTTGC	57	1740
					ACAAA
886482	N/A	N/A	21454	21469	TGTGACACCAA	31	1741
					CATCC
886501	N/A	N/A	22340	22355	TTACAGGCTGT	86	1742
					TATTG
886521	N/A	N/A	23006	23021	CTCAAAGGGCT	65	1743
					AGTGG
886541	N/A	N/A	23768	23783	GGTGACACCAA	69	1744
					TTTTC
886561	N/A	N/A	24994	25009	ATATAGAGAGC	88	1745
					CACAT
886581	N/A	N/A	26134	26149	CTCTGATGATC	107	1746
					CAGAG
886601	N/A	N/A	26906	26921	GTTTTCATGAG	26	1747
					CCCAA
886621	N/A	N/A	27496	27511	CGGGATGAAGG	67	1748
					CTTAC
886641	N/A	N/A	28363	28378	AGACACTTGGT	95	1749
					TAGGA
886661	N/A	N/A	28940	28955	TGCTAGTTCTT	79	1750
					AGCAC
886681	N/A	N/A	29354	29369	AGCTAATGTAA	89	1751
					GATGC
886701	N/A	N/A	29923	29938	GGGTAACTCTT	59	1752
					CACTT
886721	N/A	N/A	30636	30651	GCCGAAACAGC	33	1753
					TCAGC
886741	N/A	N/A	31143	31158	GTGCAACATCC	63	1754
					TAGAG
886761	N/A	N/A	31529	31544	ACAGAGATTCT	44	1755
					AGTGG
886781	N/A	N/A	32338	32353	TCCCAACCCTA	104	1756
					AATGC
886801	N/A	N/A	33303	33318	GGCCAGTGAGA	69	1757
					CATCC
886821	N/A	N/A	33738	33753	AGCGATGTCTC	79	1758
					AGAAG
886841	N/A	N/A	34280	34295	TCCTACCTTAA	94	1759
					GGACT
886861	N/A	N/A	34779	34794	GTGGAGATGTA	92	1760
					TCACC
886881	N/A	N/A	35261	35276	CCAGATCTGGC	84	1761
					ATGAG
886901	N/A	N/A	35673	35688	AGCCACACAAT	76	1762
					AGTCT
886921	N/A	N/A	36243	36258	ATCAAAGGCAA	53	1763
					GCTCC
886941	N/A	N/A	36636	36651	TGTCACCAATT	53	1764
					CCCAG

TABLE 33
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ		PMP22
	ID	ID	ID	ID		(%
Com-	NO: 1	NO: 1	NO: 2	NO: 2		UTC)	SEQ
pound	Start	Stop	Start	Stop	Sequence	RTS	ID
ID	Site	Site	Site	Site	(5′ to 3′)	35670	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	16	31
					CTCCA
684394	1489	1504	37852	37867	ATTATTCAGGT	13	31
					CTCCA
885435	219	234	7254	7269	GCGGCAAGTTC	84*	1765
					TGCTC
885455	257	272	7292	7307	GGAGGACGATG	10*	1766
					ATACT
885475	354	369	8845	8860	GTGCTACAGTT	50	1767
					CTGCC
885495	562	577	36925	36940	AGCACTCATCA	52	1768
					CGCAC
885513	591	606	36954	36969	TCCGGGTGCCT	72	1769
					CACCG
885533	620	635	36983	36998	CGTAGGAGTAA	68	1770
					TCCGA
885553	729	744	37092	37107	CTCAGACAGAC	153	1771
					CGTCT
885573	891	906	37254	37269	GTTTTATAAAC	20	1772
					CGGAG
885593	992	1007	37355	37370	AAAGTTCCTTA	49	1773
					GCTAC
885613	1086	1101	37449	37464	GGGCGAGATGG	64	1774
					AGTTA
885633	1206	1221	37569	37584	GGATGCACTGG	50	1775
					GTCAC
885653	1241	1256	37604	37619	TTCACACAGAG	32	1776
					GTTCG
885673	1314	1329	37677	37692	AGTATGCCAAT	29	1777
					GCCAC
885693	1347	1362	37710	37725	ATGTGTGACGA	36	1778
					AGATA
885712	1436	1451	37799	37814	AGTGAGTTGTT	39	1779
					TAGAT
885730	1582	1597	37945	37960	GGAGTGATGAA	35	1780
					GGCTT
885750	1640	1655	38003	38018	TCACGGTCCCA	85	1781
					AGGAG
885769	1706	1721	38069	38084	TACAAGTCATT	32	1782
					GCCAG
885788	N/A	N/A	5460	5475	GGCTGCGCGCG	105	1783
					CGCGA
885808	N/A	N/A	5545	5560	CAGCTGTCCCG	92	1784
					ATCCT
885828	N/A	N/A	7159	7174	GGAGGGTCCCG	192	1785
					CGCAC
885848	N/A	N/A	7197	7212	CGAACGCACTG	101	1786
					GGCCG
885908	N/A	N/A	32764	32779	GGAGTCCCCTC	73	1787
					TATTC
885928	N/A	N/A	3069	3084	TGCATTAGGGT	47	1788
					TTCTA
885948	N/A	N/A	4069	4084	GGCTCCAACAA	74	1789
					ACCTA
885968	N/A	N/A	4746	4761	CCAGACTACCA	45	1790
					CCGAA
885985	N/A	N/A	5381	5396	CGCTGCAGTAG	32	1791
					GGTGT
886005	N/A	N/A	6158	6173	GGACATGCATG	26	1792
					GCTGT
886025	N/A	N/A	6601	6616	GCGCAGACTCT	151	1793
					GGCGG
886045	N/A	N/A	7345	7360	GGCACTCACGC	112	1794
					TGACG
886065	N/A	N/A	7933	7948	GCTCATCTTCA	35	1795
					TCGCC
886085	N/A	N/A	8893	8908	CCGTTTGGTGA	73	1796
					TGATG
886105	N/A	N/A	9363	9378	AGGCAGCCAGT	49	1797
					CTTGT
886125	N/A	N/A	9842	9857	TGTATTTCCGT	41	1798
					GGCCT
886145	N/A	N/A	10445	10460	ACGGAGACTCC	85	1799
					CATCC
886165	N/A	N/A	10903	10918	AGCAACGAGGC	44	1800
					AGATT
886185	N/A	N/A	11713	11728	AACAACATGAG	63	1801
					TGGCA
886205	N/A	N/A	12053	12068	GGCTCGGGACC	48	1802
					ATCAA
886225	N/A	N/A	12760	12775	CACCAGGCTTA	87	1803
					CAGAG
886245	N/A	N/A	13624	13639	CACAGGTGGGC	100	1804
					AACAG
886265	N/A	N/A	14153	14168	CTTTATCCCAT	86	1805
					TACCC
886285	N/A	N/A	14585	14600	AAGAATCCCGT	72	1806
					CACCC
886305	N/A	N/A	15533	15548	GTAGTAAGTGG	36	1807
					TCATC
886324	N/A	N/A	16185	16200	AATGCAAGGGA	47	1808
					TGTTT
886344	N/A	N/A	16927	16942	AGCGATCCTGC	42	1809
					TCCCA
886364	N/A	N/A	17650	17665	TCTGAACCCTG	64	1810
					TTCCC
886384	N/A	N/A	18678	18693	AGGTCCTACCT	47	1811
					CAATG
886404	N/A	N/A	19048	19063	CTGCATCAGTG	70	1812
					GAGAA
886424	N/A	N/A	19524	19539	CAGAGCTAGTT	36	1813
					TGTCA
886443	N/A	N/A	19935	19950	CTCCATCCTAA	110	1814
					ACAAT
886463	N/A	N/A	20480	20495	GGGAAGCTCGA	97	1815
					GTTGC
886483	N/A	N/A	21461	21476	AACCTAGTGTG	28	1816
					ACACC
886502	N/A	N/A	22393	22408	TGCAAATAACC	81	1817
					CCACC
886522	N/A	N/A	23029	23044	TACTAAGAGTC	94	1818
					AGGAT
886542	N/A	N/A	23808	23823	CACTAGCAACC	53	1819
					AAGGA
886562	N/A	N/A	25057	25072	CCAGATAATTC	40	1820
					CTCGG
886582	N/A	N/A	26166	26181	ACCTACTGCTT	78	1821
					TGAGC
886602	N/A	N/A	26907	26922	TGTTTTCATGA	11	1822
					GCCCA
886622	N/A	N/A	27501	27516	CCAGACGGGAT	81	1823
					GAAGG
886642	N/A	N/A	28525	28540	CACAACTTACC	86	1824
					AGCAA
886662	N/A	N/A	28953	28968	CTGATAACTAC	74	1825
					TTTGC
886682	N/A	N/A	29367	29382	ACAGACATGTA	63	1826
					AGAGC
886702	N/A	N/A	29932	29947	ATTGAGTAAGG	53	1827
					GTAAC
886722	N/A	N/A	30641	30656	TTAAAGCCGAA	73	1828
					ACAGC
886742	N/A	N/A	31148	31163	TTCCAGTGCAA	66	1829
					CATCC
886762	N/A	N/A	31540	31555	CCGGAGACTAC	53	1830
					ACAGA
886782	N/A	N/A	32365	32380	GGACAGTTTAA	37	1831
					TGGCT
886802	N/A	N/A	33316	33331	CTGATTTGGGC	47	1832
					ATGGC
886822	N/A	N/A	33746	33761	GGGAACACAGC	111	1833
					GATGT
886842	N/A	N/A	34293	34308	AGTGAGACATG	21	1834
					GCTCC
886862	N/A	N/A	34818	34833	AGTAAGTGGAC	68	1835
					TGTGA
886882	N/A	N/A	35266	35281	TCTAACCAGAT	80	1836
					CTGGC
886902	N/A	N/A	35682	35697	TGTCAAGAGAG	95	1837
					CCACA
886922	N/A	N/A	36273	36288	TGGGAAGCCAC	72	1838
					GCTGC
886942	N/A	N/A	36691	36706	CCTTAATACCT	85	1839
					GAGGG

TABLE 34
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ
	ID	ID		PMP22	PMP22
	NO:	NO:		(%	(%
Com-	3	3		UTC)	UTC)	SEQ
pound	Start	Stop	Sequence	RTS	RTS	ID
ID	Site	Site	(5′ to 3′)	35670	35667	NO
885826	161	176	CAGCGGAGTTTCTGCA	71	39*	1840

Example 5: Effect of Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists of ten 2′-β-D-deoxynucleosides and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a cEt nucleoside. All internucleoside linkages throughout the modified oligonucleotide are phosphorothioate (P═S) linkages. All cytosine residues throughout the modified oligonucleotide are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is targeted in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is targeted human gene sequence. Each modified oligonucleotide listed in the Tables below is targeted to either SEQ ID NO: 1 or SEQ ID NO: 2. ‘N/A’ indicates that the modified oligonucleotide does not target that particular gene sequence with 100% complementarity.

Cultured A-549 cells at a density of 15,000 cells per well were treated using electroporation with 4,000 nM of modified oligonucleotide. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS35670, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The modified oligonucleotides with percent control values marked with an asterisk (*) target the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region. ‘N.D.’ indicates that the % UTC is not determined for that particular modified oligonucleotide in that particular experiment.

TABLE 35
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	25	31
					CTCCA
923817	N/A	N/A	3505	3520	GAGCATATCTA	89	1841
					ACTCA
923827	N/A	N/A	4170	4185	TGCATTTACAG	40	1842
					TGCCC
923837	N/A	N/A	5946	5961	ATTAAGCCGAT	81	1843
					GGCAG
923847	N/A	N/A	7620	7635	TGTCAAATGAA	45	1844
					GGTCG
923857	N/A	N/A	8998	9013	AACGACATTCT	32	1845
					GGCTT
923867	N/A	N/A	9499	9514	AAATACGATCT	44	1846
					TCTGG
923877	N/A	N/A	9722	9737	TCTTAACATCA	25	1847
					ATCGC
923887	N/A	N/A	10451	10466	GCGAGTACGGA	186	1848
					GACTC
923896	N/A	N/A	10757	10772	ACCAACTGACA	38	1849
					GCTAT
923906	N/A	N/A	11268	11283	ACAAGTTAAAT	16	1850
					GGTTC
923916	N/A	N/A	11889	11904	CATTTAGAAAA	122	1851
					ACGAG
923926	N/A	N/A	13842	13857	CCGATGGGCCT	72	1852
					TGTTA
923936	N/A	N/A	14033	14048	CAATAGTCTCT	82	1853
					GGTAC
923946	N/A	N/A	14938	14953	AATAGCAGGGC	82	1854
					AAATG
923956	N/A	N/A	15723	15738	CAGCGATGATA	38	1855
					GGAGA
923966	N/A	N/A	16042	16057	TCAGAGAAACC	107	1856
					CTAAG
923976	N/A	N/A	16689	16704	GAGCATGTTCC	44	1857
					ACTAC
923986	N/A	N/A	17749	17764	CAATATCTCCT	91	1858
					GGCAT
923996	N/A	N/A	19084	19099	AATGACGGGAA	69	1859
					AGGCA
924006	N/A	N/A	19170	19185	TTCAAACGGAT	90	1860
					TTATC
924016	N/A	N/A	19265	19280	GCATTGTACGA	34	1861
					TGAAG
924026	N/A	N/A	19729	19744	CACAAAGGCGA	89	1862
					TGAAG
924036	N/A	N/A	21347	21362	GAACTTATGTT	44	1863
					GAGTA
924046	N/A	N/A	21536	21551	AATAATGATTC	124	1864
					GAGTT
924056	N/A	N/A	23040	23055	CTCTATTGACT	97	1865
					TACTA
924066	N/A	N/A	23519	23534	TTCAAGTGCTT	67	1866
					ATCTA
924076	N/A	N/A	26402	26417	CTACGAGACCT	78	1867
					CACAT
924086	N/A	N/A	27617	27632	TATAGGTATGG	150	1868
					AAATC
924096	N/A	N/A	28847	28862	TCAGTATTCAC	110	1869
					CTCTG
924106	N/A	N/A	30167	30182	TTTGAGCGAGG	60	1870
					CACAT
924116	N/A	N/A	30647	30662	AAGAACTTAAA	46	1871
					GCCGA
924126	N/A	N/A	30913	30928	AAGTCATGCGC	51	1872
					TTTTA
924136	N/A	N/A	32699	32714	GCCGAGGAAAC	64	1873
					ACAAT
924146	N/A	N/A	35055	35070	CGTGATAAGCA	65	1874
					GTAAA
924156	N/A	N/A	3018	3033	AGTATATATCC	40	1875
					ACCTT
924166	N/A	N/A	5019	5034	ACTAATAGAGG	60	1876
					GCAGC
924176	N/A	N/A	5765	5780	GTCTTATAGAC	103	1877
					CATAA
924186	N/A	N/A	6326	6341	ACCGAAGGGAG	144	1878
					TAGAT
924196	N/A	N/A	6999	7014	CAACGGAACAT	97	1879
					CTTTT
924206	N/A	N/A	7838	7853	AGCTTTACTAA	100	1880
					CAATG
924216	N/A	N/A	8605	8620	ACACAGAAACG	119	1881
					ATTAT
924226	N/A	N/A	9213	9228	GGCTTAGCTAT	65	1882
					CATAC
924236	N/A	N/A	9986	10001	AGCAACTGGAT	145	1883
					TATGC
924246	N/A	N/A	10904	10919	AAGCAACGAGG	83	1884
					CAGAT
924256	N/A	N/A	11168	11183	TGTTAAACTCA	81	1885
					ATCAA
924266	N/A	N/A	11977	11992	TATCATAACGA	114	1886
					ATATC
924276	N/A	N/A	13647	13662	GACAAACGAGG	56	1887
					AAGCA
924286	N/A	N/A	14550	14565	TACCGATGCAT	88	1888
					TTCTA
924296	N/A	N/A	15427	15442	CCTTAGACAAT	99	1889
					GGAGG
924306	N/A	N/A	16183	16198	TGCAAGGGATG	97	1890
					TTTTC
924316	N/A	N/A	17566	17581	TCGGTATAGAG	56	1891
					GAATG
924326	N/A	N/A	18920	18935	CGCATTATGGA	48	1892
					AATGA
924336	N/A	N/A	19406	19421	GGATAATAGTA	55	1893
					AGCTG
924346	N/A	N/A	20357	20372	ACCTAGTGAGT	144	1894
					TAAGG
924356	N/A	N/A	21433	21448	GGCTAAACTAT	99	1895
					AGATT
924366	N/A	N/A	22391	22406	CAAATAACCCC	170	1896
					ACCTA
924376	N/A	N/A	22829	22844	TGCAAGATTCA	82	1897
					AGAGC
924386	N/A	N/A	23167	23182	TTGCAACGAAG	94	1898
					AAGAG
924396	N/A	N/A	24439	24454	AGTCAAGATAC	63	1899
					CACCT
924406	N/A	N/A	25223	25238	ACACACATGGG	69	1900
					ACAGC
924416	N/A	N/A	26074	26089	ATGCATTAAGA	93	1901
					TAGTA
924426	N/A	N/A	26784	26799	AAGAAAATGAC	87	1902
					GGCTA
924436	N/A	N/A	27183	27198	CCATATGTAAT	93	1903
					GGCTT
924446	N/A	N/A	27844	27859	TGTTAAAGAGG	154	1904
					GCCTG
924456	N/A	N/A	29329	29344	TGCAAGATGTA	167	1905
					AGATG
924466	N/A	N/A	29929	29944	GAGTAAGGGTA	101	1906
					ACTCT
924476	N/A	N/A	30243	30258	GTAAAATAACG	87	1907
					AGCCT
924486	N/A	N/A	30723	30738	ACTTAAGGGTT	157	1908
					CTTAT
924496	N/A	N/A	30824	30839	AGCAAGAGTGG	68	1909
					ATTAG
924506	N/A	N/A	31169	31184	GTGGAAAGATC	73	1910
					CTGCA
924516	N/A	N/A	32371	32386	GATTAGGGACA	131	1911
					GTTTA
924526	N/A	N/A	33693	33708	AGCTAACAGTA	125	1912
					TTGAA
924536	N/A	N/A	34215	34230	GAATTTCGAGA	100	1913
					GAGGG
924546	N/A	N/A	34830	34845	CCAAATACCCC	89	1914
					TAGTA
924556	N/A	N/A	35127	35142	CTAACTACACA	110	1915
					GCTTA
924566	N/A	N/A	35737	35752	TGTTAAGCCTG	117	1916
					TCCTC
924576	N/A	N/A	36434	36449	GATTAAGCTCC	76	1917
					ATGCA

TABLE 36
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	26	31
					CTCCA
923818	N/A	N/A	3546	3561	AACATACTCAG	41	1918
					GACTG
923828	N/A	N/A	4185	4200	TGTACTTGTAA	49	1919
					ACACT
923838	N/A	N/A	5950	5965	TTGAATTAAGC	60	1920
					CGATG
923848	N/A	N/A	7632	7647	GTTAAACAATC	69	1921
					TTGTC
923858	N/A	N/A	8999	9014	CAACGACATTC	48	1922
					TGGCT
923868	N/A	N/A	9500	9515	GAAATACGATC	29	1923
					TTCTG
923878	N/A	N/A	9723	9738	CTCTTAACATC	14	1924
					AATCG
923888	N/A	N/A	10452	10467	AGCGAGTACGG	58	1925
					AGACT
923897	N/A	N/A	10764	10779	TTCTAGCACCA	72	1926
					ACTGA
923907	N/A	N/A	11269	11284	GACAAGTTAAA	58	1927
					TGGTT
923917	N/A	N/A	12573	12588	AATCATGGATG	81	1928
					AGATG
923927	N/A	N/A	13851	13866	AGGTAGATTCC	36	1929
					GATGG
923937	N/A	N/A	14034	14049	GCAATAGTCTC	52	1930
					TGGTA
923947	N/A	N/A	14939	14954	CAATAGCAGGG	76	1931
					CAAAT
923957	N/A	N/A	15731	15746	TTTGAAGACAG	47	1932
					CGATG
923967	N/A	N/A	16064	16079	TACTAATTCCT	94	1933
					GGGTA
923977	N/A	N/A	17105	17120	GACTATGACCA	107	1934
					CAAAC
923987	N/A	N/A	17750	17765	ACAATATCTCC	49	1935
					TGGCA
923997	N/A	N/A	19085	19100	AAATGACGGGA	34	1936
					AAGGC
924007	N/A	N/A	19171	19186	TTTCAAACGGA	92	1937
					TTTAT
924017	N/A	N/A	19266	19281	TGCATTGTACG	40	1938
					ATGAA
924027	N/A	N/A	19730	19745	TCACAAAGGCG	91	1939
					ATGAA
924037	N/A	N/A	21464	21479	TCAAACCTAGT	85	1940
					GTGAC
924047	N/A	N/A	21537	21552	AAATAATGATT	106	1941
					CGAGT
924057	N/A	N/A	23045	23060	CAGCACTCTAT	58	1942
					TGACT
924067	N/A	N/A	23531	23546	ACACTATATGT	57	1943
					GTTCA
924077	N/A	N/A	26404	26419	TACTACGAGAC	82	1944
					CTCAC
924087	N/A	N/A	27618	27633	CTATAGGTATG	93	1945
					GAAAT
924097	N/A	N/A	29036	29051	AGTAGAATCTA	76	1946
					GGAAC
924107	N/A	N/A	30318	30333	ACTCAACCGTC	85	1947
					CCTGT
924117	N/A	N/A	30678	30693	ATGTAATGATG	47	1948
					TTGCT
924127	N/A	N/A	30916	30931	ACAAAGTCATG	81	1949
					CGCTT
924137	N/A	N/A	33221	33236	CTGAACAGGAT	62	1950
					GGCAC
924147	N/A	N/A	35062	35077	GCTTAACCGTG	72	1951
					ATAAG
924157	N/A	N/A	3367	3382	GTTTAATCAAT	60	1952
					AACCA
924167	N/A	N/A	5023	5038	TCCCACTAATA	136	1953
					GAGGG
924177	N/A	N/A	5834	5849	AGCAAGGCGAG	73	1954
					AACTG
924187	N/A	N/A	6327	6342	GACCGAAGGGA	83	1955
					GTAGA
924197	N/A	N/A	7001	7016	TGCAACGGAAC	117	1956
					ATCTT
924207	N/A	N/A	7900	7915	ATCTAATGGGC	76	1957
					TGGAC
924217	N/A	N/A	8709	8724	CGAAAAGCACC	86	1958
					CGCAT
924227	N/A	N/A	9463	9478	GCTTAGGGTTT	103	1959
					TGCAA
924237	N/A	N/A	10057	10072	TTATAATGCTT	88	1960
					CAGCT
924247	N/A	N/A	10909	10924	ACGGAAAGCAA	40	1961
					CGAGG
924257	N/A	N/A	11350	11365	ACAAATCGATG	38	1962
					TCAAT
924267	N/A	N/A	11981	11996	ACAATATCATA	54	1963
					ACGAA
924277	N/A	N/A	13648	13663	TGACAAACGAG	76	1964
					GAAGC
924287	N/A	N/A	14553	14568	ATATACCGATG	91	1965
					CATTT
924297	N/A	N/A	15621	15636	ACACAACCTAT	108	1966
					TGATA
924307	N/A	N/A	16465	16480	TAATAAGTTCC	92	1967
					CCATC
924317	N/A	N/A	17772	17787	AGCCGAGGTAA	93	1968
					TTTCT
924327	N/A	N/A	18921	18936	ACGCATTATGG	42	1969
					AAATG
924337	N/A	N/A	19407	19422	TGGATAATAGT	40	1970
					AAGCT
924347	N/A	N/A	20362	20377	CTACAACCTAG	97	1971
					TGAGT
924357	N/A	N/A	21485	21500	TACAAACCTGT	86	1972
					TCTAT
924367	N/A	N/A	22394	22409	GTGCAAATAAC	99	1973
					CCCAC
924377	N/A	N/A	22830	22845	GTGCAAGATTC	97	1974
					AAGAG
924387	N/A	N/A	23324	23339	AAAGAGTAAGG	62	1975
					TGCAC
924397	N/A	N/A	24685	24700	TACTAAGTTCC	110	1976
					TGGAT
924407	N/A	N/A	25445	25460	ATATAATAACA	103	1977
					TGGCC
924417	N/A	N/A	26227	26242	CTCGAATCAAA	54	1978
					TCAGA
924427	N/A	N/A	26785	26800	TAAGAAAATGA	74	1979
					CGGCT
924437	N/A	N/A	27185	27200	TGCCATATGTA	128	1980
					ATGGC
924447	N/A	N/A	27927	27942	CACTAGGAGTT	98	1981
					AAAGT
924457	N/A	N/A	29341	29356	TGCTAGGCAGA	87	1982
					ATGCA
924467	N/A	N/A	30000	30015	CTAAAACGAGT	67	1983
					GAGAA
924477	N/A	N/A	30244	30259	AGTAAAATAAC	61	1984
					GAGCC
924487	N/A	N/A	30724	30739	GACTTAAGGGT	49	1985
					TCTTA
924497	N/A	N/A	31079	31094	AACAACGGAGG	53	1986
					ACAGG
924507	N/A	N/A	31208	31223	TCCAAATAGAG	107	1987
					TTCCT
924517	N/A	N/A	32380	32395	TTACAGTGGGA	82	1988
					TTAGG
924527	N/A	N/A	33888	33903	GGTTAGTGAGT	65	1989
					CAAGA
924537	N/A	N/A	34217	34232	TGGAATTTCGA	53	1990
					GAGAG
924547	N/A	N/A	34868	34883	CAAGACAGTTA	91	1991
					ATGTC
924557	N/A	N/A	35129	35144	GACTAACTACA	99	1992
					CAGCT
924567	N/A	N/A	35759	35774	GAATACGCCAC	103	1993
					ATGAA
924577	N/A	N/A	36437	36452	AAGGATTAAGC	80	1994
					TCCAT

TABLE 37
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	28	31
					CTCCA
923819	N/A	N/A	3627	3642	AGTTAGATTTG	32	1995
					CTCTA
923829	N/A	N/A	4186	4201	GTGTACTTGTA	129	1996
					AACAC
923839	N/A	N/A	6163	6178	TTAGAGGACAT	95	1997
					GCATG
923849	N/A	N/A	7800	7815	CGACATGGGAC	59	1998
					CTGTG
923859	N/A	N/A	9001	9016	AGCAACGACAT	42	1999
					TCTGG
923869	N/A	N/A	9501	9516	AGAAATACGAT	84	2000
					CTTCT
923879	N/A	N/A	9754	9769	ACAAAAGATCA	97	2001
					TGTGG
923889	N/A	N/A	10457	10472	TCAGTAGCGAG	35	2002
					TACGG
923898	N/A	N/A	11251	11266	CAATGAGCATA	36	2003
					GTTCA
923908	N/A	N/A	11860	11875	TCAAAGTCAGT	55	2004
					TAGTT
923918	N/A	N/A	12576	12591	TTGAATCATGG	34	2005
					ATGAG
923928	N/A	N/A	13852	13867	CAGGTAGATTC	36	2006
					CGATG
923938	N/A	N/A	14214	14229	GTTCATATGGC	41	2007
					TGGCT
923948	N/A	N/A	14940	14955	TCAATAGCAGG	48	2008
					GCAAA
923958	N/A	N/A	15913	15928	AGATTATGGGT	84	2009
					TGGCT
923968	N/A	N/A	16067	16082	TCATACTAATT	46	2010
					CCTGG
923978	N/A	N/A	17107	17122	TGGACTATGAC	74	2011
					CACAA
923988	N/A	N/A	18453	18468	AAAACTAGAGA	58	2012
					GGGTG
923998	N/A	N/A	19090	19105	ATAGAAAATGA	61	2013
					CGGGA
924008	N/A	N/A	19172	19187	CTTTCAAACGG	55	2014
					ATTTA
924018	N/A	N/A	19322	19337	TAAGAATTGCT	28	2015
					CTTGG
924028	N/A	N/A	19731	19746	CTCACAAAGGC	90	2016
					GATGA
924038	N/A	N/A	21465	21480	ATCAAACCTAG	91	2017
					TGTGA
924048	N/A	N/A	21591	21606	TGCAAGCTATT	69	2018
					ATCTG
924058	N/A	N/A	23048	23063	ATGCAGCACTC	134	2019
					TATTG
924068	N/A	N/A	23537	23552	GTAATGACACT	58	2020
					ATATG
924078	N/A	N/A	26405	26420	CTACTACGAGA	64	2021
					CCTCA
924088	N/A	N/A	27619	27634	TCTATAGGTAT	75	2022
					GGAAA
924098	N/A	N/A	29046	29061	ATCAAAGCCCA	100	2023
					GTAGA
924108	N/A	N/A	30322	30337	TAACACTCAAC	83	2024
					CGTCC
924118	N/A	N/A	30894	30909	TCGGAATTCTG	94	2025
					CACTT
924128	N/A	N/A	30917	30932	GACAAAGTCAT	85	2026
					GCGCT
924138	N/A	N/A	33244	33259	ACTTAAGCCAC	83	2027
					CTTTG
924148	N/A	N/A	35063	35078	AGCTTAACCGT	97	2028
					GATAA
924158	N/A	N/A	3374	3389	CCCAATAGTTT	54	2029
					AATCA
924168	N/A	N/A	5227	5242	CTCGAAACCAG	27	2030
					AGGCG
924178	N/A	N/A	5835	5850	CAGCAAGGCGA	96	2031
					GAACT
924188	N/A	N/A	6397	6412	AGCCAGGACAC	112	2032
					GAACC
924198	N/A	N/A	7002	7017	CTGCAACGGAA	92	2033
					CATCT
924208	N/A	N/A	8392	8407	TGTTAAACTAA	109	2034
					GTCAC
924218	N/A	N/A	8710	8725	GCGAAAAGCAC	176	2035
					CCGCA
924228	N/A	N/A	9505	9520	GAGGAGAAATA	60	2036
					CGATC
924238	N/A	N/A	10234	10249	CAAGATTAAGC	69	2037
					ACTGT
924248	N/A	N/A	10913	10928	CCTCACGGAAA	60	2038
					GCAAC
924258	N/A	N/A	11351	11366	CACAAATCGAT	44	2039
					GTCAA
924268	N/A	N/A	11982	11997	TACAATATCAT	62	2040
					AACGA
924278	N/A	N/A	13760	13775	TAATTAGGTTT	48	2041
					GTGCT
924288	N/A	N/A	14554	14569	AATATACCGAT	90	2042
					GCATT
924298	N/A	N/A	15646	15661	ACCCAAAGCAT	89	2043
					TGATC
924308	N/A	N/A	16468	16483	AGGTAATAAGT	58	2044
					TCCCC
924318	N/A	N/A	18137	18152	GCACATCAGGC	65	2045
					ATGAA
924328	N/A	N/A	18929	18944	AAAAGAACACG	83	2046
					CATTA
924338	N/A	N/A	19408	19423	CTGGATAATAG	36	2047
					TAAGC
924348	N/A	N/A	20487	20502	AGATAGTGGGA	84	2048
					AGCTC
924358	N/A	N/A	21486	21501	TTACAAACCTG	115	2049
					TTCTA
924368	N/A	N/A	22401	22416	AAGGATAGTGC	55	2050
					AAATA
924378	N/A	N/A	22906	22921	CACAAGGACAG	82	2051
					CGAGA
924388	N/A	N/A	23326	23341	GAAAAGAGTAA	82	2052
					GGTGC
924398	N/A	N/A	24688	24703	ACATACTAAGT	69	2053
					TCCTG
924408	N/A	N/A	25485	25500	GTTTACATGAT	65	2054
					CTATG
924418	N/A	N/A	26242	26257	TGCCATAAGTT	50	2055
					ATTTC
924428	N/A	N/A	26832	26847	CACAACATATG	65	2056
					CTTCT
924438	N/A	N/A	27493	27508	GATGAAGGCTT	128	2057
					ACACT
924448	N/A	N/A	28580	28595	AACTAATCATT	86	2058
					CCGCA
924458	N/A	N/A	29428	29443	CTACATCTAGC	139	2059
					TCTTA
924468	N/A	N/A	30001	30016	ACTAAAACGAG	68	2060
					TGAGA
924478	N/A	N/A	30245	30260	CAGTAAAATAA	81	2061
					CGAGC
924488	N/A	N/A	30734	30749	TTACATGAGTG	64	2062
					ACTTA
924498	N/A	N/A	31080	31095	TAACAACGGAG	131	2063
					GACAG
924508	N/A	N/A	31230	31245	ACGATAAGGGA	53	2064
					ACCAG
924518	N/A	N/A	32489	32504	GCTATAGGTTC	113	2065
					TGAAA
924528	N/A	N/A	34013	34028	GAAACATGATC	88	2066
					AGACG
924538	N/A	N/A	34229	34244	AATATAGTTCG	53	2067
					ATGGA
924548	N/A	N/A	34871	34886	ACCCAAGACAG	95	2068
					TTAAT
924558	N/A	N/A	35132	35147	AGCGACTAACT	87	2069
					ACACA
924568	N/A	N/A	35873	35888	TCCCAATGCAC	90	2070
					CCGCG
924578	N/A	N/A	36462	36477	CATTATTGGAG	57	2071
					TCACG

TABLE 38
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	8	31
					CTCCA
923820	N/A	N/A	3787	3802	TTGTAACTCTG	14	2072
					ATAGG
923830	N/A	N/A	4791	4806	TGGATAGCATG	25	2073
					GTCTG
923840	N/A	N/A	6164	6179	GTTAGAGGACA	71	2074
					TGCAT
923850	N/A	N/A	7803	7818	AGCCGACATGG	72	2075
					GACCT
923860	N/A	N/A	9002	9017	CAGCAACGACA	71	2076
					TTCTG
923870	N/A	N/A	9502	9517	GAGAAATACGA	31	2077
					TCTTC
923880	N/A	N/A	9841	9856	GTATTTCCGTG	43	2078
					GCCTT
923890	N/A	N/A	10459	10474	TGTCAGTAGCG	80	2079
					AGTAC
923899	N/A	N/A	11252	11267	GCAATGAGCAT	18	2080
					AGTTC
923909	N/A	N/A	11862	11877	AGTCAAAGTCA	33	2081
					GTTAG
923919	N/A	N/A	12577	12592	CTTGAATCATG	68	2082
					GATGA
923929	N/A	N/A	13855	13870	ATTCAGGTAGA	70	2083
					TTCCG
923939	N/A	N/A	14221	14236	CCGAGATGTTC	30	2084
					ATATG
923949	N/A	N/A	14941	14956	TTCAATAGCAG	39	2085
					GGCAA
923959	N/A	N/A	15915	15930	AGAGATTATGG	27	2086
					GTTGG
923969	N/A	N/A	16113	16128	ATAGATTCCAG	40	2087
					GTCAT
923979	N/A	N/A	17354	17369	GTAGAGTCATC	44	2088
					TAGAA
923989	N/A	N/A	18518	18533	ATGATATGCTT	45	2089
					GCAAT
923999	N/A	N/A	19091	19106	CATAGAAAATG	47	2090
					ACGGG
924009	N/A	N/A	19252	19267	AAGGATATCAA	68	2091
					TCTCC
924019	N/A	N/A	19495	19510	CACTTTGACAT	50	2092
					CCATA
924029	N/A	N/A	19781	19796	ATTCATGCGGA	55	2093
					AAGCA
924039	N/A	N/A	21471	21486	ATTTAGATCAA	110	2094
					ACCTA
924049	N/A	N/A	21604	21619	GTTGGATTCGA	39	2095
					CATGC
924059	N/A	N/A	23201	23216	AATTGATGTCA	55	2096
					GTGGG
924069	N/A	N/A	23538	23553	CGTAATGACAC	43	2097
					TATAT
924079	N/A	N/A	26406	26421	ACTACTACGAG	66	2098
					ACCTC
924089	N/A	N/A	27620	27635	CTCTATAGGTA	38	2099
					TGGAA
924099	N/A	N/A	29051	29066	AGTCAATCAAA	59	2100
					GCCCA
924109	N/A	N/A	30325	30340	GTGTAACACTC	45	2101
					AACCG
924119	N/A	N/A	30898	30913	ACATTCGGAAT	74	2102
					TCTGC
924129	N/A	N/A	31091	31106	TTGACTGGGAT	73	2103
					TAACA
924139	N/A	N/A	33245	33260	GACTTAAGCCA	46	2104
					CCTTT
924149	N/A	N/A	35066	35081	CTAAGCTTAAC	80	2105
					CGTGA
924159	N/A	N/A	3415	3430	ATATATTGGGT	84	2106
					GCTAC
924169	N/A	N/A	5280	5295	CTTAAATGCGC	118	2107
					CTCAA
924179	N/A	N/A	6225	6240	AAGTAATGCGG	62	2108
					TCCTC
924189	N/A	N/A	6546	6561	AAAAGAATGGC	143	2109
					TCGAG
924199	N/A	N/A	7146	7161	CACTAGCGGAA	87	2110
					GGCCC
924209	N/A	N/A	8576	8591	TACTATAGTAG	61	2111
					AAGGA
924219	N/A	N/A	8712	8727	TGGCGAAAAGC	96	2112
					ACCCG
924229	N/A	N/A	9566	9581	CCTTAATTTGA	54	2113
					CCCTC
924239	N/A	N/A	10236	10251	GACAAGATTAA	36	2114
					GCACT
924249	N/A	N/A	11037	11052	TTAGATTAAGC	54	2115
					CTGAG
924259	N/A	N/A	11767	11782	CTAGATGTTAG	51	2116
					ACTGC
924269	N/A	N/A	12000	12015	GGCCGGAGAGG	139	2117
					CACTG
924279	N/A	N/A	13801	13816	CAATGAACGGC	91	2118
					CTCTG
924289	N/A	N/A	14555	14570	AAATATACCGA	70	2119
					TGCAT
924299	N/A	N/A	15752	15767	GATAAACAAGT	33	2120
					CTGGG
924309	N/A	N/A	16539	16554	CTCAATAGAGT	53	2121
					TGAAG
924319	N/A	N/A	18332	18347	TGCTTATGCAG	101	2122
					CTGGG
924329	N/A	N/A	18967	18982	TAATAGAGTTC	88	2123
					TCCTC
924339	N/A	N/A	19431	19446	AGCCACTGAGG	89	2124
					TACCT
924349	N/A	N/A	20550	20565	ATAAGAGCTGC	70	2125
					TGACA
924359	N/A	N/A	21491	21506	GTCAATTACAA	35	2126
					ACCTG
924369	N/A	N/A	22404	22419	TTAAAGGATAG	87	2127
					TGCAA
924379	N/A	N/A	22907	22922	ACACAAGGACA	114	2128
					GCGAG
924389	N/A	N/A	23938	23953	TCGCATCATTA	30	2129
					ACAAA
924399	N/A	N/A	24741	24756	CATCAACAAGT	79	2130
					TAGAC
924409	N/A	N/A	25683	25698	TAATAGATACA	118	2131
					CCTAA
924419	N/A	N/A	26257	26272	TACAATTGAGC	77	2132
					TCTTT
924429	N/A	N/A	26835	26850	AAGCACAACAT	140	2133
					ATGCT
924439	N/A	N/A	27503	27518	CACCAGACGGG	92	2134
					ATGAA
924449	N/A	N/A	28588	28603	TTCTACTAAAC	107	2135
					TAATC
924459	N/A	N/A	29455	29470	TATGAATTTGG	86	2136
					ACCAC
924469	N/A	N/A	30002	30017	AACTAAAACGA	49	2137
					GTGAG
924479	N/A	N/A	30349	30364	ATAAGAAGTAC	53	2138
					CTCAC
924489	N/A	N/A	30794	30809	TCGCAATACCT	53	2139
					AGGAG
924499	N/A	N/A	31081	31096	TTAACAACGGA	72	2140
					GGACA
924509	N/A	N/A	31231	31246	CACGATAAGGG	30	2141
					AACCA
924519	N/A	N/A	32490	32505	GGCTATAGGTT	78	2142
					CTGAA
924529	N/A	N/A	34098	34113	CACTAAGGGTC	94	2143
					AGGAA
924539	N/A	N/A	34230	34245	CAATATAGTTC	56	2144
					GATGG
924549	N/A	N/A	34933	34948	CAATAGATGTA	117	2145
					CCCTG
924559	N/A	N/A	35334	35349	TGTTAACAGAG	67	2146
					TGCTA
924569	N/A	N/A	36067	36082	GCTCAAACTGA	110	2147
					TGGCC
924579	N/A	N/A	36517	36532	CTACAAGTGAG	96	2148
					TGGTG

TABLE 39
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	13	31
					CTCCA
886954	N/A	N/A	10717	10732	GTCAATCTGTA	13	2149
					ACATG
923821	N/A	N/A	3797	3812	CTAAAGTAGCT	106	2150
					TGTAA
923831	N/A	N/A	4794	4809	TACTGGATAGC	37	2151
					ATGGT
923841	N/A	N/A	7573	7588	CTTAAATAGAG	95	2152
					ACCTG
923851	N/A	N/A	7807	7822	ATAAAGCCGAC	67	2153
					ATGGG
923861	N/A	N/A	9103	9118	GTGAATCACAA	61	2154
					TGATG
923871	N/A	N/A	9709	9724	CGCTATGGCCT	34	2155
					ACCCA
923881	N/A	N/A	9845	9860	AGCTGTATTTC	21	2156
					CGTGG
923900	N/A	N/A	11253	11268	CGCAATGAGCA	24	2157
					TAGTT
923910	N/A	N/A	11866	11881	GCGGAGTCAAA	20	2158
					GTCAG
923920	N/A	N/A	12665	12680	TTGTAAATAGG	55	2159
					TGTAG
923930	N/A	N/A	14018	14033	CACGAGAGTTG	70	2160
					TTCAA
923940	N/A	N/A	14222	14237	CCCGAGATGTT	49	2161
					CATAT
923950	N/A	N/A	14942	14957	ATTCAATAGCA	34	2162
					GGGCA
923960	N/A	N/A	15917	15932	GTAGAGATTAT	40	2163
					GGGTT
923970	N/A	N/A	16116	16131	ACTATAGATTC	44	2164
					CAGGT
923980	N/A	N/A	17582	17597	CAACATTGAAT	56	2165
					ACCCT
923990	N/A	N/A	18522	18537	GTCAATGATAT	23	2166
					GCTTG
924000	N/A	N/A	19159	19174	TTATCAGGAGA	54	2167
					CTTGT
924010	N/A	N/A	19253	19268	GAAGGATATCA	45	2168
					ATCTC
924020	N/A	N/A	19587	19602	AGCTAACTTTG	82	2169
					ATACA
924030	N/A	N/A	19785	19800	TATGATTCATG	42	2170
					CGGAA
924040	N/A	N/A	21472	21487	TATTTAGATCA	95	2171
					AACCT
924050	N/A	N/A	21610	21625	AAGCAGGTTGG	31	2172
					ATTCG
924060	N/A	N/A	23206	23221	TGTCAAATTGA	44	2173
					TGTCA
924070	N/A	N/A	23718	23733	TAATATCAGCA	70	2174
					GAACA
924080	N/A	N/A	26407	26422	AACTACTACGA	83	2175
					GACCT
924090	N/A	N/A	27621	27636	TCTCTATAGGT	41	2176
					ATGGA
924100	N/A	N/A	29055	29070	CAACAGTCAAT	106	2177
					CAAAG
924110	N/A	N/A	30637	30652	AGCCGAAACAG	70	2178
					CTCAG
924120	N/A	N/A	30899	30914	TACATTCGGAA	59	2179
					TTCTG
924130	N/A	N/A	31471	31486	GGGCATGCACG	60	2180
					CTTGT
924140	N/A	N/A	33251	33266	GTATTTGACTT	35	2181
					AAGCC
924150	N/A	N/A	35193	35208	AGGAGATACCA	87	2182
					GATTC
924160	N/A	N/A	3416	3431	CATATATTGGG	32	2183
					TGCTA
924170	N/A	N/A	5409	5424	TTTAACGGGAA	156	2184
					CAACG
924180	N/A	N/A	6228	6243	CCCAAGTAATG	61	2185
					CGGTC
924190	N/A	N/A	6547	6562	GAAAAGAATGG	100	2186
					CTCGA
924200	N/A	N/A	7149	7164	GCGCACTAGCG	121	2187
					GAAGG
924210	N/A	N/A	8579	8594	GTTTACTATAG	65	2188
					TAGAA
924220	N/A	N/A	8717	8732	AGGGATGGCGA	99	2189
					AAAGC
924230	N/A	N/A	9882	9897	ATATACTGGAT	103	2190
					CTATG
924240	N/A	N/A	10237	10252	AGACAAGATTA	42	2191
					AGCAC
924250	N/A	N/A	11039	11054	ATTTAGATTAA	58	2192
					GCCTG
924260	N/A	N/A	11780	11795	CAAACTACACA	37	2193
					ACCTA
924270	N/A	N/A	12103	12118	TCCAAGGGAGT	66	2194
					GATTC
924280	N/A	N/A	13804	13819	GACCAATGAAC	68	2195
					GGCCT
924290	N/A	N/A	14556	14571	AAAATATACCG	60	2196
					ATGCA
924300	N/A	N/A	15753	15768	TGATAAACAAG	40	2197
					TCTGG
924310	N/A	N/A	16540	16555	GCTCAATAGAG	52	2198
					TTGAA
924320	N/A	N/A	18565	18580	GACTACTAGTT	68	2199
					TTTCC
924330	N/A	N/A	19016	19031	CGCTTAGTTTT	59	2200
					AAGAT
924340	N/A	N/A	19439	19454	TAACACGCAGC	78	2201
					CACTG
924350	N/A	N/A	20552	20567	GTATAAGAGCT	70	2202
					GCTGA
924360	N/A	N/A	21492	21507	TGTCAATTACA	89	2203
					AACCT
924370	N/A	N/A	22444	22459	GTCATAATGAT	28	2204
					CAAAC
924380	N/A	N/A	22909	22924	CTACACAAGGA	81	2205
					CAGCG
924390	N/A	N/A	23993	24008	GACAATACATA	70	2206
					GTGTT
924400	N/A	N/A	24897	24912	AAAGAGTGAAC	101	2207
					TACAC
924410	N/A	N/A	25684	25699	ATAATAGATAC	67	2208
					ACCTA
924420	N/A	N/A	26258	26273	TTACAATTGAG	54	2209
					CTCTT
924430	N/A	N/A	27039	27054	AAATTAGGTTA	98	2210
					ACTGT
924440	N/A	N/A	27591	27606	GACAACCCGTA	76	2211
					TTTTT
924450	N/A	N/A	28904	28919	GCATAATGTAA	55	2212
					TCTAC
924460	N/A	N/A	29478	29493	TGGTACATATG	66	2213
					AAGTT
924470	N/A	N/A	30004	30019	CAAACTAAAAC	40	2214
					GAGTG
924480	N/A	N/A	30444	30459	GTAAATCAGTT	31	2215
					CCAAT
924490	N/A	N/A	30799	30814	TTAAATCGCAA	78	2216
					TACCT
924500	N/A	N/A	31082	31097	ATTAACAACGG	54	2217
					AGGAC
924510	N/A	N/A	31232	31247	ACACGATAAGG	30	2218
					GAACC
924520	N/A	N/A	32500	32515	AGGAATAGATG	49	2219
					GCTAT
924530	N/A	N/A	34116	34131	ATAATAGGCTG	90	2220
					ATTAG
924540	N/A	N/A	34231	34246	TCAATATAGTT	48	2221
					CGATG
924550	N/A	N/A	34935	34950	AGCAATAGATG	40	2222
					TACCC
924560	N/A	N/A	35565	35580	GGTTAATTGTT	71	2223
					GATTG
924570	N/A	N/A	36172	36187	TGGATATGCAG	68	2224
					GTGGG
924580	N/A	N/A	36532	36547	AATCTATATGC	79	2225
					CACTC

TABLE 40
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	13	31
					CTCCA
923822	N/A	N/A	3799	3814	CACTAAAGTAG	42	2226
					CTTGT
923832	N/A	N/A	4799	4814	CCGACTACTGG	39	2227
					ATAGC
923842	N/A	N/A	7574	7589	GCTTAAATAGA	77	2228
					GACCT
923852	N/A	N/A	7808	7823	CATAAAGCCGA	89	2229
					CATGG
923862	N/A	N/A	9108	9123	GTAGAGTGAAT	22	2230
					CACAA
923872	N/A	N/A	9716	9731	CATCAATCGCT	48	2231
					ATGGC
923882	N/A	N/A	10027	10042	GTATTACTGGG	38	2232
					TACTG
923891	N/A	N/A	10718	10733	TGTCAATCTGT	57	2233
					AACAT
923901	N/A	N/A	11261	11276	AAATGGTTCGC	46	2234
					AATGA
923911	N/A	N/A	11871	11886	GGCAGGCGGAG	64	2235
					TCAAA
923921	N/A	N/A	12771	12786	AAAGTATTCCA	52	2236
					CACCA
923931	N/A	N/A	14019	14034	ACACGAGAGTT	58	2237
					GTTCA
923941	N/A	N/A	14223	14238	CCCCGAGATGT	50	2238
					TCATA
923951	N/A	N/A	15532	15547	TAGTAAGTGGT	97	2239
					CATCT
923961	N/A	N/A	16004	16019	CAACACATTCC	40	2240
					GTCCT
923971	N/A	N/A	16118	16133	AGACTATAGAT	17	2241
					TCCAG
923981	N/A	N/A	17584	17599	CACAACATTGA	51	2242
					ATACC
923991	N/A	N/A	18523	18538	AGTCAATGATA	42	2243
					TGCTT
924001	N/A	N/A	19163	19178	GGATTTATCAG	21	2244
					GAGAC
924011	N/A	N/A	19254	19269	TGAAGGATATC	72	2245
					AATCT
924021	N/A	N/A	19595	19610	GGTATTCCAGC	38	2246
					TAACT
924031	N/A	N/A	19786	19801	CTATGATTCAT	24	2247
					GCGGA
924041	N/A	N/A	21473	21488	CTATTTAGATC	80	2248
					AAACC
924051	N/A	N/A	21733	21748	CTTAACAACTA	101	2249
					CTCAA
924061	N/A	N/A	23216	23231	GCCAAAGTTGT	44	2250
					GTCAA
924071	N/A	N/A	25141	25156	CTCAACATATA	56	2251
					CCTAA
924081	N/A	N/A	26409	26424	GAAACTACTAC	63	2252
					GAGAC
924091	N/A	N/A	27629	27644	AGGTATGCTCT	40	2253
					CTATA
924101	N/A	N/A	29158	29173	ATTAAGGAGAC	101	2254
					CTCTC
924111	N/A	N/A	30642	30657	CTTAAAGCCGA	90	2255
					AACAG
924121	N/A	N/A	30900	30915	TTACATTCGGA	70	2256
					ATTCT
924131	N/A	N/A	31473	31488	CCGGGCATGCA	98	2257
					CGCTT
924141	N/A	N/A	34300	34315	CAAGATAAGTG	57	2258
					AGACA
924151	N/A	N/A	35199	35214	ACTAAGAGGAG	81	2259
					ATACC
924161	N/A	N/A	3894	3909	ACATAATAAGG	86	2260
					GCCCA
924171	N/A	N/A	5410	5425	CTTTAACGGGA	109	2261
					ACAAC
924181	N/A	N/A	6229	6244	TCCCAAGTAAT	80	2262
					GCGGT
924191	N/A	N/A	6566	6581	AGCCAGAGTAG	101	2263
					TGTGG
924201	N/A	N/A	7554	7569	AGCTAACCCAG	70	2264
					CCCAG
924211	N/A	N/A	8597	8612	ACGATTATGTG	31	2265
					CAGAG
924221	N/A	N/A	8784	8799	AATCAGATAGA	92	2266
					TATCC
924231	N/A	N/A	9884	9899	ATATATACTGG	113	2267
					ATCTA
924241	N/A	N/A	10391	10406	AGAAACCGGAT	40	2268
					GCTGT
924251	N/A	N/A	11078	11093	AGATAACCACT	61	2269
					ACTGG
924261	N/A	N/A	11931	11946	CACGAGGCAGA	92	2270
					TAAGG
924271	N/A	N/A	12340	12355	TCCTAATCCTA	120	2271
					ACCAG
924281	N/A	N/A	13959	13974	CCCGAAGTGGG	N.D.	2272
					AAGTT
924291	N/A	N/A	14557	14572	GAAAATATACC	39	2273
					GATGC
924301	N/A	N/A	15756	15771	AATTGATAAAC	76	2274
					AAGTC
924311	N/A	N/A	16553	16568	GTACATAGGAC	71	2275
					AGGCT
924321	N/A	N/A	18568	18583	CCAGACTACTA	65	2276
					GTTTT
924331	N/A	N/A	19024	19039	GAATAATTCGC	62	2277
					TTAGT
924341	N/A	N/A	19445	19460	AGGGAATAACA	39	2278
					CGCAG
924351	N/A	N/A	20553	20568	GGTATAAGAGC	57	2279
					TGCTG
924361	N/A	N/A	21557	21572	AAACAAGTCAG	90	2280
					CTGTA
924371	N/A	N/A	22642	22657	GTCCAAGGTAA	84	2281
					GGGTC
924381	N/A	N/A	22952	22967	ACAACAAGGGA	60	2282
					TTTTC
924391	N/A	N/A	24024	24039	ATCATATAAAC	47	2283
					CAGTG
924401	N/A	N/A	24995	25010	TATATAGAGAG	90	2284
					CCACA
924411	N/A	N/A	25707	25722	AGACATTGTAG	41	2285
					CTATA
924421	N/A	N/A	26487	26502	GACAATATCTT	78	2286
					AGATT
924431	N/A	N/A	27040	27055	CAAATTAGGTT	51	2287
					AACTG
924441	N/A	N/A	27694	27709	ACGGGAATGGC	30	2288
					TGTTA
924451	N/A	N/A	28905	28920	GGCATAATGTA	54	2289
					ATCTA
924461	N/A	N/A	29641	29656	ATACAACCCTA	125	2290
					TTTAC
924471	N/A	N/A	30065	30080	CATATTATCTT	31	2291
					GAGGG
924481	N/A	N/A	30477	30492	ATACATGGTGC	60	2292
					AAATT
924491	N/A	N/A	30801	30816	ACTTAAATCGC	76	2293
					AATAC
924501	N/A	N/A	31083	31098	GATTAACAACG	55	2294
					GAGGA
924511	N/A	N/A	31300	31315	TCTAATTACTA	100	2295
					ACTTC
924521	N/A	N/A	32505	32520	TGTCAAGGAAT	76	2296
					AGATG
924531	N/A	N/A	34117	34132	TATAATAGGCT	110	2297
					GATTA
924541	N/A	N/A	34232	34247	TTCAATATAGT	63	2298
					TCGAT
924551	N/A	N/A	34936	34951	AAGCAATAGAT	70	2299
					GTACC
924561	N/A	N/A	35575	35590	AATCATTGCGG	90	2300
					GTTAA
924571	N/A	N/A	36244	36259	GATCAAAGGCA	106	2301
					AGCTC
924581	N/A	N/A	36536	36551	TGGAAATCTAT	83	2302
					ATGCC

TABLE 41
Percent control of human PMP22 RNA with
3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
Com-	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
pound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGT	16	31
					CTCCA
923823	N/A	N/A	3800	3815	GCACTAAAGTA	50	2303
					GCTTG
923833	N/A	N/A	4800	4815	GCCGACTACTG	93	2304
					GATAG
923843	N/A	N/A	7575	7590	GGCTTAAATAG	28	2305
					AGACC
923853	N/A	N/A	7809	7824	CCATAAAGCCG	90	2306
					ACATG
923863	N/A	N/A	9484	9499	GATTAAGGACC	100	2307
					CCAAG
923873	N/A	N/A	9717	9732	ACATCAATCGC	53	2308
					TATGG
923883	N/A	N/A	10207	10222	TAGGACTGGGA	63	2309
					CCTTT
923892	N/A	N/A	10739	10754	CCAACGGCAGA	55	2310
					AGACA
923902	N/A	N/A	11262	11277	TAAATGGTTCG	100	2311
					CAATG
923912	N/A	N/A	11878	11893	ACGAGAAGGCA	42	2312
					GGCGG
923922	N/A	N/A	12816	12831	AAAGAGTATGA	53	2313
					TTGGG
923932	N/A	N/A	14020	14035	TACACGAGAGT	96	2314
					TGTTC
923942	N/A	N/A	14236	14251	CTGTATGGAAC	64	2315
					CTCCC
923952	N/A	N/A	15718	15733	ATGATAGGAGA	60	2316
					CCACC
923962	N/A	N/A	16005	16020	ACAACACATTC	42	2317
					CGTCC
923972	N/A	N/A	16402	16417	CTCGATGGGAT	81	2318
					AGGAA
923982	N/A	N/A	17586	17601	ACCACAACATT	60	2319
					GAATA
923992	N/A	N/A	18707	18722	ATGCAATGTGC	71	2320
					AGGTC
924002	N/A	N/A	19165	19180	ACGGATTTATC	10	2321
					AGGAG
924012	N/A	N/A	19257	19272	CGATGAAGGAT	78	2322
					ATCAA
924022	N/A	N/A	19596	19611	AGGTATTCCAG	35	2323
					CTAAC
924032	N/A	N/A	19789	19804	TGCCTATGATT	87	2324
					CATGC
924042	N/A	N/A	21528	21543	TTCGAGTTCAG	55	2325
					AGAAA
924052	N/A	N/A	21735	21750	TTCTTAACAAC	80	2326
					TACTC
924062	N/A	N/A	23457	23472	AAGGACATTGA	58	2327
					TTGTA
924072	N/A	N/A	25152	25167	AATGATGTAGG	44	2328
					CTCAA
924082	N/A	N/A	26410	26425	AGAAACTACTA	89	2329
					CGAGA
924092	N/A	N/A	27633	27648	AGAAAGGTATG	41	2330
					CTCTC
924102	N/A	N/A	29160	29175	AGATTAAGGAG	101	2331
					ACCTC
924112	N/A	N/A	30643	30658	ACTTAAAGCCG	100	2332
					AAACA
924122	N/A	N/A	30901	30916	TTTACATTCGG	86	2333
					AATTC
924132	N/A	N/A	31566	31581	AGATAATGCAG	83	2334
					CCCTC
924142	N/A	N/A	34302	34317	ACCAAGATAAG	85	2335
					TGAGA
924152	N/A	N/A	35200	35215	GACTAAGAGGA	98	2336
					GATAC
924162	N/A	N/A	4736	4751	ACCGAATAAGC	41	2337
					TCTAG
924172	N/A	N/A	5754	5769	CATAAAGGCTC	74	2338
					TCCTC
924182	N/A	N/A	6266	6281	CGAGAATTTCA	113	2339
					GCCGG
924192	N/A	N/A	6631	6646	GAGGAACGGTC	97	2340
					CTGGC
924202	N/A	N/A	7571	7586	TAAATAGAGAC	85	2341
					CTGCG
924212	N/A	N/A	8598	8613	AACGATTATGT	82	2342
					GCAGA
924222	N/A	N/A	8925	8940	GGACAAGCTCA	98	2343
					TGGAG
924232	N/A	N/A	9885	9900	CATATATACTG	124	2344
					GATCT
924242	N/A	N/A	10392	10407	GAGAAACCGGA	57	2345
					TGCTG
924252	N/A	N/A	11079	11094	GAGATAACCAC	55	2346
					TACTG
924262	N/A	N/A	11932	11947	ACACGAGGCAG	94	2347
					ATAAG
924272	N/A	N/A	12357	12372	CTCTTATACAC	30	2348
					AATCA
924282	N/A	N/A	14136	14151	GTCTTATATAG	54	2349
					TTCTT
924292	N/A	N/A	14558	14573	TGAAAATATAC	92	2350
					CGATG
924302	N/A	N/A	15798	15813	AGGAAATTGTC	53	2351
					TGGTG
924312	N/A	N/A	16815	16830	CTATAACTGGT	109	2352
					CCTTC
924322	N/A	N/A	18747	18762	CACAATTACAT	71	2353
					CCTGA
924332	N/A	N/A	19025	19040	GGAATAATTCG	45	2354
					CTTAG
924342	N/A	N/A	19759	19774	ATGGAGACAAC	59	2355
					TATGT
924352	N/A	N/A	20554	20569	CGGTATAAGAG	75	2356
					CTGCT
924362	N/A	N/A	21796	21811	TAGCAAACTAT	123	2357
					CTATA
924372	N/A	N/A	22698	22713	GCGCAGTAAGA	114	2358
					GACAG
924382	N/A	N/A	23007	23022	ACTCAAAGGGC	113	2359
					TAGTG
924392	N/A	N/A	24025	24040	CATCATATAAA	55	2360
					CCAGT
924402	N/A	N/A	25055	25070	AGATAATTCCT	91	2361
					CGGAT
924412	N/A	N/A	26016	26031	CTCATAAGATA	74	2362
					TGGAA
924422	N/A	N/A	26488	26503	AGACAATATCT	122	2363
					TAGAT
924432	N/A	N/A	27042	27057	TGCAAATTAGG	88	2364
					TTAAC
924442	N/A	N/A	27703	27718	GTAAAGATCAC	73	2365
					GGGAA
924452	N/A	N/A	28906	28921	AGGCATAATGT	92	2366
					AATCT
924462	N/A	N/A	29670	29685	CAACATCTAAC	107	2367
					CTTGG
924472	N/A	N/A	30122	30137	CGCTTATGAAA	54	2368
					CTAAC
924482	N/A	N/A	30479	30494	TAATACATGGT	111	2369
					GCAAA
924492	N/A	N/A	30802	30817	TACTTAAATCG	128	2370
					CAATA
924502	N/A	N/A	31084	31099	GGATTAACAAC	60	2371
					GGAGG
924512	N/A	N/A	31301	31316	CTCTAATTACT	119	2372
					AACTT
924522	N/A	N/A	32515	32530	CAACAGATCTT	116	2373
					GTCAA
924532	N/A	N/A	34119	34134	CATATAATAGG	82	2374
					CTGAT
924542	N/A	N/A	34233	34248	TTTCAATATAG	97	2375
					TTCGA
924552	N/A	N/A	34956	34971	TACAAGATTGT	82	2376
					CTGCA
924562	N/A	N/A	35580	35595	AGCGAAATCAT	84	2377
					TGCGG
924572	N/A	N/A	36300	36315	GAATAAGGATG	134	2378
					CAGCC
924582	N/A	N/A	36616	36631	CACTACATGGC	161	2379
					CAGCA

TABLE 42
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	19	31
923824	N/A	N/A	4165	4180	TTACAGTGCCCGTTAT	88	2380
923834	N/A	N/A	5282	5297	GCCTTAAATGCGCCTC	57	2381
923844	N/A	N/A	7598	7613	CTAGATCGGCTCTGAA	138	2382
923854	N/A	N/A	7927	7942	CTTCATCGCCAAGAAA	77	2383
923864	N/A	N/A	9485	9500	GGATTAAGGACCCCAA	89	2384
923874	N/A	N/A	9719	9734	TAACATCAATCGCTAT	88	2385
923884	N/A	N/A	10357	10372	TGCTACGGTCACATTC	67	2386
923893	N/A	N/A	10741	10756	TTCCAACGGCAGAAGA	81	2387
923903	N/A	N/A	11263	11278	TTAAATGGTTCGCAAT	56	2388
923913	N/A	N/A	11879	11894	AACGAGAAGGCAGGCG	42	2389
923923	N/A	N/A	12850	12865	ATGGAACTGCATAGGG	45	2390
923933	N/A	N/A	14021	14036	GTACACGAGAGTTGTT	108	2391
923943	N/A	N/A	14251	14266	CACTTGACGGTCCTTC	81	2392
923953	N/A	N/A	15719	15734	GATGATAGGAGACCAC	63	2393
923963	N/A	N/A	16006	16021	GACAACACATTCCGTC	90	2394
923973	N/A	N/A	16403	16418	GCTCGATGGGATAGGA	81	2395
923983	N/A	N/A	17587	17602	CACCACAACATTGAAT	116	2396
923993	N/A	N/A	19066	19081	TGCAATTGCAGTCATG	108	2397
924003	N/A	N/A	19166	19181	AACGGATTTATCAGGA	46	2398
924013	N/A	N/A	19259	19274	TACGATGAAGGATATC	59	2399
924023	N/A	N/A	19613	19628	AAGGAATCTTCATGTC	46	2400
924033	N/A	N/A	19797	19812	GCTAACTTTGCCTATG	91	2401
924043	N/A	N/A	21533	21548	AATGATTCGAGTTCAG	40	2402
924053	N/A	N/A	21745	21760	TCATACGGTCTTCTTA	114	2403
924063	N/A	N/A	23511	23526	CTTATCTACTATATCC	66	2404
924073	N/A	N/A	25153	25168	AAATGATGTAGGCTCA	59	2405
924083	N/A	N/A	26411	26426	CAGAAACTACTACGAG	91	2406
924093	N/A	N/A	27634	27649	AAGAAAGGTATGCTCT	54	2407
924103	N/A	N/A	29827	29842	TCATAAGACATGTGTA	68	2408
924113	N/A	N/A	30644	30659	AACTTAAAGCCGAAAC	84	2409
924123	N/A	N/A	30902	30917	TTTTACATTCGGAATT	88	2410
924133	N/A	N/A	32454	32469	CCAGACGCAGGATCAG	51	2411
924143	N/A	N/A	34303	34318	TACCAAGATAAGTGAG	81	2412
924153	N/A	N/A	35911	35926	ATCCAGTATGCCGTGT	47	2413
924163	N/A	N/A	4846	4861	ATCTAGCGGGCTCCTC	113	2414
924173	N/A	N/A	5757	5772	GACCATAAAGGCTCTC	75	2415
924183	N/A	N/A	6268	6283	TCCGAGAATTTCAGCC	58	2416
924193	N/A	N/A	6712	6727	GGCGAGGAGGCTGGTT	155	2417
924203	N/A	N/A	7659	7674	AACGAGGCTGCATCAA	39	2418
924213	N/A	N/A	8599	8614	AAACGATTATGTGCAG	90	2419
924223	N/A	N/A	9067	9082	AGCGAGATCACCACCC	83	2420
924233	N/A	N/A	9886	9901	ACATATATACTGGATC	99	2421
924243	N/A	N/A	10437	10452	TCCCATCCGGAGTGCT	109	2422
924253	N/A	N/A	11084	11099	CGGCAGAGATAACCAC	76	2423
924263	N/A	N/A	11934	11949	CCACACGAGGCAGATA	95	2424
924273	N/A	N/A	12693	12708	GCCGAATGACTATATT	95	2425
924283	N/A	N/A	14290	14305	CTCAACTACGCCAAGC	82	2426
924293	N/A	N/A	14559	14574	CTGAAAATATACCGAT	74	2427
924303	N/A	N/A	15799	15814	AAGGAAATTGTCTGGT	35	2428
924313	N/A	N/A	17033	17048	CCAGAATGAGCTTACA	74	2429
924323	N/A	N/A	18748	18763	CCACAATTACATCCTG	82	2430
924333	N/A	N/A	19026	19041	GGGAATAATTCGCTTA	61	2431
924343	N/A	N/A	19930	19945	TCCTAAACAATGTGGC	105	2432
924353	N/A	N/A	21208	21223	AACTAAAGCTCTGGCC	154	2433
924363	N/A	N/A	21801	21816	ACAGATAGCAAACTAT	100	2434
924373	N/A	N/A	22707	22722	TAACAACCAGCGCAGT	119	2435
924383	N/A	N/A	23032	23047	ACTTACTAAGAGTCAG	78	2436
924393	N/A	N/A	24116	24131	AAATATGGTGTTAATC	92	2437
924403	N/A	N/A	25196	25211	ACTATAAGGGCAACAA	86	2438
924413	N/A	N/A	26066	26081	AGATAGTAAGTCTATC	116	2439
924423	N/A	N/A	26772	26787	GCTAATGGGTTGTGAG	106	2440
924433	N/A	N/A	27043	27058	GTGCAAATTAGGTTAA	62	2441
924443	N/A	N/A	27705	27720	AGGTAAAGATCACGGG	51	2442
924453	N/A	N/A	28951	28966	GATAACTACTTTGCTA	103	2443
924463	N/A	N/A	29686	29701	TTCTAGACAAGGTCAC	36	2444
924473	N/A	N/A	30240	30255	AAATAACGAGCCTGTA	100	2445
924483	N/A	N/A	30481	30496	AATAATACATGGTGCA	N.D.	2446
924493	N/A	N/A	30804	30819	TATACTTAAATCGCAA	96	2447
924503	N/A	N/A	31085	31100	GGGATTAACAACGGAG	72	2448
924513	N/A	N/A	31374	31389	TGTTAAGTTGTCACTT	79	2449
924523	N/A	N/A	33291	33306	ATCCATAATCATCCGT	39	2450
924533	N/A	N/A	34122	34137	TCTCATATAATAGGCT	109	2451
924543	N/A	N/A	34396	34411	GTACATCCTTATCATC	165	2452
924553	N/A	N/A	34959	34974	TATTACAAGATTGTCT	121	2453
924563	N/A	N/A	35623	35638	ACCTACAGGAAGTTCA	81	2454
924573	N/A	N/A	36369	36384	AAGCAAGCAATGCCTA	102	2455
924583	N/A	N/A	36619	36634	CCACACTACATGGCCA	124	2456

TABLE 43
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	31	31
923825	N/A	N/A	4166	4181	TTTACAGTGCCCGTTA	58	2457
923835	N/A	N/A	5828	5843	GCGAGAACTGGGCCGC	62	2458
923845	N/A	N/A	7599	7614	CCTAGATCGGCTCTGA	41	2459
923855	N/A	N/A	7929	7944	ATCTTCATCGCCAAGA	86	2460
923865	N/A	N/A	9486	9501	TGGATTAAGGACCCCA	42	2461
923875	N/A	N/A	9720	9735	TTAACATCAATCGCTA	102	2462
923885	N/A	N/A	10449	10464	GAGTACGGAGACTCCC	63	2463
923894	N/A	N/A	10745	10760	CTATTTCCAACGGCAG	23	2464
923904	N/A	N/A	11264	11279	GTTAAATGGTTCGCAA	56	2465
923914	N/A	N/A	11880	11895	AAACGAGAAGGCAGGC	142	2466
923924	N/A	N/A	12854	12869	ACTTATGGAACTGCAT	78	2467
923934	N/A	N/A	14023	14038	TGGTACACGAGAGTTG	86	2468
923944	N/A	N/A	14254	14269	TTGCACTTGACGGTCC	124	2469
923954	N/A	N/A	15720	15735	CGATGATAGGAGACCA	71	2470
923964	N/A	N/A	16009	16024	GTTGACAACACATTCC	104	2471
923974	N/A	N/A	16440	16455	ATGAACATGTGGTAGG	89	2472
923984	N/A	N/A	17601	17616	GTAACTGTATTCAGCA	69	2473
923994	N/A	N/A	19067	19082	TTGCAATTGCAGTCAT	83	2474
924004	N/A	N/A	19167	19182	AAACGGATTTATCAGG	150	2475
924014	N/A	N/A	19260	19275	GTACGATGAAGGATAT	61	2476
924024	N/A	N/A	19724	19739	AGGCGATGAAGGTGAC	158	2477
924034	N/A	N/A	21345	21360	ACTTATGTTGAGTACC	110	2478
924044	N/A	N/A	21534	21549	TAATGATTCGAGTTCA	132	2479
924054	N/A	N/A	21746	21761	GTCATACGGTCTTCTT	61	2480
924064	N/A	N/A	23512	23527	GCTTATCTACTATATC	99	2481
924074	N/A	N/A	25156	25171	CAGAAATGATGTAGGC	85	2482
924084	N/A	N/A	26413	26428	AGCAGAAACTACTACG	64	2483
924094	N/A	N/A	27635	27650	GAAGAAAGGTATGCTC	57	2484
924104	N/A	N/A	29829	29844	TGTCATAAGACATGTG	46	2485
924114	N/A	N/A	30645	30660	GAACTTAAAGCCGAAA	94	2486
924124	N/A	N/A	30904	30919	GCTTTTACATTCGGAA	58	2487
924134	N/A	N/A	32455	32470	TCCAGACGCAGGATCA	60	2488
924144	N/A	N/A	35042	35057	AAACTTAGATATCTAC	68	2489
924154	N/A	N/A	35915	35930	ATAAATCCAGTATGCC	142	2490
924164	N/A	N/A	4884	4899	TACGAAGCATGCCAGC	118	2491
924174	N/A	N/A	5762	5777	TTATAGACCATAAAGG	60	2492
924184	N/A	N/A	6282	6297	GGTAAAAGGCTGAGTC	42	2493
924194	N/A	N/A	6970	6985	AAACAAGCGGTTCGCA	31	2494
924204	N/A	N/A	7681	7696	ATCATAAATACTCCTC	94	2495
924214	N/A	N/A	8600	8615	GAAACGATTATGTGCA	67	2496
924224	N/A	N/A	9127	9142	ACTAAGGGCATGTCTC	110	2497
924234	N/A	N/A	9888	9903	GAACATATATACTGGA	43	2498
924244	N/A	N/A	10495	10510	CCTTTTCGGGCTGAGT	69	2499
924254	N/A	N/A	11162	11177	ACTCAATCAAAGAGGC	124	2500
924264	N/A	N/A	11972	11987	TAACGAATATCCCCAC	135	2501
924274	N/A	N/A	12699	12714	CCCAAGGCCGAATGAC	46	2502
924284	N/A	N/A	14456	14471	GAGAAACCCGTGGAAG	73	2503
924294	N/A	N/A	14560	14575	ACTGAAAATATACCGA	46	2504
924304	N/A	N/A	15853	15868	ATGCAGAAGGTCTCCC	109	2505
924314	N/A	N/A	17304	17319	AGCAAACCCTGTCATG	83	2506
924324	N/A	N/A	18866	18881	AGTAAACCAATGCCCG	103	2507
924334	N/A	N/A	19404	19419	ATAATAGTAAGCTGTC	95	2508
924344	N/A	N/A	20005	20020	ACACAGATCGCCATTT	40	2509
924354	N/A	N/A	21244	21259	CAATATCCAACCTTGG	22	2510
924364	N/A	N/A	21911	21926	TTATTAGCACATTGGC	29	2511
924374	N/A	N/A	22708	22723	GTAACAACCAGCGCAG	65	2512
924384	N/A	N/A	23163	23178	AACGAAGAAGAGTTTG	55	2513
924394	N/A	N/A	24323	24338	TATCATAGAACTATGA	46	2514
924404	N/A	N/A	25197	25212	GACTATAAGGGCAACA	43	2515
924414	N/A	N/A	26068	26083	TAAGATAGTAAGTCTA	85	2516
924424	N/A	N/A	26773	26788	GGCTAATGGGTTGTGA	75	2517
924434	N/A	N/A	27050	27065	TTTAAGGGTGCAAATT	67	2518
924444	N/A	N/A	27780	27795	GGCTTATCAGAACTTC	37	2519
924454	N/A	N/A	29306	29321	TAAGATGTAAGCATGT	59	2520
924464	N/A	N/A	29774	29789	CATGAGTATTGAAATG	72	2521
924474	N/A	N/A	30241	30256	AAAATAACGAGCCTGT	91	2522
924484	N/A	N/A	30525	30540	TTATAGTACAGGCTTG	42	2523
924494	N/A	N/A	30805	30820	ATATACTTAAATCGCA	54	2524
924504	N/A	N/A	31140	31155	CAACATCCTAGAGATC	101	2525
924514	N/A	N/A	31611	31626	ATCCATAAAGATCACA	94	2526
924524	N/A	N/A	33332	33347	ACCCATAGCATTGACT	83	2527
924534	N/A	N/A	34134	34149	AGCCACACGGACTCTC	128	2528
924544	N/A	N/A	34706	34721	TGGCAATGACCGGGAC	63	2529
924554	N/A	N/A	35096	35111	ATCTTAGTAGAATCTC	70	2530
924564	N/A	N/A	35668	35683	CACAATAGTCTTGGAA	48	2531
924574	N/A	N/A	36378	36393	TACCAGGTGAAGCAAG	58	2532
924584	N/A	N/A	36762	36777	AAGGAGGTAGCACAAA	110	2533

TABLE 44
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	71	31
923826	N/A	N/A	4167	4182	ATTTACAGTGCCCGTT	72	2534
923836	N/A	N/A	5829	5844	GGCGAGAACTGGGCCG	15	2535
923846	N/A	N/A	7619	7634	GTCAAATGAAGGTCGG	24	2536
923856	N/A	N/A	8996	9011	CGACATTCTGGCTTGT	63	2537
923866	N/A	N/A	9498	9513	AATACGATCTTCTGGA	130	2538
923876	N/A	N/A	9721	9736	CTTAACATCAATCGCT	100	2539
923886	N/A	N/A	10450	10465	CGAGTACGGAGACTCC	52	2540
923895	N/A	N/A	10747	10762	AGCTATTTCCAACGGC	92	2541
923905	N/A	N/A	11266	11281	AAGTTAAATGGTTCGC	65	2542
923915	N/A	N/A	11885	11900	TAGAAAAACGAGAAGG	N.D.	2543
923925	N/A	N/A	12855	12870	GACTTATGGAACTGCA	85	2544
923935	N/A	N/A	14024	14039	CTGGTACACGAGAGTT	70	2545
923945	N/A	N/A	14261	14276	AGCGATCTTGCACTTG	98	2546
923955	N/A	N/A	15722	15737	AGCGATGATAGGAGAC	44	2547
923965	N/A	N/A	16040	16055	AGAGAAACCCTAAGGG	74	2548
923975	N/A	N/A	16679	16694	CACTACCCATAGTGAT	68	2549
923985	N/A	N/A	17605	17620	CCAAGTAACTGTATTC	86	2550
923995	N/A	N/A	19083	19098	ATGACGGGAAAGGCAG	113	2551
924005	N/A	N/A	19169	19184	TCAAACGGATTTATCA	43	2552
924015	N/A	N/A	19261	19276	TGTACGATGAAGGATA	31	2553
924025	N/A	N/A	19728	19743	ACAAAGGCGATGAAGG	28	2554
924035	N/A	N/A	21346	21361	AACTTATGTTGAGTAC	55	2555
924045	N/A	N/A	21535	21550	ATAATGATTCGAGTTC	56	2556
924055	N/A	N/A	21748	21763	AGGTCATACGGTCTTC	14	2557
924065	N/A	N/A	23513	23528	TGCTTATCTACTATAT	74	2558
924075	N/A	N/A	26401	26416	TACGAGACCTCACATA	42	2559
924085	N/A	N/A	27616	27631	ATAGGTATGGAAATCA	22	2560
924095	N/A	N/A	28832	28847	GATTATGTGTCCAGAT	79	2561
924105	N/A	N/A	30163	30178	AGCGAGGCACATCTCA	31	2562
924115	N/A	N/A	30646	30661	AGAACTTAAAGCCGAA	53	2563
924125	N/A	N/A	30912	30927	AGTCATGCGCTTTTAC	68	2564
924135	N/A	N/A	32462	32477	TCCAAAGTCCAGACGC	39	2565
924145	N/A	N/A	35052	35067	GATAAGCAGTAAACTT	40	2566
924155	N/A	N/A	3017	3032	GTATATATCCACCTTT	67	2567
924165	N/A	N/A	4885	4900	CTACGAAGCATGCCAG	77	2568
924175	N/A	N/A	5764	5779	TCTTATAGACCATAAA	33	2569
924185	N/A	N/A	6325	6340	CCGAAGGGAGTAGATG	80	2570
924195	N/A	N/A	6975	6990	AAACAAAACAAGCGGT	47	2571
924205	N/A	N/A	7741	7756	TCCTAAAAGGGTGTTT	39	2572
924215	N/A	N/A	8602	8617	CAGAAACGATTATGTG	52	2573
924225	N/A	N/A	9179	9194	GTCGATATTTTTTTCA	42	2574
924235	N/A	N/A	9933	9948	CTGAACTGGATCTAAA	61	2575
924245	N/A	N/A	10667	10682	GTTTAAGCACAACTTA	82	2576
924255	N/A	N/A	11167	11182	GTTAAACTCAATCAAA	90	2577
924265	N/A	N/A	11975	11990	TCATAACGAATATCCC	93	2578
924275	N/A	N/A	13644	13659	AAACGAGGAAGCAGCG	81	2579
924285	N/A	N/A	14506	14521	TTATAGAGGCTTCTGG	127	2580
924295	N/A	N/A	14884	14899	ACCCATAGGGTCTTGG	46	2581
924305	N/A	N/A	15892	15907	AGCCACGAAGATTTTA	41	2582
924315	N/A	N/A	17562	17577	TATAGAGGAATGACTC	64	2583
924325	N/A	N/A	18867	18882	CAGTAAACCAATGCCC	111	2584
924335	N/A	N/A	19405	19420	GATAATAGTAAGCTGT	31	2585
924345	N/A	N/A	20264	20279	CCATATCAAGTCCCAC	32	2586
924355	N/A	N/A	21432	21447	GCTAAACTATAGATTA	25	2587
924365	N/A	N/A	22289	22304	CACCAAGCAGTATGAA	44	2588
924375	N/A	N/A	22716	22731	ATAGACAGGTAACAAC	56	2589
924385	N/A	N/A	23164	23179	CAACGAAGAAGAGTTT	94	2590
924395	N/A	N/A	24436	24451	CAAGATACCACCTACC	44	2591
924405	N/A	N/A	25221	25236	ACACATGGGACAGCTT	44	2592
924415	N/A	N/A	26072	26087	GCATTAAGATAGTAAG	34	2593
924425	N/A	N/A	26782	26797	GAAAATGACGGCTAAT	52	2594
924435	N/A	N/A	27103	27118	AGTAACTGAGTAAGAT	53	2595
924445	N/A	N/A	27843	27858	GTTAAAGAGGGCCTGA	52	2596
924455	N/A	N/A	29307	29322	GTAAGATGTAAGCATG	80	2597
924465	N/A	N/A	29856	29871	CAGCAACCATCCAGGA	56	2598
924475	N/A	N/A	30242	30257	TAAAATAACGAGCCTG	69	2599
924485	N/A	N/A	30527	30542	TCTTATAGTACAGGCT	106	2600
924495	N/A	N/A	30822	30837	CAAGAGTGGATTAGTA	45	2601
924505	N/A	N/A	31168	31183	TGGAAAGATCCTGCAG	81	2602
924515	N/A	N/A	31814	31829	ACCTAATGCAATCAAG	38	2603
924525	N/A	N/A	33675	33690	GAGCAGAGTGATCCAA	78	2604
924535	N/A	N/A	34180	34195	CCCAAGAGCATAGACG	70	2605
924545	N/A	N/A	34819	34834	TAGTAAGTGGACTGTG	88	2606
924555	N/A	N/A	35117	35132	AGCTTAATGTGTATGA	72	2607
924565	N/A	N/A	35669	35684	ACACAATAGTCTTGGA	28	2608
924575	N/A	N/A	36383	36398	CCACATACCAGGTGAA	36	2609
924585	N/A	N/A	36830	36845	TGACAATTGCTGGGTA	54	2610

Example 6: Effect Modified Oligonucleotides on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists of ten nucleosides comprising a 2′-β-D-deoxyribosyl sugar moiety and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a cEt nucleoside. All internucleoside linkages throughout the modified oligonucleotide are phosphorothioate (P═S) linkages. All cytosine residues throughout the modified oligonucleotide are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is targeted in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is targeted human gene sequence. Each modified oligonucleotide listed in the Tables below is targeted to either SEQ ID NO: 1 (GENBANK Accession No. NM_000304.3), SEQ ID NO: 2 (GENBANK Accession No. NC_000017.11 truncated from nucleotides 15227001 to 15268000), or SEQ ID NO: 3 (GENBANK Accession No. NM_153321.2). ‘N/A’ indicates that the modified oligonucleotide does not target that particular gene sequence with 100% complementarity.

Cultured A-431 cells at a density of 10,000 cells per well were treated using free uptake with 2,000 nM of modified oligonucleotide. After a treatment period of approximately 48 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS4579, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The modified oligonucleotides with percent control values marked with an asterisk (*) are complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region.

TABLE 45
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	20	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	13	31
1079082	N/A	N/A	28710	28725	CTAAGTCCCAAGTTCT	55	2612
1205211	N/A	N/A	24433	24448	GATACCACCTACCAGA	100	2613
1205224	N/A	N/A	26617	26632	CTTTGGTAGATGCAGC	18	2614
1209866	N/A	N/A	3675	3690	AGTCTAAAGACATGGC	168	2615
1209894	N/A	N/A	7752	7767	CCAATTTCAAGTCCTA	13	2616
1209922	N/A	N/A	9848	9863	TAAAGCTGTATTTCCG	3	2617
1209950	N/A	N/A	11976	11991	ATCATAACGAATATCC	22	2618
1209978	N/A	N/A	15613	15628	TATTGATAGTCATGAG	15	2619
1210006	N/A	N/A	16707	16722	CCCTATTTGTTTCCTG	59	2620
1210034	N/A	N/A	19525	19540	ACAGAGCTAGTTTGTC	77	2621
1210062	N/A	N/A	21799	21814	AGATAGCAAACTATCT	75	2622
1210091	N/A	N/A	23529	23544	ACTATATGTGTTCAAG	42	2623
1210119	N/A	N/A	24941	24956	GGACAATGTATACACT	15	2624
1210147	N/A	N/A	26278	26293	GAATTTTAGTCCCAAC	85	2625
1210175	N/A	N/A	27615	27630	TAGGTATGGAAATCAA	25	2626
1210203	N/A	N/A	29589	29604	GTGAAATGGTACCATG	48	2627
1210232	N/A	N/A	30063	30078	TATTATCTTGAGGGCA	45	2628
1210260	N/A	N/A	31248	31263	TTGACTTAGAACTGTC	104	2629
1210288	N/A	N/A	33198	33213	TTATTAATCCCCCCCC	100	2630
1210316	N/A	N/A	35305	35320	ACACTTATCATCATGC	44	2631
1210346	1515	1530	37878	37893	GTTATAAACCATTTAT	61	2632
1210374	N/A	N/A	3508	3523	TATGAGCATATCTAAC	126	2633
1210402	N/A	N/A	4485	4500	AGCCTTGAGGCACGGG	158	2634
1210430	N/A	N/A	4789	4804	GATAGCATGGTCTGGG	192	2635
1210458	N/A	N/A	5099	5114	CAGCGGATGCCCAGGG	170	2636
1210486	N/A	N/A	5383	5398	GTCGCTGCAGTAGGGT	71	2637
1210514	N/A	N/A	5830	5845	AGGCGAGAACTGGGCC	109	2638
1210542	N/A	N/A	6269	6284	GTCCGAGAATTTCAGC	139	2639
1210570	N/A	N/A	6525	6540	TGCCCGGACCCTGCGC	89	2640
1210598	N/A	N/A	6870	6885	CCCGGCGACCTCCCTG	190	2641
1210626	N/A	N/A	7480	7495	GGCAGATTGCCAGAAA	167	2642
1210654	N/A	N/A	8421	8436	AATGGAGATACTGTGA	53	2643
1210682	N/A	N/A	8806	8821	CCCACGATCCATTGCT	128	2644
1210710	N/A	N/A	9189	9204	CAGCTCCCAGGTCGAT	65	2645
1210738	N/A	N/A	9476	9491	ACCCCAAGGCTTAGCT	115	2646
1210758	N/A	N/A	9790	9805	TCTAGGTCCTTCCAGC	89	2647
1210784	N/A	N/A	10358	10373	GTGCTACGGTCACATT	106	2648
1210812	N/A	N/A	10612	10627	GGGTTTTAACACGCCT	142	2649
1210840	N/A	N/A	11140	11155	GGATTCGCCACTTAAG	75	2650
1210868	N/A	N/A	11764	11779	GATGTTAGACTGCCTC	35	2651
1210896	N/A	N/A	12180	12195	AGATTTCCCATCCGCT	45	2652
1210924	N/A	N/A	12668	12683	CTCTTGTAAATAGGTG	17	2653
1210952	N/A	N/A	13528	13543	ACTCTAGATGTTTGGC	30	2654
1210980	N/A	N/A	13969	13984	TGGAGAGACTCCCGAA	116	2655
1211008	N/A	N/A	14450	14465	CCCGTGGAAGACAGCA	129	2656
1211036	N/A	N/A	14991	15006	GGACTTGATATTTGGA	9	2657
1211064	N/A	N/A	15647	15662	AACCCAAAGCATTGAT	29	2658
1211092	N/A	N/A	16368	16383	ACTCCGGGTCCCTGCC	65	2659
1211118	N/A	N/A	16931	16946	CACCAGCGATCCTGCT	125	2660
1211145	N/A	N/A	17657	17672	ACTTAGCTCTGAACCC	89	2661
1211173	N/A	N/A	18647	18662	GGAAACCAGGGTACCT	119	2662
1211201	N/A	N/A	19028	19043	CAGGGAATAATTCGCT	34	2663
1211225	N/A	N/A	19238	19253	CCCTCCTTGGTAATTC	81	2664
1211252	N/A	N/A	19800	19815	CAGGCTAACTTTGCCT	147	2665
1211280	N/A	N/A	20393	20408	AGCCCCCTCAGCTATA	143	2666
1211308	N/A	N/A	21599	21614	ATTCGACATGCAAGCT	93	2667
1211335	N/A	N/A	22533	22548	TCTGACCGCCCACCTA	92	2668
1211362	N/A	N/A	23042	23057	CACTCTATTGACTTAC	44	2669
1211410	N/A	N/A	25704	25719	CATTGTAGCTATATTC	36	2670
1211458	N/A	N/A	27347	27362	ACAACCTGAGTTCCAC	89	2671
1211486	N/A	N/A	27926	27941	ACTAGGAGTTAAAGTC	89	2672
1211520	N/A	N/A	28854	28869	GATAGCCTCAGTATTC	77	2673
1211548	N/A	N/A	29494	29509	GTACCTAGACATACTC	157	2674
1211576	N/A	N/A	30129	30144	CAATCATCGCTTATGA	43	2675
1211603	N/A	N/A	30792	30807	GCAATACCTAGGAGAA	10	2676
1211631	N/A	N/A	31246	31261	GACTTAGAACTGTCAC	127	2677
1211656	N/A	N/A	31661	31676	CAAGAGCCCTAGCACC	83	2678
1211684	N/A	N/A	32452	32467	AGACGCAGGATCAGGA	17	2679
1211712	N/A	N/A	33339	33354	GAAAGCCACCCATAGC	39	2680
1211740	N/A	N/A	33843	33858	ATGCTACCCAAATGCA	152	2681
1211768	N/A	N/A	34276	34291	ACCTTAAGGACTGTGT	105	2682
1211796	N/A	N/A	34637	34652	ACTGACCCTGTCCAGA	79	2683
1211824	N/A	N/A	34955	34970	ACAAGATTGTCTGCAT	29	2684
1211852	N/A	N/A	35301	35316	TTATCATCATGCAGGC	72	2685
1211880	N/A	N/A	35698	35713	CCACTTGACTGGCCCC	119	2686
1211908	N/A	N/A	36128	36143	CAGCCCTTCGGTGTTG	162	2687
1211936	N/A	N/A	36519	36534	CTCTACAAGTGAGTGG	101	2688

TABLE 46
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	13	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	9	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
1079083	N/A	N/A	28711	28726	TCTAAGTCCCAAGTTC	68	2689
1205213	N/A	N/A	24437	24452	TCAAGATACCACCTAC	72	2690
1209867	N/A	N/A	3897	3912	GCAACATAATAAGGGC	102	2691
1209895	N/A	N/A	7837	7852	GCTTTACTAACAATGT	61	2692
1209923	N/A	N/A	9873	9888	ATCTATGAGTAGCTCC	13	2693
1209951	N/A	N/A	11984	11999	GATACAATATCATAAC	87	2694
1209979	N/A	N/A	15614	15629	CTATTGATAGTCATGA	91	2695
1210007	N/A	N/A	16709	16724	CACCCTATTTGTTTCC	48	2696
1210035	N/A	N/A	19569	19584	TATTCAATGAACTGCA	42	2697
1210063	N/A	N/A	21813	21828	GCAAATATCTGCACAG	71	2698
1210092	N/A	N/A	23535	23550	AATGACACTATATGTG	62	2699
1210120	N/A	N/A	24962	24977	GTAACCAAAGCAGTTC	67	2700
1210148	N/A	N/A	26414	26429	CAGCAGAAACTACTAC	79	2701
1210176	N/A	N/A	27706	27721	GAGGTAAAGATCACGG	54	2702
1210204	N/A	N/A	29668	29683	ACATCTAACCTTGGGC	47	2703
1210233	N/A	N/A	30066	30081	CCATATTATCTTGAGG	24	2704
1210261	N/A	N/A	31249	31264	ATTGACTTAGAACTGT	33	2705
1210289	N/A	N/A	33199	33214	TTTATTAATCCCCCCC	78	2706
1210317	N/A	N/A	35333	35348	GTTAACAGAGTGCTAG	127	2707
1210347	N/A	N/A	2835	2850	CACCCGGCCAAACAGC	139	2708
1210375	N/A	N/A	3544	3559	CATACTCAGGACTGTT	126	2709
1210403	N/A	N/A	4496	4511	GTGCGCAGGCCAGCCT	120	2710
1210431	N/A	N/A	4793	4808	ACTGGATAGCATGGTC	159	2711
1210459	N/A	N/A	5108	5123	AATGTAGCTCAGCGGA	117	2712
1210487	N/A	N/A	5563	5578	ACTTACAGCCCAAAGG	106	2713
1210515	N/A	N/A	5832	5847	CAAGGCGAGAACTGGG	133	2714
1210543	N/A	N/A	6271	6286	GAGTCCGAGAATTTCA	71	2715
1210571	N/A	N/A	6534	6549	CGAGAGGGTTGCCCGG	107	2716
1210599	N/A	N/A	6878	6893	AAGCACCTCCCGGCGA	141	2717
1210627	N/A	N/A	7537	7552	GCTCGCTTGGTTCCTA	75	2718
1210655	N/A	N/A	8428	8443	CAGGCACAATGGAGAT	100	2719
1210683	N/A	N/A	8895	8910	CACCGTTTGGTGATGA	89	2720
1210711	N/A	N/A	9190	9205	ACAGCTCCCAGGTCGA	55	2721
1210739	N/A	N/A	9477	9492	GACCCCAAGGCTTAGC	101	2722
1210759	N/A	N/A	9795	9810	GTATCTCTAGGTCCTT	4	2723
1210785	N/A	N/A	10367	10382	GGACAAGCAGTGCTAC	55	2724
1210813	N/A	N/A	10615	10630	GCCGGGTTTTAACACG	162	2725
1210841	N/A	N/A	11143	11158	GGAGGATTCGCCACTT	72	2726
1210869	N/A	N/A	11771	11786	CAACCTAGATGTTAGA	58	2727
1210897	N/A	N/A	12182	12197	AGAGATTTCCCATCCG	30	2728
1210925	N/A	N/A	12695	12710	AGGCCGAATGACTATA	190	2729
1210953	N/A	N/A	13578	13593	CCGTGACAATGCTGAG	35	2730
1210981	N/A	N/A	13971	13986	AATGGAGAGACTCCCG	122	2731
1211009	N/A	N/A	14454	14469	GAAACCCGTGGAAGAC	29	2732
1211037	N/A	N/A	14996	15011	AACTTGGACTTGATAT	91	2733
1211065	N/A	N/A	15680	15695	TGAGACTGGCAAGATT	71	2734
1211093	N/A	N/A	16376	16391	GCCAGATGACTCCGGG	259	2735
1211119	N/A	N/A	16938	16953	TGTGAGGCACCAGCGA	46	2736
1211146	N/A	N/A	17671	17686	CTGGCATGCCCAAGAC	113	2737
1211174	N/A	N/A	18674	18689	CCTACCTCAATGCCTG	46	2738
1211202	N/A	N/A	19030	19045	AACAGGGAATAATTCG	38	2739
1211226	N/A	N/A	19250	19265	GGATATCAATCTCCCT	134	2740
1211253	N/A	N/A	19855	19870	CCCCCTGGGCTTCAAC	124	2741
1211281	N/A	N/A	20400	20415	ATACATCAGCCCCCTC	96	2742
1211309	N/A	N/A	21601	21616	GGATTCGACATGCAAG	19	2743
1211336	N/A	N/A	22577	22592	GGTTAGGACAGCCCAG	84	2744
1211363	N/A	N/A	23178	23193	AGGAACTACTGTTGCA	89	2745
1211411	N/A	N/A	25706	25721	GACATTGTAGCTATAT	57	2746
1211437	N/A	N/A	26620	26635	GCACTTTGGTAGATGC	91	2747
1211459	N/A	N/A	27349	27364	AAACAACCTGAGTTCC	142	2748
1211487	N/A	N/A	27928	27943	TCACTAGGAGTTAAAG	48	2749
1211521	N/A	N/A	28862	28877	GCTCTACAGATAGCCT	132	2750
1211549	N/A	N/A	29496	29511	CAGTACCTAGACATAC	73	2751
1211577	N/A	N/A	30131	30146	CCCAATCATCGCTTAT	50	2752
1211604	N/A	N/A	30795	30810	ATCGCAATACCTAGGA	52	2753
1211632	N/A	N/A	31292	31307	CTAACTTCTTACTAGT	96	2754
1211657	N/A	N/A	31677	31692	AACCTACAGTCAGCTC	52	2755
1211685	N/A	N/A	32488	32503	CTATAGGTTCTGAAAA	143	2756
1211713	N/A	N/A	33357	33372	AATGACCATTGCTGCC	77	2757
1211741	N/A	N/A	33849	33864	CGGAGGATGCTACCCA	133	2758
1211769	N/A	N/A	34278	34293	CTACCTTAAGGACTGT	45	2759
1211797	N/A	N/A	34667	34682	GGAGCATAGGTCATCT	132	2760
1211825	N/A	N/A	34997	35012	TGATTGTTGTCATGAG	13	2761
1211853	N/A	N/A	35304	35319	CACTTATCATCATGCA	68	2762
1211881	N/A	N/A	35738	35753	CTGTTAAGCCTGTCCT	60	2763
1211909	N/A	N/A	36176	36191	GCACTGGATATGCAGG	100	2764
1211937	N/A	N/A	36528	36543	TATATGCCACTCTACA	101	2765

TABLE 47
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	25	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	24	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
1079084	N/A	N/A	28713	28728	GTTCTAAGTCCCAAGT	62	2766
1205214	N/A	N/A	24442	24457	ATGAGTCAAGATACCA	26	2767
1209868	N/A	N/A	3955	3970	AAGGTTTATGGTGGTG	142	2768
1209896	N/A	N/A	8393	8408	ATGTTAAACTAAGTCA	72	2769
1209924	N/A	N/A	9874	9889	GATCTATGAGTAGCTC	99	2770
1209952	N/A	N/A	12042	12057	ATCAAGGCAAGGCCCA	74	2771
1209980	N/A	N/A	15617	15632	AACCTATTGATAGTCA	31	2772
1210008	N/A	N/A	16814	16829	TATAACTGGTCCTTCC	75	2773
1210036	N/A	N/A	19570	19585	TTATTCAATGAACTGC	12	2774
1210064	N/A	N/A	21912	21927	GTTATTAGCACATTGG	11	2775
1210093	N/A	N/A	23555	23570	AATTGTAACACCTCTA	36	2776
1210121	N/A	N/A	25199	25214	CTGACTATAAGGGCAA	82	2777
1210149	N/A	N/A	26455	26470	AGATACTGTCTTCACC	49	2778
1210177	N/A	N/A	27707	27722	AGAGGTAAAGATCACG	32	2779
1210205	N/A	N/A	29732	29747	GGTTAATCATTTACTT	78	2780
1210234	N/A	N/A	30068	30083	ATCCATATTATCTTGA	9	2781
1210262	N/A	N/A	31299	31314	CTAATTACTAACTTCT	57	2782
1210290	N/A	N/A	33200	33215	TTTTATTAATCCCCCC	116	2783
1210318	N/A	N/A	35361	35376	GAAACATGACCTTGGC	54	2784
1210348	N/A	N/A	2841	2856	AAAACTCACCCGGCCA	97	2785
1210376	N/A	N/A	3559	3574	CTTATGTGATCACAAC	165	2786
1210404	N/A	N/A	4498	4513	CCGTGCGCAGGCCAGC	240	2787
1210432	N/A	N/A	4795	4810	CTACTGGATAGCATGG	165	2788
1210460	N/A	N/A	5114	5129	CAGCCAAATGTAGCTC	105	2789
1210488	N/A	N/A	5624	5639	GCACCCTCACTGGAAG	117	2790
1210516	N/A	N/A	5836	5851	TCAGCAAGGCGAGAAC	81	2791
1210544	N/A	N/A	6304	6319	CGGACGGGAGAGAGAG	111	2792
1210572	N/A	N/A	6537	6552	GCTCGAGAGGGTTGCC	102	2793
1210600	N/A	N/A	6899	6914	CTGCACGCTTCCACCC	108	2794
1210628	N/A	N/A	7539	7554	GCGCTCGCTTGGTTCC	169	2795
1210656	N/A	N/A	8437	8452	CATCATCACCAGGCAC	67	2796
1210684	N/A	N/A	8897	8912	CTCACCGTTTGGTGAT	103	2797
1210712	N/A	N/A	9192	9207	TCACAGCTCCCAGGTC	67	2798
1210740	N/A	N/A	9478	9493	GGACCCCAAGGCTTAG	117	2799
1210760	N/A	N/A	9839	9854	ATTTCCGTGGCCTTTT	30	2800
1210786	N/A	N/A	10388	10403	AACCGGATGCTGTGGC	46	2801
1210814	N/A	N/A	10617	10632	TCGCCGGGTTTTAACA	54	2802
1210842	N/A	N/A	11145	11160	CTGGAGGATTCGCCAC	82	2803
1210870	N/A	N/A	11821	11836	ATTAAGATGTAGCCTG	21	2804
1210898	N/A	N/A	12207	12222	GATGGATCAGATTCTA	109	2805
1210926	N/A	N/A	12703	12718	TTCCCCCAAGGCCGAA	89	2806
1210954	N/A	N/A	13580	13595	ACCCGTGACAATGCTG	48	2807
1210982	N/A	N/A	14001	14016	AAATAGTCCTGCATGA	121	2808
1211010	N/A	N/A	14458	14473	CTGAGAAACCCGTGGA	64	2809
1211038	N/A	N/A	15043	15058	CGTCAGGTCCACACAA	58	2810
1211066	N/A	N/A	15704	15719	CCAAGGGCTCAGGTTG	86	2811
1211094	N/A	N/A	16401	16416	TCGATGGGATAGGAAG	76	2812
1211120	N/A	N/A	16950	16965	AGTACCACAGCCTGTG	170	2813
1211147	N/A	N/A	17679	17694	GTTAACCCCTGGCATG	132	2814
1211175	N/A	N/A	18682	18697	CTTCAGGTCCTACCTC	71	2815
1211203	N/A	N/A	19054	19069	CATGAACTGCATCAGT	100	2816
1211227	N/A	N/A	19262	19277	TTGTACGATGAAGGAT	37	2817
1211254	N/A	N/A	19901	19916	CTTCGCCCACCAGCTC	70	2818
1211282	N/A	N/A	20417	20432	GCTGAGCAATGAAGGA	44	2819
1211310	N/A	N/A	21606	21621	AGGTTGGATTCGACAT	25	2820
1211337	N/A	N/A	22581	22596	CTCTGGTTAGGACAGC	47	2821
1211364	N/A	N/A	23418	23433	TTATGGTATATCCTCA	20	2822
1211412	N/A	N/A	25710	25725	GAGAGACATTGTAGCT	46	2823
1211438	N/A	N/A	26688	26703	GGAGGAGCACTTTGCA	44	2824
1211460	N/A	N/A	27387	27402	TCCGCTGCAAACTCAT	74	2825
1211488	N/A	N/A	27938	27953	TATAGTTCCATCACTA	115	2826
1211522	N/A	N/A	28907	28922	GAGGCATAATGTAATC	69	2827
1211550	N/A	N/A	29498	29513	CCCAGTACCTAGACAT	63	2828
1211578	N/A	N/A	30143	30158	TGGGCATGAAAACCCA	141	2829
1211605	N/A	N/A	30800	30815	CTTAAATCGCAATACC	59	2830
1211633	N/A	N/A	31309	31324	ACTTAGCTCTCTAATT	64	2831
1211658	N/A	N/A	31712	31727	GCTGTAATCTAGAGCA	92	2832
1211686	N/A	N/A	32492	32507	ATGGCTATAGGTTCTG	28	2833
1211714	N/A	N/A	33361	33376	TCCAAATGACCATTGC	16	2834
1211742	N/A	N/A	33853	33868	CCTACGGAGGATGCTA	103	2835
1211770	N/A	N/A	34282	34297	GCTCCTACCTTAAGGA	145	2836
1211798	N/A	N/A	34669	34684	TGGGAGCATAGGTCAT	168	2837
1211826	N/A	N/A	35014	35029	AGGATACACACTTTAT	37	2838
1211854	N/A	N/A	35313	35328	GCAGGACAACACTTAT	76	2839
1211882	N/A	N/A	35749	35764	CATGAACCACCCTGTT	187	2840
1211910	N/A	N/A	36180	36195	AAGGGCACTGGATATG	163	2841
1211938	N/A	N/A	36530	36545	TCTATATGCCACTCTA	52	2842

TABLE 48
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	17	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	15	31
1205231	N/A	N/A	26701	26716	TAGAGGTTCTTCTGGA	41	2843
1209869	N/A	N/A	3956	3971	AAAGGTTTATGGTGGT	105	2844
1209897	N/A	N/A	8394	8409	AATGTTAAACTAAGTC	72	2845
1209925	N/A	N/A	9925	9940	GATCTAAACTGGTTTC	83	2846
1209953	N/A	N/A	12232	12247	CTTAAATCCTGCCCAT	68	2847
1209981	N/A	N/A	15618	15633	CAACCTATTGATAGTC	39	2848
1210009	N/A	N/A	16819	16834	CTTCCTATAACTGGTC	39	2849
1210037	N/A	N/A	19583	19598	AACTTTGATACAGTTA	99	2850
1210065	N/A	N/A	21913	21928	GGTTATTAGCACATTG	9	2851
1210094	N/A	N/A	23610	23625	TATATTAGGTTGATAC	52	2852
1210122	N/A	N/A	25264	25279	TGTATAGAAAACTTGT	52	2853
1210150	N/A	N/A	26462	26477	AATCCTGAGATACTGT	96	2854
1210178	N/A	N/A	27748	27763	TAGCTTAAAACCACTA	54	2855
1210206	N/A	N/A	29744	29759	TTAATGAGAAGTGGTT	12	2856
1210235	N/A	N/A	30087	30102	ATGAAAGTTCTGGTTC	18	2857
1210263	N/A	N/A	31316	31331	CTAATCTACTTAGCTC	102	2858
1210291	N/A	N/A	33288	33303	CATAATCATCCGTCCC	35	2859
1210319	N/A	N/A	35393	35408	ACTTATCTAATGAAGG	75	2860
1210349	N/A	N/A	2887	2902	CTTGTAAAGCATAGGC	91	2861
1210377	N/A	N/A	3562	3577	ACACTTATGTGATCAC	104	2862
1210405	N/A	N/A	4500	4515	TCCCGTGCGCAGGCCA	106	2863
1210433	N/A	N/A	4803	4818	CCGGCCGACTACTGGA	96	2864
1210461	N/A	N/A	5151	5166	CCGAGAAACTGGCTCC	81	2865
1210489	N/A	N/A	5626	5641	TGGCACCCTCACTGGA	64	2866
1210517	N/A	N/A	5884	5899	TCCGCCACAGGGACTG	66	2867
1210545	N/A	N/A	6308	6323	CCAGCGGACGGGAGAG	117	2868
1210573	N/A	N/A	6540	6555	ATGGCTCGAGAGGGTT	125	2869
1210601	N/A	N/A	6971	6986	AAAACAAGCGGTTCGC	76	2870
1210629	N/A	N/A	7558	7573	GCGCAGCTAACCCAGC	125	2871
1210657	N/A	N/A	8455	8470	CTCCTATCAGTCTGAT	86	2872
1210685	N/A	N/A	8904	8919	AACCAGCCTCACCGTT	80	2873
1210713	N/A	N/A	9197	9212	CACCTTCACAGCTCCC	26	2874
1210741	N/A	N/A	9479	9494	AGGACCCCAAGGCTTA	77	2875
1210761	N/A	N/A	9844	9859	GCTGTATTTCCGTGGC	68	2876
1210787	N/A	N/A	10390	10405	GAAACCGGATGCTGTG	27	2877
1210815	N/A	N/A	10625	10640	CTGAAACTTCGCCGGG	60	2878
1210843	N/A	N/A	11147	11162	CCCTGGAGGATTCGCC	72	2879
1210871	N/A	N/A	11823	11838	ATATTAAGATGTAGCC	30	2880
1210899	N/A	N/A	12209	12224	AGGATGGATCAGATTC	72	2881
1210927	N/A	N/A	12733	12748	GCCAGGTTTCTATGAT	85	2882
1210955	N/A	N/A	13584	13599	AGGGACCCGTGACAAT	101	2883
1210983	N/A	N/A	14016	14031	CGAGAGTTGTTCAAGA	48	2884
1211011	N/A	N/A	14460	14475	CACTGAGAAACCCGTG	115	2885
1211039	N/A	N/A	15066	15081	GTATTCTGACCCATTC	18	2886
1211067	N/A	N/A	15725	15740	GACAGCGATGATAGGA	7	2887
1211095	N/A	N/A	16428	16443	TAGGCATATTGCAGAG	39	2888
1211121	N/A	N/A	16952	16967	TCAGTACCACAGCCTG	61	2889
1211148	N/A	N/A	17725	17740	CATCACTGGCTGTTCA	60	2890
1211176	N/A	N/A	18686	18701	TCAACTTCAGGTCCTA	55	2891
1211204	N/A	N/A	19055	19070	TCATGAACTGCATCAG	123	2892
1211228	N/A	N/A	19264	19279	CATTGTACGATGAAGG	4	2893
1211255	N/A	N/A	19903	19918	TGCTTCGCCCACCAGC	99	2894
1211283	N/A	N/A	20474	20489	CTCGAGTTGCACAAAG	87	2895
1211311	N/A	N/A	21609	21624	AGCAGGTTGGATTCGA	70	2896
1211338	N/A	N/A	22590	22605	ATTTATGTGCTCTGGT	22	2897
1211365	N/A	N/A	23441	23456	GCATTTCTATGAGGGA	20	2898
1211385	N/A	N/A	24545	24560	TGAGCAATGACAGATA	26	2899
1211413	N/A	N/A	26018	26033	CACTCATAAGATATGG	31	2900
1211461	N/A	N/A	27390	27405	CCATCCGCTGCAAACT	59	2901
1211489	N/A	N/A	28304	28319	GCCTGAAGGGCCATGA	98	2902
1211511	N/A	N/A	28718	28733	GGAGAGTTCTAAGTCC	118	2903
1211523	N/A	N/A	28932	28947	CTTAGCACATCAGGGC	23	2904
1211551	N/A	N/A	29544	29559	ATGCTACATCCTTTGC	106	2905
1211579	N/A	N/A	30165	30180	TGAGCGAGGCACATCT	67	2906
1211606	N/A	N/A	30803	30818	ATACTTAAATCGCAAT	49	2907
1211634	N/A	N/A	31312	31327	TCTACTTAGCTCTCTA	32	2908
1211659	N/A	N/A	31789	31804	TTCCTAACTGTCAGCC	72	2909
1211687	N/A	N/A	32499	32514	GGAATAGATGGCTATA	37	2910
1211715	N/A	N/A	33367	33382	TCAGTATCCAAATGAC	60	2911
1211743	N/A	N/A	33855	33870	TGCCTACGGAGGATGC	118	2912
1211771	N/A	N/A	34294	34309	AAGTGAGACATGGCTC	45	2913
1211799	N/A	N/A	34674	34689	GAGTCTGGGAGCATAG	78	2914
1211827	N/A	N/A	35048	35063	AGCAGTAAACTTAGAT	32	2915
1211855	N/A	N/A	35316	35331	AGGGCAGGACAACACT	112	2916
1211883	N/A	N/A	35758	35773	AATACGCCACATGAAC	83	2917
1211911	N/A	N/A	36213	36228	CCCAAGGTTGCATTTG	47	2918
1211939	N/A	N/A	36535	36550	GGAAATCTATATGCCA	94	2919

TABLE 49
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	16	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
1076621	N/A	N/A	9483	9498	ATTAAGGACCCCAAGG	150	2920
1209870	N/A	N/A	4022	4037	GCAATTTCTCAAGTTC	113	2921
1209898	N/A	N/A	8423	8438	ACAATGGAGATACTGT	86	2922
1209926	N/A	N/A	9981	9996	CTGGATTATGCAAAGC	16	2923
1209954	N/A	N/A	12239	12254	GTATTGACTTAAATCC	27	2924
1209982	N/A	N/A	15619	15634	ACAACCTATTGATAGT	103	2925
1210010	N/A	N/A	17032	17047	CAGAATGAGCTTACAA	28	2926
1210038	N/A	N/A	19584	19599	TAACTTTGATACAGTT	86	2927
1210066	N/A	N/A	22456	22471	TTTTATTGGGTTGTCA	16	2928
1210095	N/A	N/A	23698	23713	AGTGATAGCTACCTGC	34	2929
1210123	N/A	N/A	25287	25302	ATTAACAAATCTGTCC	50	2930
1210151	N/A	N/A	26536	26551	TGGGAAATGTCCTTCC	99	2931
1210179	N/A	N/A	27749	27764	ATAGCTTAAAACCACT	36	2932
1210207	N/A	N/A	29745	29760	TTTAATGAGAAGTGGT	14	2933
1210236	N/A	N/A	30121	30136	GCTTATGAAACTAACA	19	2934
1210264	N/A	N/A	31375	31390	ATGTTAAGTTGTCACT	72	2935
1210292	N/A	N/A	33645	33660	CAAAGTGTACTTTGGT	90	2936
1210320	N/A	N/A	35488	35503	TTAATTATCTTGCCCC	63	2937
1210350	N/A	N/A	2896	2911	TAGGCAATTCTTGTAA	149	2938
1210378	N/A	N/A	3790	3805	AGCTTGTAACTCTGAT	126	2939
1210406	N/A	N/A	4506	4521	TGAGACTCCCGTGCGC	110	2940
1210434	N/A	N/A	4806	4821	AGTCCGGCCGACTACT	121	2941
1210462	N/A	N/A	5154	5169	TGACCGAGAAACTGGC	110	2942
1210490	N/A	N/A	5635	5650	TGCGCTTTCTGGCACC	119	2943
1210518	N/A	N/A	5894	5909	TCTCGGGATGTCCGCC	124	2944
1210546	N/A	N/A	6317	6332	AGTAGATGTCCAGCGG	137	2945
1210574	N/A	N/A	6584	6599	TCCGGAGAGGTGGTGC	155	2946
1210602	N/A	N/A	6997	7012	ACGGAACATCTTTTGC	133	2947
1210630	N/A	N/A	7562	7577	ACCTGCGCAGCTAACC	165	2948
1210658	N/A	N/A	8457	8472	AGCTCCTATCAGTCTG	132	2949
1210686	N/A	N/A	8927	8942	GAGGACAAGCTCATGG	85	2950
1210714	N/A	N/A	9198	9213	CCACCTTCACAGCTCC	81	2951
1210762	N/A	N/A	9867	9882	GAGTAGCTCCAGCAAC	61	2952
1210788	N/A	N/A	10394	10409	GGGAGAAACCGGATGC	94	2953
1210816	N/A	N/A	10627	10642	TGCTGAAACTTCGCCG	83	2954
1210844	N/A	N/A	11148	11163	GCCCTGGAGGATTCGC	95	2955
1210872	N/A	N/A	11863	11878	GAGTCAAAGTCAGTTA	20	2956
1210900	N/A	N/A	12252	12267	CTCCCCGTTGCCTGTA	85	2957
1210928	N/A	N/A	12742	12757	GTATTTGCTGCCAGGT	6	2958
1210956	N/A	N/A	13587	13602	CTGAGGGACCCGTGAC	82	2959
1210984	N/A	N/A	14026	14041	CTCTGGTACACGAGAG	160	2960
1211012	N/A	N/A	14469	14484	CAAATGGACCACTGAG	69	2961
1211040	N/A	N/A	15068	15083	CAGTATTCTGACCCAT	19	2962
1211068	N/A	N/A	15729	15744	TGAAGACAGCGATGAT	15	2963
1211096	N/A	N/A	16448	16463	GTGGTAGGATGAACAT	46	2964
1211122	N/A	N/A	16970	16985	ATGTCCCAACTGTCCT	78	2965
1211149	N/A	N/A	17771	17786	GCCGAGGTAATTTCTT	96	2966
1211177	N/A	N/A	18719	18734	GCTCCGGGACCCATGC	148	2967
1211205	N/A	N/A	19056	19071	GTCATGAACTGCATCA	92	2968
1211229	N/A	N/A	19303	19318	ACTTACTCCACCAGAT	94	2969
1211256	N/A	N/A	19906	19921	ATATGCTTCGCCCACC	167	2970
1211284	N/A	N/A	20476	20491	AGCTCGAGTTGCACAA	107	2971
1211312	N/A	N/A	21685	21700	CATGGACAAGATGTAA	112	2972
1211339	N/A	N/A	22615	22630	CGTGCAAAGCCTGACT	95	2973
1211366	N/A	N/A	23452	23467	CATTGATTGTAGCATT	15	2974
1211386	N/A	N/A	24595	24610	TTGCAACTGGAACTGG	100	2975
1211414	N/A	N/A	26032	26047	GAATGGGTTCAAGGCA	23	2976
1211439	N/A	N/A	26709	26724	ATCCAGCATAGAGGTT	74	2977
1211462	N/A	N/A	27489	27504	AAGGCTTACACTTCCT	101	2978
1211490	N/A	N/A	28317	28332	CTCGAGGTGCAGGGCC	178	2979
1211512	N/A	N/A	28767	28782	CCAGATCCTCTAAGTT	79	2980
1211524	N/A	N/A	28947	28962	ACTACTTTGCTAGTTC	122	2981
1211552	N/A	N/A	29549	29564	AAGAGATGCTACATCC	89	2982
1211580	N/A	N/A	30170	30185	AGGTTTGAGCGAGGCA	5	2983
1211607	N/A	N/A	30818	30833	AGTGGATTAGTAAATA	59	2984
1211635	N/A	N/A	31315	31330	TAATCTACTTAGCTCT	82	2985
1211660	N/A	N/A	31794	31809	GATAGTTCCTAACTGT	108	2986
1211688	N/A	N/A	32504	32519	GTCAAGGAATAGATGG	57	2987
1211716	N/A	N/A	33394	33409	TGATTGAAGCCCACTC	47	2988
1211744	N/A	N/A	33859	33874	GTAATGCCTACGGAGG	88	2989
1211772	N/A	N/A	34296	34311	ATAAGTGAGACATGGC	7	2990
1211800	N/A	N/A	34697	34712	CCGGGACTCCCTGGTA	101	2991
1211828	N/A	N/A	35058	35073	AACCGTGATAAGCAGT	49	2992
1211856	N/A	N/A	35332	35347	TTAACAGAGTGCTAGC	191	2993
1211884	N/A	N/A	35760	35775	GGAATACGCCACATGA	45	2994
1211912	N/A	N/A	36245	36260	TGATCAAAGGCAAGCT	100	2995
1211940	N/A	N/A	36541	36556	ACCCCTGGAAATCTAT	130	2996

TABLE 50
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	20	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	6	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
1076620	N/A	N/A	9488	9503	TCTGGATTAAGGACCC	27	2997
1209871	N/A	N/A	4059	4074	AACCTAATCACCCTGC	124	2998
1209899	N/A	N/A	8550	8565	CAACCTTAGACACCTG	56	2999
1209927	N/A	N/A	9990	10005	GCAAAGCAACTGGATT	113	3000
1209955	N/A	N/A	12278	12293	TACCTTAGGTCACAGG	122	3001
1209983	N/A	N/A	15631	15646	CTAATTCCTCACACAA	65	3002
1210011	N/A	N/A	17164	17179	CTTAACATCATTGTCA	30	3003
1210039	N/A	N/A	19585	19600	CTAACTTTGATACAGT	97	3004
1210067	N/A	N/A	22457	22472	ATTTTATTGGGTTGTC	7	3005
1210096	N/A	N/A	23699	23714	AAGTGATAGCTACCTG	57	3006
1210124	N/A	N/A	25302	25317	AGATTACATAAGAGGA	20	3007
1210152	N/A	N/A	26554	26569	AAAGGGATTCACTTTG	98	3008
1210180	N/A	N/A	27778	27793	CTTATCAGAACTTCTG	48	3009
1210208	N/A	N/A	29746	29761	GTTTAATGAGAAGTGG	7	3010
1210237	N/A	N/A	30124	30139	ATCGCTTATGAAACTA	9	3011
1210265	N/A	N/A	31479	31494	CATTTGCCGGGCATGC	124	3012
1210293	N/A	N/A	33686	33701	AGTATTGAAAGGAGCA	70	3013
1210321	N/A	N/A	35490	35505	CCTTAATTATCTTGCC	60	3014
1210351	N/A	N/A	2924	2939	CATTTGCGGCTTGCAG	94	3015
1210379	N/A	N/A	3794	3809	AAGTAGCTTGTAACTC	84	3016
1210407	N/A	N/A	4511	4526	CCAACTGAGACTCCCG	91	3017
1210435	N/A	N/A	4834	4849	CCTCTTGGGTGCGAAT	96	3018
1210463	N/A	N/A	5159	5174	AGTGTTGACCGAGAAA	145	3019
1210491	N/A	N/A	5638	5653	CGCTGCGCTTTCTGGC	127	3020
1210519	N/A	N/A	5900	5915	CAACACTCTCGGGATG	79	3021
1210547	N/A	N/A	6319	6334	GGAGTAGATGTCCAGC	122	3022
1210575	N/A	N/A	6587	6602	GGCTCCGGAGAGGTGG	139	3023
1210603	N/A	N/A	7000	7015	GCAACGGAACATCTTT	162	3024
1210631	N/A	N/A	7569	7584	AATAGAGACCTGCGCA	89	3025
1210659	N/A	N/A	8465	8480	TTGTTTATAGCTCCTA	31	3026
1210687	N/A	N/A	8930	8945	TCTGAGGACAAGCTCA	87	3027
1210715	N/A	N/A	9199	9214	ACCACCTTCACAGCTC	40	3028
1210763	N/A	N/A	9869	9884	ATGAGTAGCTCCAGCA	46	3029
1210789	N/A	N/A	10409	10424	GCCAGACCCTAAAGGG	108	3030
1210817	N/A	N/A	10655	10670	CTTAGCAACTCCTCTG	84	3031
1210845	N/A	N/A	11150	11165	AGGCCCTGGAGGATTC	111	3032
1210873	N/A	N/A	11865	11880	CGGAGTCAAAGTCAGT	13	3033
1210901	N/A	N/A	12254	12269	TCCTCCCCGTTGCCTG	62	3034
1210929	N/A	N/A	12746	12761	AGAGGTATTTGCTGCC	20	3035
1210957	N/A	N/A	13589	13604	GCCTGAGGGACCCGTG	139	3036
1210985	N/A	N/A	14044	14059	CTTAGCACCTGCAATA	68	3037
1211013	N/A	N/A	14482	14497	TCCAACTTGGAATCAA	65	3038
1211041	N/A	N/A	15080	15095	GTGGCTTAATTCCAGT	112	3039
1211069	N/A	N/A	15750	15765	TAAACAAGTCTGGGAT	43	3040
1211097	N/A	N/A	16450	16465	CAGTGGTAGGATGAAC	38	3041
1211123	N/A	N/A	16981	16996	ACCCTTCAATGATGTC	93	3042
1211150	N/A	N/A	17773	17788	CAGCCGAGGTAATTTC	141	3043
1211178	N/A	N/A	18725	18740	ACAGAGGCTCCGGGAC	123	3044
1211206	N/A	N/A	19057	19072	AGTCATGAACTGCATC	100	3045
1211230	N/A	N/A	19307	19322	GAAGACTTACTCCACC	24	3046
1211257	N/A	N/A	19910	19925	GCCCATATGCTTCGCC	113	3047
1211285	N/A	N/A	20482	20497	GTGGGAAGCTCGAGTT	188	3048
1211313	N/A	N/A	21744	21759	CATACGGTCTTCTTAA	67	3049
1211340	N/A	N/A	22639	22654	CAAGGTAAGGGTCCCG	76	3050
1211367	N/A	N/A	23454	23469	GACATTGATTGTAGCA	24	3051
1211387	N/A	N/A	24599	24614	CATATTGCAACTGGAA	23	3052
1211415	N/A	N/A	26049	26064	TCAACCACATTATATG	71	3053
1211440	N/A	N/A	26770	26785	TAATGGGTTGTGAGCC	26	3054
1211463	N/A	N/A	27497	27512	ACGGGATGAAGGCTTA	52	3055
1211491	N/A	N/A	28320	28335	TGCCTCGAGGTGCAGG	144	3056
1211513	N/A	N/A	28776	28791	ACCTTCCTTCCAGATC	100	3057
1211525	N/A	N/A	28952	28967	TGATAACTACTTTGCT	100	3058
1211553	N/A	N/A	29565	29580	GACAACCAACTCAGAG	31	3059
1211581	N/A	N/A	30173	30188	ACAAGGTTTGAGCGAG	17	3060
1211608	N/A	N/A	30821	30836	AAGAGTGGATTAGTAA	36	3061
1211636	N/A	N/A	31319	31334	ACCCTAATCTACTTAG	136	3062
1211661	N/A	N/A	31800	31815	AGAAGAGATAGTTCCT	42	3063
1211689	N/A	N/A	32535	32550	CAGTCTAGTGCAACCC	35	3064
1211717	N/A	N/A	33397	33412	CTGTGATTGAAGCCCA	13	3065
1211745	N/A	N/A	33912	33927	GAGGCCTTTGCATAGC	138	3066
1211773	N/A	N/A	34307	34322	GATGTACCAAGATAAG	39	3067
1211801	N/A	N/A	34699	34714	GACCGGGACTCCCTGG	102	3068
1211829	N/A	N/A	35060	35075	TTAACCGTGATAAGCA	45	3069
1211857	N/A	N/A	35336	35351	GGTGTTAACAGAGTGC	45	3070
1211885	N/A	N/A	35763	35778	GTGGGAATACGCCACA	78	3071
1211913	N/A	N/A	36274	36289	CTGGGAAGCCACGCTG	148	3072
1211941	N/A	N/A	36553	36568	TTGGGTATGGAAACCC	122	3073

TABLE 51
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	9	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	5	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	6	31
1076619	N/A	N/A	9489	9504	TTCTGGATTAAGGACC	52	3074
1209872	N/A	N/A	4062	4077	ACAAACCTAATCACCC	120	3075
1209900	N/A	N/A	8575	8590	ACTATAGTAGAAGGAG	75	3076
1209928	N/A	N/A	10058	10073	TTTATAATGCTTCAGC	7	3077
1209956	N/A	N/A	12372	12387	TCATTTGAAGATGTTC	17	3078
1209984	N/A	N/A	15734	15749	CGTTTTGAAGACAGCG	35	3079
1210012	N/A	N/A	17221	17236	GGATTAAATGCATTGC	18	3080
1210040	N/A	N/A	19675	19690	TATTTTAGCTAGAGCA	80	3081
1210068	N/A	N/A	22593	22608	AGCATTTATGTGCTCT	126	3082
1210097	N/A	N/A	23700	23715	TAAGTGATAGCTACCT	29	3083
1210125	N/A	N/A	25303	25318	TAGATTACATAAGAGG	22	3084
1210153	N/A	N/A	26702	26717	ATAGAGGTTCTTCTGG	44	3085
1210181	N/A	N/A	27779	27794	GCTTATCAGAACTTCT	39	3086
1210209	N/A	N/A	29769	29784	GTATTGAAATGTTGTA	4	3087
1210238	N/A	N/A	30171	30186	AAGGTTTGAGCGAGGC	20	3088
1210266	N/A	N/A	31610	31625	TCCATAAAGATCACAG	37	3089
1210294	N/A	N/A	33700	33715	AGTAAGTAGCTAACAG	108	3090
1210322	N/A	N/A	35491	35506	TCCTTAATTATCTTGC	55	3091
1210352	N/A	N/A	2927	2942	TTTCATTTGCGGCTTG	160	3092
1210380	N/A	N/A	3819	3834	GGAAGACCTGACCACC	131	3093
1210408	N/A	N/A	4517	4532	GCGCGCCCAACTGAGA	111	3094
1210436	N/A	N/A	4845	4860	TCTAGCGGGCTCCTCT	185	3095
1210464	N/A	N/A	5163	5178	ACCTAGTGTTGACCGA	90	3096
1210492	N/A	N/A	5640	5655	TGCGCTGCGCTTTCTG	163	3097
1210520	N/A	N/A	5902	5917	TCCAACACTCTCGGGA	86	3098
1210548	N/A	N/A	6322	6337	AAGGGAGTAGATGTCC	113	3099
1210576	N/A	N/A	6589	6604	GCGGCTCCGGAGAGGT	115	3100
1210604	N/A	N/A	7007	7022	CCCGCCTGCAACGGAA	105	3101
1210632	N/A	N/A	7577	7592	TTGGCTTAAATAGAGA	71	3102
1210660	N/A	N/A	8488	8503	CCCGCCTCTCTCAGTC	176	3103
1210688	N/A	N/A	9066	9081	GCGAGATCACCACCCC	89	3104
1210716	N/A	N/A	9200	9215	TACCACCTTCACAGCT	55	3105
1210764	N/A	N/A	9871	9886	CTATGAGTAGCTCCAG	9	3106
1210790	N/A	N/A	10421	10436	CCGGGAACTTCAGCCA	91	3107
1210818	N/A	N/A	10663	10678	AAGCACAACTTAGCAA	48	3108
1210846	N/A	N/A	11163	11178	AACTCAATCAAAGAGG	101	3109
1210874	N/A	N/A	11868	11883	AGGCGGAGTCAAAGTC	69	3110
1210902	N/A	N/A	12279	12294	TTACCTTAGGTCACAG	36	3111
1210930	N/A	N/A	12754	12769	GCTTACAGAGAGGTAT	41	3112
1210958	N/A	N/A	13608	13623	GCATTGGAACAATGGG	58	3113
1210986	N/A	N/A	14048	14063	TAACCTTAGCACCTGC	54	3114
1211014	N/A	N/A	14511	14526	CTGCCTTATAGAGGCT	117	3115
1211042	N/A	N/A	15087	15102	GCCGCCTGTGGCTTAA	125	3116
1211070	N/A	N/A	15795	15810	AAATTGTCTGGTGTCC	30	3117
1211098	N/A	N/A	16463	16478	ATAAGTTCCCCATCAG	51	3118
1211124	N/A	N/A	17094	17109	CAAACTCCTCACTGGT	100	3119
1211151	N/A	N/A	18112	18127	CTAGAAGTGAATGGAC	61	3120
1211179	N/A	N/A	18745	18760	CAATTACATCCTGAAC	82	3121
1211207	N/A	N/A	19061	19076	TTGCAGTCATGAACTG	113	3122
1211231	N/A	N/A	19319	19334	GAATTGCTCTTGGAAG	32	3123
1211258	N/A	N/A	19928	19943	CTAAACAATGTGGCCT	178	3124
1211286	N/A	N/A	20484	20499	TAGTGGGAAGCTCGAG	111	3125
1211314	N/A	N/A	21800	21815	CAGATAGCAAACTATC	78	3126
1211341	N/A	N/A	22641	22656	TCCAAGGTAAGGGTCC	88	3127
1211368	N/A	N/A	23458	23473	TAAGGACATTGATTGT	33	3128
1211388	N/A	N/A	24601	24616	TCCATATTGCAACTGG	80	3129
1211416	N/A	N/A	26055	26070	CTATCATCAACCACAT	65	3130
1211441	N/A	N/A	26776	26791	GACGGCTAATGGGTTG	61	3131
1211464	N/A	N/A	27500	27515	CAGACGGGATGAAGGC	61	3132
1211492	N/A	N/A	28360	28375	CACTTGGTTAGGAGAG	124	3133
1211514	N/A	N/A	28778	28793	GGACCTTCCTTCCAGA	124	3134
1211526	N/A	N/A	28963	28978	AGACACATACCTGATA	30	3135
1211554	N/A	N/A	29568	29583	TCTGACAACCAACTCA	51	3136
1211582	N/A	N/A	30237	30252	TAACGAGCCTGTACAA	42	3137
1211609	N/A	N/A	30895	30910	TTCGGAATTCTGCACT	25	3138
1211637	N/A	N/A	31323	31338	AACAACCCTAATCTAC	94	3139
1211662	N/A	N/A	31816	31831	CAACCTAATGCAATCA	64	3140
1211690	N/A	N/A	32614	32629	GGGTGTAAGCAGTAAA	10	3141
1211718	N/A	N/A	33506	33521	ATGAGTGGGTGCCTTT	50	3142
1211746	N/A	N/A	33915	33930	GAGGAGGCCTTTGCAT	112	3143
1211774	N/A	N/A	34311	34326	TCTAGATGTACCAAGA	90	3144
1211802	N/A	N/A	34701	34716	ATGACCGGGACTCCCT	51	3145
1211830	N/A	N/A	35064	35079	AAGCTTAACCGTGATA	118	3146
1211858	N/A	N/A	35381	35396	AAGGCAGGGCTATAAA	85	3147
1211886	N/A	N/A	35766	35781	GAAGTGGGAATACGCC	16	3148
1211914	N/A	N/A	36276	36291	GACTGGGAAGCCACGC	46	3149
1211942	N/A	N/A	36568	36583	TCTTTCCAAGGGTGGT	93	3150

TABLE 52
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	18	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	42	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
1076616	N/A	N/A	9492	9507	ATCTTCTGGATTAAGG	21	3151
1120813	N/A	N/A	28795	28810	ACGCCTGGCTTGGGTG	94	3152
1209873	N/A	N/A	4128	4143	CTTTATATGCATGGTC	39	3153
1209901	N/A	N/A	8577	8592	TTACTATAGTAGAAGG	83	3154
1209929	N/A	N/A	10060	10075	GGTTTATAATGCTTCA	98	3155
1209957	N/A	N/A	12388	12403	CTTACTTAAGCCCCTA	24	3156
1209985	N/A	N/A	15754	15769	TTGATAAACAAGTCTG	35	3157
1210013	N/A	N/A	17432	17447	GCAAATCTTCTGTTCC	109	3158
1210041	N/A	N/A	19677	19692	GGTATTTTAGCTAGAG	61	3159
1210069	N/A	N/A	22638	22653	AAGGTAAGGGTCCCGT	82	3160
1210098	N/A	N/A	23721	23736	GGATAATATCAGCAGA	103	3161
1210126	N/A	N/A	25304	25319	ATAGATTACATAAGAG	50	3162
1210154	N/A	N/A	26703	26718	CATAGAGGTTCTTCTG	96	3163
1210182	N/A	N/A	27862	27877	CTTATGTACATGTGTC	110	3164
1210210	N/A	N/A	29770	29785	AGTATTGAAATGTTGT	109	3165
1210239	N/A	N/A	30183	30198	CCAAATCATAACAAGG	58	3166
1210267	N/A	N/A	31612	31627	CATCCATAAAGATCAC	119	3167
1210295	N/A	N/A	33836	33851	CCAAATGCAGGATTCA	28	3168
1210323	N/A	N/A	35804	35819	TTTTACTGGACACTGC	36	3169
1210353	N/A	N/A	2931	2946	TCCTTTTCATTTGCGG	52	3170
1210381	N/A	N/A	3831	3846	TCAACCTTTCAGGGAA	122	3171
1210409	N/A	N/A	4519	4534	AGGCGCGCCCAACTGA	137	3172
1210437	N/A	N/A	4848	4863	TGATCTAGCGGGCTCC	39	3173
1210465	N/A	N/A	5165	5180	AGACCTAGTGTTGACC	49	3174
1210493	N/A	N/A	5643	5658	GCCTGCGCTGCGCTTT	149	3175
1210521	N/A	N/A	5954	5969	GGGTTTGAATTAAGCC	27	3176
1210549	N/A	N/A	6328	6343	GGACCGAAGGGAGTAG	124	3177
1210577	N/A	N/A	6592	6607	CTGGCGGCTCCGGAGA	106	3178
1210605	N/A	N/A	7015	7030	CAGCCGGGCCCGCCTG	96	3179
1210633	N/A	N/A	7587	7602	CTGAAGTTACTTGGCT	82	3180
1210661	N/A	N/A	8507	8522	CTCGGGATCATTCCCC	88	3181
1210689	N/A	N/A	9068	9083	CAGCGAGATCACCACC	18	3182
1210717	N/A	N/A	9201	9216	ATACCACCTTCACAGC	49	3183
1210765	N/A	N/A	9880	9895	ATACTGGATCTATGAG	15	3184
1210791	N/A	N/A	10432	10447	TCCGGAGTGCTCCGGG	50	3185
1210819	N/A	N/A	10665	10680	TTAAGCACAACTTAGC	24	3186
1210847	N/A	N/A	11164	11179	AAACTCAATCAAAGAG	83	3187
1210875	N/A	N/A	11870	11885	GCAGGCGGAGTCAAAG	80	3188
1210903	N/A	N/A	12282	12297	CCCTTACCTTAGGTCA	107	3189
1210931	N/A	N/A	12768	12783	GTATTCCACACCAGGC	10	3190
1210959	N/A	N/A	13611	13626	CAGGCATTGGAACAAT	94	3191
1210987	N/A	N/A	14055	14070	ACTCTTGTAACCTTAG	82	3192
1211015	N/A	N/A	14538	14553	TCTACCTTGTACAATT	57	3193
1211043	N/A	N/A	15092	15107	CCCAAGCCGCCTGTGG	38	3194
1211071	N/A	N/A	15850	15865	CAGAAGGTCTCCCGTG	75	3195
1211099	N/A	N/A	16471	16486	TGAAGGTAATAAGTTC	60	3196
1211125	N/A	N/A	17106	17121	GGACTATGACCACAAA	1	3197
1211152	N/A	N/A	18134	18149	CATCAGGCATGAATGA	129	3198
1211180	N/A	N/A	18757	18772	CCCTCGATGCCACAAT	82	3199
1211208	N/A	N/A	19062	19077	ATTGCAGTCATGAACT	97	3200
1211232	N/A	N/A	19373	19388	CCCTTGTTGGAAAACT	18	3201
1211259	N/A	N/A	20000	20015	GATCGCCATTTTCCTT	77	3202
1211287	N/A	N/A	20486	20501	GATAGTGGGAAGCTCG	60	3203
1211315	N/A	N/A	21836	21851	TAAGGGTGCTACAGAG	79	3204
1211342	N/A	N/A	22651	22666	TTTGATCCTGTCCAAG	67	3205
1211369	N/A	N/A	23506	23521	CTACTATATCCTGGAA	35	3206
1211389	N/A	N/A	24605	24620	CTAATCCATATTGCAA	75	3207
1211417	N/A	N/A	26063	26078	TAGTAAGTCTATCATC	62	3208
1211442	N/A	N/A	26781	26796	AAAATGACGGCTAATG	96	3209
1211465	N/A	N/A	27502	27517	ACCAGACGGGATGAAG	96	3210
1211493	N/A	N/A	28365	28380	AGAGACACTTGGTTAG	102	3211
1211527	N/A	N/A	28974	28989	CTATTGGTGGAAGACA	44	3212
1211555	N/A	N/A	29575	29590	TGGGCATTCTGACAAC	96	3213
1211583	N/A	N/A	30239	30254	AATAACGAGCCTGTAC	53	3214
1211610	N/A	N/A	30897	30912	CATTCGGAATTCTGCA	19	3215
1211638	N/A	N/A	31372	31387	TTAAGTTGTCACTTGC	58	3216
1211663	N/A	N/A	31818	31833	GCCAACCTAATGCAAT	53	3217
1211691	N/A	N/A	32617	32632	GCTGGGTGTAAGCAGT	61	3218
1211719	N/A	N/A	33523	33538	GCTATGATGTTGGGTT	100	3219
1211747	N/A	N/A	34009	34024	CATGATCAGACGCACG	43	3220
1211775	N/A	N/A	34313	34328	GCTCTAGATGTACCAA	40	3221
1211803	N/A	N/A	34703	34718	CAATGACCGGGACTCC	7	3222
1211831	N/A	N/A	35067	35082	TCTAAGCTTAACCGTG	174	3223
1211859	N/A	N/A	35396	35411	CTGACTTATCTAATGA	65	3224
1211887	N/A	N/A	35841	35856	CCACCTACATCTAACC	157	3225
1211915	N/A	N/A	36289	36304	CAGCCGACAGTATGAC	90	3226
1211943	N/A	N/A	36617	36632	ACACTACATGGCCAGC	124	3227

TABLE 53
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	16	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	15	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	24	31
1076615	N/A	N/A	9493	9508	GATCTTCTGGATTAAG	77	3228
1120812	N/A	N/A	28796	28811	TACGCCTGGCTTGGGT	83	3229
1209874	N/A	N/A	4155	4170	CGTTATATGCCAAGCA	115	3230
1209902	N/A	N/A	8578	8593	TTTACTATAGTAGAAG	121	3231
1209930	N/A	N/A	10061	10076	TGGTTTATAATGCTTC	2	3232
1209958	N/A	N/A	12770	12785	AAGTATTCCACACCAG	32	3233
1209986	N/A	N/A	15777	15792	GCCAAAATGACAGTGT	203	3234
1210014	N/A	N/A	17581	17596	AACATTGAATACCCTT	21	3235
1210042	N/A	N/A	19727	19742	CAAAGGCGATGAAGGT	54	3236
1210070	N/A	N/A	23026	23041	TAAGAGTCAGGATTCC	62	3237
1210099	N/A	N/A	23723	23738	ATGGATAATATCAGCA	30	3238
1210127	N/A	N/A	26041	26056	ATTATATGTGAATGGG	33	3239
1210155	N/A	N/A	26737	26752	ACATAACCTTAATCAA	76	3240
1210183	N/A	N/A	27866	27881	GTTACTTATGTACATG	74	3241
1210211	N/A	N/A	29771	29786	GAGTATTGAAATGTTG	31	3242
1210240	N/A	N/A	30246	30261	TCAGTAAAATAACGAG	82	3243
1210268	N/A	N/A	31613	31628	CCATCCATAAAGATCA	56	3244
1210296	N/A	N/A	33995	34010	CGTTTTAGAATGATCA	70	3245
1210324	N/A	N/A	35920	35935	CTATTATAAATCCAGT	74	3246
1210354	N/A	N/A	3021	3036	CAGAGTATATATCCAC	49	3247
1210382	N/A	N/A	3873	3888	CAAATTGCCACCACTA	128	3248
1210410	N/A	N/A	4521	4536	AGAGGCGCGCCCAACT	111	3249
1210438	N/A	N/A	4852	4867	GGATTGATCTAGCGGG	87	3250
1210466	N/A	N/A	5169	5184	GTGGAGACCTAGTGTT	125	3251
1210494	N/A	N/A	5646	5661	CGCGCCTGCGCTGCGC	130	3252
1210522	N/A	N/A	5957	5972	AGAGGGTTTGAATTAA	89	3253
1210550	N/A	N/A	6331	6346	CCTGGACCGAAGGGAG	118	3254
1210578	N/A	N/A	6595	6610	ACTCTGGCGGCTCCGG	113	3255
1210606	N/A	N/A	7050	7065	GCCGCCTGCAGGACCA	123	3256
1210634	N/A	N/A	7594	7609	ATCGGCTCTGAAGTTA	52	3257
1210662	N/A	N/A	8510	8525	CATCTCGGGATCATTC	88	3258
1210690	N/A	N/A	9070	9085	CCCAGCGAGATCACCA	81	3259
1210718	N/A	N/A	9202	9217	CATACCACCTTCACAG	64	3260
1210766	N/A	N/A	9883	9898	TATATACTGGATCTAT	102	3261
1210792	N/A	N/A	10435	10450	CCATCCGGAGTGCTCC	150	3262
1210820	N/A	N/A	10669	10684	TGGTTTAAGCACAACT	61	3263
1210848	N/A	N/A	11166	11181	TTAAACTCAATCAAAG	119	3264
1210876	N/A	N/A	11873	11888	AAGGCAGGCGGAGTCA	121	3265
1210904	N/A	N/A	12285	12300	CTACCCTTACCTTAGG	112	3266
1210932	N/A	N/A	12814	12829	AGAGTATGATTGGGTA	12	3267
1210960	N/A	N/A	13618	13633	TGGGCAACAGGCATTG	141	3268
1210988	N/A	N/A	14071	14086	ACATAAGCTCTTGTTC	54	3269
1211016	N/A	N/A	14551	14566	ATACCGATGCATTTCT	45	3270
1211044	N/A	N/A	15096	15111	GGCTCCCAAGCCGCCT	103	3271
1211072	N/A	N/A	15852	15867	TGCAGAAGGTCTCCCG	71	3272
1211100	N/A	N/A	16517	16532	TGAATGGATCTCACTA	62	3273
1211126	N/A	N/A	17112	17127	CAGTCTGGACTATGAC	87	3274
1211153	N/A	N/A	18166	18181	GCCAAGCAACTTGATA	90	3275
1211181	N/A	N/A	18760	18775	GATCCCTCGATGCCAC	104	3276
1211209	N/A	N/A	19064	19079	CAATTGCAGTCATGAA	121	3277
1211233	N/A	N/A	19377	19392	TATACCCTTGTTGGAA	123	3278
1211260	N/A	N/A	20002	20017	CAGATCGCCATTTTCC	75	3279
1211288	N/A	N/A	20497	20512	CTCCCCCAGCAGATAG	106	3280
1211316	N/A	N/A	21839	21854	GCATAAGGGTGCTACA	102	3281
1211343	N/A	N/A	22654	22669	GGCTTTGATCCTGTCC	119	3282
1211370	N/A	N/A	23509	23524	TATCTACTATATCCTG	39	3283
1211390	N/A	N/A	24608	24623	GTCCTAATCCATATTG	118	3284
1211418	N/A	N/A	26104	26119	TTTCAACCATAAGCAC	81	3285
1211443	N/A	N/A	26840	26855	CATTCAAGCACAACAT	92	3286
1211466	N/A	N/A	27506	27521	AACCACCAGACGGGAT	94	3287
1211494	N/A	N/A	28521	28536	ACTTACCAGCAAGAAT	115	3288
1211528	N/A	N/A	28978	28993	CTACCTATTGGTGGAA	109	3289
1211556	N/A	N/A	29583	29598	TGGTACCATGGGCATT	97	3290
1211584	N/A	N/A	30269	30284	CTCTGGTGGGCTCAAA	38	3291
1211611	N/A	N/A	30903	30918	CTTTTACATTCGGAAT	66	3292
1211639	N/A	N/A	31376	31391	GATGTTAAGTTGTCAC	38	3293
1211664	N/A	N/A	31905	31920	AAAGGACCTCAGGTGA	100	3294
1211692	N/A	N/A	32645	32660	CCTCTATGTGCCCCAC	93	3295
1211720	N/A	N/A	33533	33548	GGAAGGTGCAGCTATG	91	3296
1211748	N/A	N/A	34064	34079	CATGTTAAGGAAGCTG	106	3297
1211776	N/A	N/A	34337	34352	CATGCGGGCCCTGTTC	137	3298
1211804	N/A	N/A	34707	34722	TTGGCAATGACCGGGA	90	3299
1211832	N/A	N/A	35070	35085	GACTCTAAGCTTAACC	27	3300
1211860	N/A	N/A	35420	35435	CTGAAGTTGTCTCTTG	40	3301
1211888	N/A	N/A	35846	35861	CCCGGCCACCTACATC	138	3302
1211916	N/A	N/A	36292	36307	ATGCAGCCGACAGTAT	106	3303
1211944	N/A	N/A	36690	36705	CTTAATACCTGAGGGT	85	3304

TABLE 54
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	12	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	96	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
1076614	N/A	N/A	9494	9509	CGATCTTCTGGATTAA	69	3305
1120811	N/A	N/A	28797	28812	ATACGCCTGGCTTGGG	113	3306
1209875	N/A	N/A	4157	4172	CCCGTTATATGCCAAG	160	3307
1209903	N/A	N/A	8581	8596	ATGTTTACTATAGTAG	143	3308
1209931	N/A	N/A	10087	10102	CTATTTGTACTGTGGT	132	3309
1209959	N/A	N/A	12866	12881	GAAATAACTGGGACTT	69	3310
1209987	N/A	N/A	15796	15811	GAAATTGTCTGGTGTC	59	3311
1210015	N/A	N/A	17604	17619	CAAGTAACTGTATTCA	39	3312
1210043	N/A	N/A	19753	19768	ACAACTATGTGCCAGC	50	3313
1210071	N/A	N/A	23033	23048	GACTTACTAAGAGTCA	156	3314
1210100	N/A	N/A	23724	23739	AATGGATAATATCAGC	77	3315
1210128	N/A	N/A	26065	26080	GATAGTAAGTCTATCA	26	3316
1210156	N/A	N/A	26738	26753	TACATAACCTTAATCA	54	3317
1210184	536	551	28509	28524	GAATTTGGAAGATTCC	82*	3318
1210212	N/A	N/A	29777	29792	AACCATGAGTATTGAA	41	3319
1210241	N/A	N/A	30260	30275	GCTCAAATTATTCATC	92	3320
1210269	N/A	N/A	31628	31643	GAAAGCTGATGTGTGC	58	3321
1210297	N/A	N/A	34216	34231	GGAATTTCGAGAGAGG	71	3322
1210325	N/A	N/A	36173	36188	CTGGATATGCAGGTGG	72	3323
1210355	N/A	N/A	3023	3038	GCCAGAGTATATATCC	95	3324
1210383	N/A	N/A	3889	3904	ATAAGGGCCCAGTGCC	8	3325
1210411	N/A	N/A	4532	4547	CTCGGCTTGGCAGAGG	60	3326
1210439	N/A	N/A	4870	4885	GCTTCCTAGGATTGGC	120	3327
1210467	N/A	N/A	5173	5188	CCCCGTGGAGACCTAG	39	3328
1210495	N/A	N/A	5651	5666	AGCCCCGCGCCTGCGC	105	3329
1210523	N/A	N/A	6059	6074	AGTACCCAATCCCAGG	114	3330
1210551	N/A	N/A	6333	6348	AGCCTGGACCGAAGGG	93	3331
1210579	N/A	N/A	6602	6617	CGCGCAGACTCTGGCG	44	3332
1210607	N/A	N/A	7077	7092	GCCGCCTGCCGCCGAG	69	3333
1210635	N/A	N/A	7596	7611	AGATCGGCTCTGAAGT	134	3334
1210663	N/A	N/A	8535	8550	GCATTCAAGCCTTCTC	117	3335
1210691	N/A	N/A	9105	9120	GAGTGAATCACAATGA	81	3336
1210719	N/A	N/A	9204	9219	ATCATACCACCTTCAC	152	3337
1210767	N/A	N/A	9900	9915	GTGTAGCATCTTGAAC	35	3338
1210793	N/A	N/A	10440	10455	GACTCCCATCCGGAGT	123	3339
1210821	N/A	N/A	10737	10752	AACGGCAGAAGACACC	101	3340
1210849	N/A	N/A	11178	11193	CAGCCACAATTGTTAA	77	3341
1210877	N/A	N/A	11933	11948	CACACGAGGCAGATAA	45	3342
1210905	N/A	N/A	12287	12302	TTCTACCCTTACCTTA	119	3343
1210933	N/A	N/A	12830	12845	ACTGAGCTATTGCAAA	95	3344
1210961	N/A	N/A	13649	13664	CTGACAAACGAGGAAG	120	3345
1210989	N/A	N/A	14090	14105	GACTGGTTTGTCCAGT	140	3346
1211017	N/A	N/A	14580	14595	TCCCGTCACCCAAAAT	67	3347
1211045	N/A	N/A	15109	15124	CTTCTAGCTCTTGGGC	21	3348
1211073	N/A	N/A	15897	15912	GAGGGAGCCACGAAGA	43	3349
1211101	N/A	N/A	16538	16553	TCAATAGAGTTGAAGA	91	3350
1211127	N/A	N/A	17256	17271	GCTAAGCCACCAGCTA	98	3351
1211154	N/A	N/A	18260	18275	CTGTTTGAAGAGTCAT	24	3352
1211182	N/A	N/A	18763	18778	TAGGATCCCTCGATGC	67	3353
1211210	N/A	N/A	19068	19083	GTTGCAATTGCAGTCA	61	3354
1211234	N/A	N/A	19412	19427	GTTACTGGATAATAGT	32	3355
1211261	N/A	N/A	20004	20019	CACAGATCGCCATTTT	62	3356
1211289	N/A	N/A	20503	20518	ACCTAGCTCCCCCAGC	120	3357
1211317	N/A	N/A	21842	21857	CCAGCATAAGGGTGCT	93	3358
1211344	N/A	N/A	22659	22674	GACAGGGCTTTGATCC	3	3359
1211371	N/A	N/A	23553	23568	TTGTAACACCTCTAGC	88	3360
1211391	N/A	N/A	24610	24625	CTGTCCTAATCCATAT	70	3361
1211419	N/A	N/A	26133	26148	TCTGATGATCCAGAGA	109	3362
1211444	N/A	N/A	26857	26872	TAGTCTAGCACTCTTC	47	3363
1211467	N/A	N/A	27509	27524	GCCAACCACCAGACGG	70	3364
1211495	N/A	N/A	28523	28538	CAACTTACCAGCAAGA	39*	3365
1211529	N/A	N/A	28981	28996	TCACTACCTATTGGTG	143	3366
1211557	N/A	N/A	29587	29602	GAAATGGTACCATGGG	58	3367
1211585	N/A	N/A	30274	30289	TTATCCTCTGGTGGGC	83	3368
1211612	N/A	N/A	30907	30922	TGCGCTTTTACATTCG	86	3369
1211640	N/A	N/A	31381	31396	TCCTTGATGTTAAGTT	57	3370
1211665	N/A	N/A	31932	31947	CCCGCCCACTGTCTTT	100	3371
1211693	N/A	N/A	32673	32688	TCCAACCAATAATAGT	119	3372
1211721	N/A	N/A	33569	33584	GAAAGGGATGTCAGTG	55	3373
1211749	N/A	N/A	34075	34090	GCCTTACATGACATGT	34	3374
1211777	N/A	N/A	34344	34359	CCTATTGCATGCGGGC	48	3375
1211805	N/A	N/A	34710	34725	TCTTTGGCAATGACCG	65	3376
1211833	N/A	N/A	35076	35091	GTGAATGACTCTAAGC	108	3377
1211861	N/A	N/A	35422	35437	TACTGAAGTTGTCTCT	14	3378
1211889	N/A	N/A	35848	35863	CGCCCGGCCACCTACA	26	3379
1211917	N/A	N/A	36297	36312	TAAGGATGCAGCCGAC	133	3380
1211945	N/A	N/A	36692	36707	GCCTTAATACCTGAGG	77	3381

TABLE 55
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	30	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	19	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	11	31
1076613	N/A	N/A	9495	9510	ACGATCTTCTGGATTA	47	3382
1120810	N/A	N/A	28798	28813	GATACGCCTGGCTTGG	48	3383
1205181	N/A	N/A	22680	22695	GATATCACACACTCCA	173	3384
1209876	N/A	N/A	4159	4174	TGCCCGTTATATGCCA	169	3385
1209904	N/A	N/A	8582	8597	GATGTTTACTATAGTA	58	3386
1209932	N/A	N/A	10213	10228	CTCCAATAGGACTGGG	98	3387
1209960	N/A	N/A	13010	13025	CTTACTTATACCTGGA	40	3388
1209988	N/A	N/A	15800	15815	CAAGGAAATTGTCTGG	49	3389
1210016	N/A	N/A	18620	18635	CCTAATTTGTTACAGG	148	3390
1210044	N/A	N/A	19959	19974	GAAATAGCTGAGTCTC	56	3391
1210072	N/A	N/A	23159	23174	AAGAAGAGTTTGGTCA	54	3392
1210101	N/A	N/A	23746	23761	CCAATAGGCAAAATTC	83	3393
1210129	N/A	N/A	26067	26082	AAGATAGTAAGTCTAT	118	3394
1210157	N/A	N/A	26779	26794	AATGACGGCTAATGGG	97	3395
1210185	N/A	N/A	28582	28597	TAAACTAATCATTCCG	58	3396
1210214	N/A	N/A	29807	29822	GCAAAGCACTGTCTGG	32	3397
1210242	N/A	N/A	30324	30339	TGTAACACTCAACCGT	61	3398
1210270	N/A	N/A	31679	31694	CAAACCTACAGTCAGC	115	3399
1210298	N/A	N/A	34222	34237	TTCGATGGAATTTCGA	92	3400
1210326	N/A	N/A	36438	36453	AAAGGATTAAGCTCCA	95	3401
1210356	N/A	N/A	3047	3062	CTCAGATGGCCCCCCA	208	3402
1210384	N/A	N/A	3957	3972	TAAAGGTTTATGGTGG	142	3403
1210412	N/A	N/A	4534	4549	GTCTCGGCTTGGCAGA	133	3404
1210440	N/A	N/A	4886	4901	CCTACGAAGCATGCCA	148	3405
1210468	N/A	N/A	5177	5192	CTGGCCCCGTGGAGAC	120	3406
1210496	N/A	N/A	5655	5670	CCAAAGCCCCGCGCCT	118	3407
1210524	N/A	N/A	6062	6077	GAAAGTACCCAATCCC	131	3408
1210552	N/A	N/A	6337	6352	CAGGAGCCTGGACCGA	121	3409
1210580	N/A	N/A	6605	6620	CCTCGCGCAGACTCTG	126	3410
1210608	N/A	N/A	7081	7096	TCGCGCCGCCTGCCGC	140	3411
1210636	N/A	N/A	7603	7618	GGACCCTAGATCGGCT	151	3412
1210664	N/A	N/A	8547	8562	CCTTAGACACCTGCAT	108	3413
1210692	N/A	N/A	9107	9122	TAGAGTGAATCACAAT	40	3414
1210720	N/A	N/A	9209	9224	TAGCTATCATACCACC	128	3415
1210768	N/A	N/A	9926	9941	GGATCTAAACTGGTTT	124	3416
1210794	N/A	N/A	10443	10458	GGAGACTCCCATCCGG	163	3417
1210822	N/A	N/A	10744	10759	TATTTCCAACGGCAGA	84	3418
1210850	N/A	N/A	11179	11194	GCAGCCACAATTGTTA	116	3419
1210878	N/A	N/A	11955	11970	CTAAGCCTCTCTTACC	164	3420
1210906	N/A	N/A	12322	12337	CACTAGCCAACCAGTC	114	3421
1210934	N/A	N/A	12841	12856	CATAGGGCCCAACTGA	143	3422
1210962	N/A	N/A	13683	13698	CAGGCAAACTAGTTAG	89	3423
1210990	N/A	N/A	14097	14112	GTTTACTGACTGGTTT	33	3424
1211018	N/A	N/A	14586	14601	TAAGAATCCCGTCACC	133	3425
1211046	N/A	N/A	15111	15126	CCCTTCTAGCTCTTGG	150	3426
1211074	N/A	N/A	15899	15914	CTGAGGGAGCCACGAA	112	3427
1211102	N/A	N/A	16543	16558	CAGGCTCAATAGAGTT	88	3428
1211128	N/A	N/A	17258	17273	TAGCTAAGCCACCAGC	111	3429
1211155	N/A	N/A	18342	18357	GAAGAGGCCCTGCTTA	128	3430
1211183	N/A	N/A	18765	18780	TTTAGGATCCCTCGAT	130	3431
1211211	N/A	N/A	19069	19084	AGTTGCAATTGCAGTC	45	3432
1211235	N/A	N/A	19417	19432	CTGAGGTTACTGGATA	22	3433
1211262	N/A	N/A	20021	20036	CCAACCCACAACCATC	109	3434
1211290	N/A	N/A	20530	20545	TCTGACATGGGCCGTG	97	3435
1211318	N/A	N/A	21863	21878	GTATCAATTCATATCT	89	3436
1211372	N/A	N/A	23693	23708	TAGCTACCTGCAGACA	161	3437
1211392	N/A	N/A	24745	24760	GATACATCAACAAGTT	71	3438
1211420	N/A	N/A	26210	26225	TTAGAGGATCAAGGAC	46	3439
1211445	N/A	N/A	26859	26874	TCTAGTCTAGCACTCT	84	3440
1211468	N/A	N/A	27512	27527	ATCGCCAACCACCAGA	58	3441
1211496	N/A	N/A	28535	28550	CTTTACCATCCACAAC	136	3442
1211530	N/A	N/A	29039	29054	CCCAGTAGAATCTAGG	164	3443
1211558	N/A	N/A	29591	29606	TGGTGAAATGGTACCA	114	3444
1211586	N/A	N/A	30276	30291	ATTTATCCTCTGGTGG	55	3445
1211613	N/A	N/A	30915	30930	CAAAGTCATGCGCTTT	114	3446
1211641	N/A	N/A	31386	31401	CTACTTCCTTGATGTT	116	3447
1211666	N/A	N/A	31935	31950	CGCCCCGCCCACTGTC	120	3448
1211694	N/A	N/A	32711	32726	GAGTTTGATTCTGCCG	70*	3449
1211722	N/A	N/A	33627	33642	CCTCGCAAAAGCACTT	108	3450
1211750	N/A	N/A	34078	34093	AGGGCCTTACATGACA	163	3451
1211778	N/A	N/A	34346	34361	TGCCTATTGCATGCGG	118	3452
1211806	N/A	N/A	34712	34727	GCTCTTTGGCAATGAC	76	3453
1211834	N/A	N/A	35118	35133	CAGCTTAATGTGTATG	69	3454
1211862	N/A	N/A	35424	35439	AATACTGAAGTTGTCT	63	3455
1211890	N/A	N/A	35851	35866	CACCGCCCGGCCACCT	147	3456
1211918	N/A	N/A	36356	36371	CTATGGGCACTGCCAA	110	3457
1211946	N/A	N/A	36694	36709	AGGCCTTAATACCTGA	140	3458

TABLE 56
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	10	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	9	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
1076612	N/A	N/A	9496	9511	TACGATCTTCTGGATT	54	3459
1079057	N/A	N/A	19073	19088	AGGCAGTTGCAATTGC	128	3460
1205267	N/A	N/A	28800	28815	TTGATACGCCTGGCTT	26	3461
1209877	N/A	N/A	4168	4183	CATTTACAGTGCCCGT	109	3462
1209905	N/A	N/A	8601	8616	AGAAACGATTATGTGC	77	3463
1209933	N/A	N/A	10214	10229	ACTCCAATAGGACTGG	62	3464
1209961	N/A	N/A	13767	13782	AGTGATATAATTAGGT	15	3465
1209989	N/A	N/A	15831	15846	TCTAAAATCTGGCCAA	60	3466
1210017	N/A	N/A	18622	18637	TACCTAATTTGTTACA	111	3467
1210045	N/A	N/A	20104	20119	TTATTAACACCTCCCA	67	3468
1210073	N/A	N/A	23160	23175	GAAGAAGAGTTTGGTC	29	3469
1210102	N/A	N/A	23763	23778	CACCAATTTTCATCCA	35	3470
1210130	N/A	N/A	26069	26084	TTAAGATAGTAAGTCT	72	3471
1210158	N/A	N/A	26787	26802	AGTAAGAAAATGACGG	93	3472
1210186	N/A	N/A	28584	28599	ACTAAACTAATCATTC	94	3473
1210215	N/A	N/A	29811	29826	AGTAGCAAAGCACTGT	76	3474
1210243	N/A	N/A	30347	30362	AAGAAGTACCTCACTA	104	3475
1210271	N/A	N/A	31709	31724	GTAATCTAGAGCAAGG	36	3476
1210299	N/A	N/A	34223	34238	GTTCGATGGAATTTCG	19	3477
1210327	N/A	N/A	36461	36476	ATTATTGGAGTCACGC	30	3478
1210357	N/A	N/A	3102	3117	GCATCTAGATTCCTTT	109	3479
1210385	N/A	N/A	4056	4071	CTAATCACCCTGCTTA	112	3480
1210413	N/A	N/A	4544	4559	GCCCCCTTCAGTCTCG	169	3481
1210441	N/A	N/A	4889	4904	GCACCTACGAAGCATG	161	3482
1210469	N/A	N/A	5214	5229	GCGGCTGAGCTTTCTC	156	3483
1210497	N/A	N/A	5657	5672	GGCCAAAGCCCCGCGC	153	3484
1210525	N/A	N/A	6065	6080	TTGGAAAGTACCCAAT	116	3485
1210553	N/A	N/A	6356	6371	GTGCGGTGGGACAGGA	135	3486
1210581	N/A	N/A	6607	6622	AGCCTCGCGCAGACTC	117	3487
1210609	N/A	N/A	7083	7098	CTTCGCGCCGCCTGCC	79	3488
1210637	N/A	N/A	7660	7675	CAACGAGGCTGCATCA	76	3489
1210665	N/A	N/A	8549	8564	AACCTTAGACACCTGC	39	3490
1210693	N/A	N/A	9111	9126	TAGGTAGAGTGAATCA	33	3491
1210721	N/A	N/A	9211	9226	CTTAGCTATCATACCA	28	3492
1210769	N/A	N/A	9928	9943	CTGGATCTAAACTGGT	55	3493
1210795	N/A	N/A	10446	10461	TACGGAGACTCCCATC	158	3494
1210823	N/A	N/A	10748	10763	CAGCTATTTCCAACGG	32	3495
1210851	N/A	N/A	11180	11195	TGCAGCCACAATTGTT	55	3496
1210879	N/A	N/A	11965	11980	TATCCCCACACTAAGC	97	3497
1210907	N/A	N/A	12329	12344	ACCAGAACACTAGCCA	35	3498
1210935	N/A	N/A	12853	12868	CTTATGGAACTGCATA	78	3499
1210963	N/A	N/A	13730	13745	CCTGGATTCCATATGA	147	3500
1210991	N/A	N/A	14099	14114	ATGTTTACTGACTGGT	13	3501
1211019	N/A	N/A	14588	14603	GATAAGAATCCCGTCA	108	3502
1211047	N/A	N/A	15154	15169	GCTGATGAAGACCAGC	67	3503
1211075	N/A	N/A	15916	15931	TAGAGATTATGGGTTG	11	3504
1211103	N/A	N/A	16548	16563	TAGGACAGGCTCAATA	79	3505
1211129	N/A	N/A	17263	17278	CTCCCTAGCTAAGCCA	109	3506
1211156	N/A	N/A	18411	18426	AGCGGCTTCCCTTATT	87	3507
1211184	N/A	N/A	18770	18785	CTCCTTTTAGGATCCC	67	3508
1211236	N/A	N/A	19440	19455	ATAACACGCAGCCACT	57	3509
1211263	N/A	N/A	20036	20051	CCACGCCCAAACCTCC	102	3510
1211291	N/A	N/A	20551	20566	TATAAGAGCTGCTGAC	91	3511
1211319	N/A	N/A	21869	21884	ACTTTGGTATCAATTC	47	3512
1211345	N/A	N/A	22700	22715	CAGCGCAGTAAGAGAC	66	3513
1211373	N/A	N/A	23695	23710	GATAGCTACCTGCAGA	55	3514
1211393	N/A	N/A	24890	24905	GAACTACACTTTCAAC	71	3515
1211421	N/A	N/A	26230	26245	TTTCTCGAATCAAATC	57	3516
1211446	N/A	N/A	26862	26877	GATTCTAGTCTAGCAC	53	3517
1211469	N/A	N/A	27523	27538	AGCGGTGTGTGATCGC	62	3518
1211497	N/A	N/A	28540	28555	ATGGACTTTACCATCC	116	3519
1211531	N/A	N/A	29054	29069	AACAGTCAATCAAAGC	67	3520
1211559	N/A	N/A	29642	29657	CATACAACCCTATTTA	104	3521
1211587	N/A	N/A	30290	30305	GACCTTGGTCATTCAT	90	3522
1211614	N/A	N/A	30919	30934	AGGACAAAGTCATGCG	33	3523
1211642	N/A	N/A	31438	31453	AGTGTGGAGCTACTTT	83	3524
1211667	N/A	N/A	31937	31952	TGCGCCCCGCCCACTG	134	3525
1211695	N/A	N/A	32846	32861	GCTCTATAGCTATATT	41	3526
1211723	N/A	N/A	33629	33644	AACCTCGCAAAAGCAC	75	3527
1211751	N/A	N/A	34080	34095	AGAGGGCCTTACATGA	87	3528
1211779	N/A	N/A	34374	34389	CCCTTTGGTTCAGTGA	51	3529
1211807	N/A	N/A	34746	34761	GTAAGTGAGGCCCTGA	52	3530
1211835	N/A	N/A	35134	35149	GCAGCGACTAACTACA	114	3531
1211863	N/A	N/A	35446	35461	GTGCTAACTCTTGTCT	61	3532
1211891	N/A	N/A	35866	35881	GCACCCGCGCCCCCCC	104	3533
1211919	N/A	N/A	36366	36381	CAAGCAATGCCTATGG	96	3534
1211947	N/A	N/A	36697	36712	CCTAGGCCTTAATACC	124	3535

TABLE 57
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	25	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	15	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
1078914	N/A	N/A	31462	31477	CGCTTGTAGATTTCAC	12	3536
1079056	N/A	N/A	19074	19089	AAGGCAGTTGCAATTG	82	3537
1120799	N/A	N/A	28802	28817	TGTTGATACGCCTGGC	87	3538
1209878	N/A	N/A	4272	4287	ATTCTTACGGTAAGTA	122	3539
1209906	N/A	N/A	8628	8643	GTAAATGGAGAAGTTC	35	3540
1209934	N/A	N/A	10281	10296	TAATTTCTGGGATGGC	31	3541
1209962	N/A	N/A	14100	14115	CATGTTTACTGACTGG	80	3542
1209990	N/A	N/A	15855	15870	AAATGCAGAAGGTCTC	47	3543
1210018	N/A	N/A	18624	18639	GTTACCTAATTTGTTA	141	3544
1210046	N/A	N/A	20107	20122	GAGTTATTAACACCTC	119	3545
1210074	N/A	N/A	23161	23176	CGAAGAAGAGTTTGGT	35	3546
1210103	N/A	N/A	23891	23906	GCTAAGTATAAAATTG	81	3547
1210131	N/A	N/A	26170	26185	GAATACCTACTGCTTT	71	3548
1210159	N/A	N/A	26796	26811	GTCAATTAAAGTAAGA	71	3549
1210187	N/A	N/A	28587	28602	TCTACTAAACTAATCA	69	3550
1210216	N/A	N/A	29812	29827	AAGTAGCAAAGCACTG	98	3551
1210244	N/A	N/A	30459	30474	CATTTACCTTCCATTG	27	3552
1210272	N/A	N/A	31751	31766	TAATTTGGCAAACCAT	72	3553
1210300	N/A	N/A	34473	34488	AGTGATTAGAGCCCAG	11	3554
1210328	N/A	N/A	36463	36478	CCATTATTGGAGTCAC	38	3555
1210358	N/A	N/A	3104	3119	AAGCATCTAGATTCCT	109	3556
1210386	N/A	N/A	4066	4081	TCCAACAAACCTAATC	83	3557
1210414	N/A	N/A	4546	4561	TAGCCCCCTTCAGTCT	152	3558
1210442	N/A	N/A	4891	4906	CTGCACCTACGAAGCA	98	3559
1210470	N/A	N/A	5217	5232	GAGGCGGCTGAGCTTT	153	3560
1210498	N/A	N/A	5684	5699	GCCCCTAAACAGAAGC	85	3561
1210526	N/A	N/A	6068	6083	AGTTTGGAAAGTACCC	146	3562
1210554	N/A	N/A	6368	6383	GCTCCGGTCTGGGTGC	122	3563
1210582	N/A	N/A	6628	6643	GAACGGTCCTGGCCCC	85	3564
1210610	N/A	N/A	7085	7100	GCCTTCGCGCCGCCTG	144	3565
1210638	N/A	N/A	7703	7718	ACTATGGTTTGGAGAA	65	3566
1210666	N/A	N/A	8551	8566	TCAACCTTAGACACCT	84	3567
1210694	N/A	N/A	9115	9130	TCTCTAGGTAGAGTGA	92	3568
1210722	N/A	N/A	9214	9229	AGGCTTAGCTATCATA	71	3569
1210742	N/A	N/A	9522	9537	CAAAGATGCTGAGGAC	21	3570
1210770	N/A	N/A	9931	9946	GAACTGGATCTAAACT	63	3571
1210796	N/A	N/A	10448	10463	AGTACGGAGACTCCCA	147	3572
1210824	N/A	N/A	10761	10776	TAGCACCAACTGACAG	68	3573
1210852	N/A	N/A	11181	11196	CTGCAGCCACAATTGT	117	3574
1210880	N/A	N/A	11968	11983	GAATATCCCCACACTA	67	3575
1210908	N/A	N/A	12333	12348	CCTAACCAGAACACTA	98	3576
1210936	N/A	N/A	12858	12873	TGGGACTTATGGAACT	64	3577
1210964	N/A	N/A	13774	13789	AATGAGGAGTGATATA	91	3578
1210992	N/A	N/A	14146	14161	CCATTACCCTGTCTTA	84	3579
1211020	N/A	N/A	14590	14605	GTGATAAGAATCCCGT	89	3580
1211048	N/A	N/A	15235	15250	GAGGACTTTGTGAGCA	36	3581
1211076	N/A	N/A	15921	15936	TTGGGTAGAGATTATG	50	3582
1211104	N/A	N/A	16550	16565	CATAGGACAGGCTCAA	28	3583
1211130	N/A	N/A	17323	17338	TCCCTACATCTAACCC	104	3584
1211157	N/A	N/A	18413	18428	AGAGCGGCTTCCCTTA	106	3585
1211185	N/A	N/A	18772	18787	ACCTCCTTTTAGGATC	82	3586
1211237	N/A	N/A	19442	19457	GAATAACACGCAGCCA	34	3587
1211264	N/A	N/A	20038	20053	TCCCACGCCCAAACCT	105	3588
1211292	N/A	N/A	20558	20573	TGTCCGGTATAAGAGC	59	3589
1211320	N/A	N/A	21873	21888	TACAACTTTGGTATCA	43	3590
1211346	N/A	N/A	22702	22717	ACCAGCGCAGTAAGAG	79	3591
1211374	N/A	N/A	23701	23716	ATAAGTGATAGCTACC	29	3592
1211394	N/A	N/A	24896	24911	AAGAGTGAACTACACT	74	3593
1211422	N/A	N/A	26236	26251	AAGTTATTTCTCGAAT	89	3594
1211447	N/A	N/A	26874	26889	TAAGAGGCCTTTGATT	89	3595
1211470	N/A	N/A	27525	27540	AGAGCGGTGTGTGATC	88	3596
1211498	N/A	N/A	28543	28558	CACATGGACTTTACCA	70	3597
1211532	N/A	N/A	29068	29083	CACCAGAGGATGACAA	79	3598
1211560	N/A	N/A	29644	29659	CCCATACAACCCTATT	51	3599
1211588	N/A	N/A	30314	30329	AACCGTCCCTGTCATG	40	3600
1211615	N/A	N/A	30944	30959	GCAGCTAGATGTAAAG	59	3601
1211668	N/A	N/A	32259	32274	AGACCTGAATACTGTC	105	3602
1211696	N/A	N/A	33194	33209	TAATCCCCCCCCACCA	100	3603
1211724	N/A	N/A	33631	33646	GTAACCTCGCAAAAGC	73	3604
1211752	N/A	N/A	34100	34115	CTCACTAAGGGTCAGG	64	3605
1211780	N/A	N/A	34398	34413	CAGTACATCCTTATCA	89	3606
1211808	N/A	N/A	34750	34765	AAGGGTAAGTGAGGCC	125	3607
1211836	N/A	N/A	35142	35157	AGAGAAGTGCAGCGAC	46	3608
1211864	N/A	N/A	35450	35465	CAAAGTGCTAACTCTT	69	3609
1211892	N/A	N/A	35868	35883	ATGCACCCGCGCCCCC	113	3610
1211920	N/A	N/A	36368	36383	AGCAAGCAATGCCTAT	109	3611
1211948	N/A	N/A	36701	36716	GCCACCTAGGCCTTAA	102	3612

TABLE 58
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	11	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	4	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
1078916	N/A	N/A	31464	31479	CACGCTTGTAGATTTC	14	3613
1079045	N/A	N/A	19081	19096	GACGGGAAAGGCAGTT	37	3614
1120800	N/A	N/A	28803	28818	CTGTTGATACGCCTGG	51	3615
1209879	N/A	N/A	4275	4290	TATATTCTTACGGTAA	96	3616
1209907	N/A	N/A	8644	8659	GACTTAAAAGCACCTT	47	3617
1209935	N/A	N/A	10283	10298	CGTAATTTCTGGGATG	7	3618
1209963	N/A	N/A	14134	14149	CTTATATAGTTCTTAC	91	3619
1209991	N/A	N/A	15856	15871	TAAATGCAGAAGGTCT	25	3620
1210019	N/A	N/A	19168	19183	CAAACGGATTTATCAG	29	3621
1210047	N/A	N/A	20333	20348	AGTATGAAGCACTTTT	4	3622
1210075	N/A	N/A	23162	23177	ACGAAGAAGAGTTTGG	25	3623
1210104	N/A	N/A	23949	23964	AAATCTCTAGTTCGCA	24	3624
1210132	N/A	N/A	26173	26188	GTTGAATACCTACTGC	61	3625
1210160	N/A	N/A	26878	26893	AATCTAAGAGGCCTTT	45	3626
1210188	N/A	N/A	28668	28683	CATACAAGCACCCACC	58	3627
1210217	N/A	N/A	29814	29829	GTAAGTAGCAAAGCAC	22	3628
1210245	N/A	N/A	30524	30539	TATAGTACAGGCTTGT	24	3629
1210273	N/A	N/A	31752	31767	ATAATTTGGCAAACCA	24	3630
1210301	N/A	N/A	34594	34609	TACAAGAGTTTCTCCC	45	3631
1210329	N/A	N/A	36464	36479	ACCATTATTGGAGTCA	13	3632
1210359	N/A	N/A	3161	3176	CTGCTTACCAAGGCCA	164	3633
1210387	N/A	N/A	4093	4108	CAGTGGTTAGGCACTC	71	3634
1210415	N/A	N/A	4551	4566	GAGGCTAGCCCCCTTC	109	3635
1210443	N/A	N/A	4899	4914	ATTACTGTCTGCACCT	175	3636
1210471	N/A	N/A	5225	5240	CGAAACCAGAGGCGGC	101	3637
1210499	N/A	N/A	5733	5748	ATTACTCCAAGACCCA	174	3638
1210527	N/A	N/A	6147	6162	GCTGTGAAAGATCTGG	232	3639
1210555	N/A	N/A	6373	6388	CCTGAGCTCCGGTCTG	111	3640
1210583	N/A	N/A	6635	6650	CGTAGAGGAACGGTCC	84	3641
1210611	N/A	N/A	7090	7105	CAGGAGCCTTCGCGCC	74	3642
1210639	N/A	N/A	7706	7721	CTGACTATGGTTTGGA	53	3643
1210667	N/A	N/A	8556	8571	TGAACTCAACCTTAGA	73	3644
1210695	N/A	N/A	9123	9138	AGGGCATGTCTCTAGG	69	3645
1210723	N/A	N/A	9221	9236	CTGCCAAAGGCTTAGC	78	3646
1210743	N/A	N/A	9525	9540	AAGCAAAGATGCTGAG	48	3647
1210771	N/A	N/A	9934	9949	ACTGAACTGGATCTAA	22	3648
1210797	N/A	N/A	10454	10469	GTAGCGAGTACGGAGA	29	3649
1210825	N/A	N/A	10790	10805	AACCCTAGTGCCTCTT	19	3650
1210853	N/A	N/A	11183	11198	GTCTGCAGCCACAATT	46	3651
1210881	N/A	N/A	11974	11989	CATAACGAATATCCCC	11	3652
1210909	N/A	N/A	12338	12353	CTAATCCTAACCAGAA	96	3653
1210937	N/A	N/A	12861	12876	AACTGGGACTTATGGA	43	3654
1210965	N/A	N/A	13796	13811	AACGGCCTCTGAAAGG	90	3655
1210993	N/A	N/A	14151	14166	TTATCCCATTACCCTG	90	3656
1211021	N/A	N/A	14715	14730	GAACCTACTTACTACT	59	3657
1211049	N/A	N/A	15288	15303	CTAACACCTCAGCATG	88	3658
1211077	N/A	N/A	15927	15942	CATTCCTTGGGTAGAG	25	3659
1211105	N/A	N/A	16617	16632	ACAATGGCAGGGACCT	78	3660
1211131	N/A	N/A	17325	17340	ACTCCCTACATCTAAC	86	3661
1211158	N/A	N/A	18431	18446	GAATGGTGTGGCAAAG	92	3662
1211186	N/A	N/A	18799	18814	CCATTGCCAAGGCCCA	146	3663
1211238	N/A	N/A	19506	19521	GTCTAGTTCTGCACTT	58	3664
1211265	N/A	N/A	20041	20056	GACTCCCACGCCCAAA	79	3665
1211293	N/A	N/A	20566	20581	TCTGAGAGTGTCCGGT	85	3666
1211321	N/A	N/A	21875	21890	GATACAACTTTGGTAT	82	3667
1211347	N/A	N/A	22706	22721	AACAACCAGCGCAGTA	82	3668
1211375	N/A	N/A	23809	23824	TCACTAGCAACCAAGG	39	3669
1211395	N/A	N/A	24935	24950	TGTATACACTTCTAAG	87	3670
1211423	N/A	N/A	26272	26287	TAGTCCCAACCCCATT	100	3671
1211448	N/A	N/A	26884	26899	CAGCCAAATCTAAGAG	53	3672
1211471	N/A	N/A	27539	27554	ATTAGCCTCAGCACAG	78	3673
1211499	N/A	N/A	28552	28567	CCCCGCTTCCACATGG	146	3674
1211533	N/A	N/A	29092	29107	GACACAAGAGTGTCAA	80	3675
1211561	N/A	N/A	29664	29679	CTAACCTTGGGCTGTG	42	3676
1211589	N/A	N/A	30317	30332	CTCAACCGTCCCTGTC	40	3677
1211616	N/A	N/A	30949	30964	CGTAAGCAGCTAGATG	58	3678
1211669	N/A	N/A	32262	32277	ATGAGACCTGAATACT	54	3679
1211697	N/A	N/A	33196	33211	ATTAATCCCCCCCCAC	120	3680
1211725	N/A	N/A	33634	33649	TTGGTAACCTCGCAAA	94	3681
1211753	N/A	N/A	34105	34120	ATTAGCTCACTAAGGG	73	3682
1211781	N/A	N/A	34400	34415	CCCAGTACATCCTTAT	119	3683
1211809	N/A	N/A	34754	34769	TGGCAAGGGTAAGTGA	64	3684
1211837	N/A	N/A	35190	35205	AGATACCAGATTCCAT	47	3685
1211865	N/A	N/A	35467	35482	TCCACGGCTTGCATCT	53	3686
1211893	N/A	N/A	35870	35885	CAATGCACCCGCGCCC	99	3687
1211921	N/A	N/A	36377	36392	ACCAGGTGAAGCAAGC	88	3688
1211949	N/A	N/A	36709	36724	CAATCTTGGCCACCTA	68	3689

TABLE 59
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	16	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	9	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
1078919	N/A	N/A	31467	31482	ATGCACGCTTGTAGAT	72	3690
1079046	N/A	N/A	19082	19097	TGACGGGAAAGGCAGT	43	3691
1120801	N/A	N/A	28804	28819	CCTGTTGATACGCCTG	11	3692
1205175	N/A	N/A	19520	19535	GCTAGTTTGTCAGGGT	13	3693
1209880	N/A	N/A	4276	4291	GTATATTCTTACGGTA	118	3694
1209908	N/A	N/A	8645	8660	TGACTTAAAAGCACCT	27	3695
1209936	N/A	N/A	10321	10336	CATTTACTCAGTTGCC	27	3696
1209964	N/A	N/A	14286	14301	ACTACGCCAAGCTCCT	110	3697
1209992	N/A	N/A	15857	15872	ATAAATGCAGAAGGTC	24	3698
1210020	N/A	N/A	19182	19197	AACTTAGTGTCTTTCA	3	3699
1210048	N/A	N/A	21297	21312	GCAAAGTGGAGGCCTG	137	3700
1210076	N/A	N/A	23165	23180	GCAACGAAGAAGAGTT	108	3701
1210105	N/A	N/A	23951	23966	TTAAATCTCTAGTTCG	64	3702
1210133	N/A	N/A	26216	26231	TCAGAATTAGAGGATC	15	3703
1210161	N/A	N/A	26879	26894	AAATCTAAGAGGCCTT	86	3704
1210189	N/A	N/A	28744	28759	ATATGCATCTCATTCC	28	3705
1210218	N/A	N/A	29869	29884	CATTTAACAGAGCCAG	48	3706
1210246	N/A	N/A	30529	30544	GGTCTTATAGTACAGG	13	3707
1210274	N/A	N/A	31753	31768	GATAATTTGGCAAACC	9	3708
1210302	N/A	N/A	34596	34611	CTTACAAGAGTTTCTC	47	3709
1210330	N/A	N/A	36533	36548	AAATCTATATGCCACT	151	3710
1210360	N/A	N/A	3167	3182	CCTAACCTGCTTACCA	160	3711
1210388	N/A	N/A	4125	4140	TATATGCATGGTCTGT	153	3712
1210416	N/A	N/A	4554	4569	AGAGAGGCTAGCCCCC	106	3713
1210444	N/A	N/A	4905	4920	CCCGCTATTACTGTCT	121	3714
1210472	N/A	N/A	5228	5243	ACTCGAAACCAGAGGC	95	3715
1210500	N/A	N/A	5753	5768	ATAAAGGCTCTCCTCG	123	3716
1210528	N/A	N/A	6160	6175	GAGGACATGCATGGCT	260	3717
1210556	N/A	N/A	6382	6397	CCCAACAAGCCTGAGC	63	3718
1210584	N/A	N/A	6672	6687	TTCCGTTTGTCTCCAA	174	3719
1210612	N/A	N/A	7098	7113	GCGCGGGTCAGGAGCC	111	3720
1210640	N/A	N/A	7744	7759	AAGTCCTAAAAGGGTG	94	3721
1210668	N/A	N/A	8604	8619	CACAGAAACGATTATG	82	3722
1210696	N/A	N/A	9126	9141	CTAAGGGCATGTCTCT	38	3723
1210724	N/A	N/A	9247	9262	CGTTTGATCCAATGTC	1	3724
1210744	N/A	N/A	9536	9551	CCATATCTCACAAGCA	19	3725
1210772	N/A	N/A	9963	9978	GGACCAAAGGCCACTT	108	3726
1210798	N/A	N/A	10458	10473	GTCAGTAGCGAGTACG	82	3727
1210826	N/A	N/A	10792	10807	ATAACCCTAGTGCCTC	13	3728
1210854	N/A	N/A	11184	11199	TGTCTGCAGCCACAAT	88	3729
1210882	N/A	N/A	11978	11993	ATATCATAACGAATAT	92	3730
1210910	N/A	N/A	12349	12364	CACAATCAATCCTAAT	72	3731
1210938	N/A	N/A	12933	12948	ATGTGAGAATGGTGGG	79	3732
1210966	N/A	N/A	13800	13815	AATGAACGGCCTCTGA	92	3733
1210994	N/A	N/A	14231	14246	TGGAACCTCCCCGAGA	108	3734
1211022	N/A	N/A	14719	14734	GAGGGAACCTACTTAC	123	3735
1211050	N/A	N/A	15292	15307	GTGCCTAACACCTCAG	148	3736
1211078	N/A	N/A	15956	15971	ATCTCATAAGAGCCTG	23	3737
1211106	N/A	N/A	16636	16651	CCAACTCCTTGTGAGC	92	3738
1211132	N/A	N/A	17329	17344	CCTAACTCCCTACATC	130	3739
1211159	N/A	N/A	18470	18485	CAGACTTAGAATCCAC	15	3740
1211187	N/A	N/A	18806	18821	TTCTACCCCATTGCCA	79	3741
1211266	N/A	N/A	20044	20059	CAGGACTCCCACGCCC	89	3742
1211294	N/A	N/A	20585	20600	CTCTTTGCAGGCCTCC	106	3743
1211322	N/A	N/A	21877	21892	TTGATACAACTTTGGT	46	3744
1211348	N/A	N/A	22710	22725	AGGTAACAACCAGCGC	130	3745
1211376	N/A	N/A	23811	23826	CCTCACTAGCAACCAA	77	3746
1211396	N/A	N/A	24944	24959	AGAGGACAATGTATAC	24	3747
1211424	N/A	N/A	26275	26290	TTTTAGTCCCAACCCC	101	3748
1211449	N/A	N/A	26951	26966	ATCAACTAGTCCAGCT	99	3749
1211472	N/A	N/A	27553	27568	CTCTGATCATGGCCAT	135	3750
1211500	N/A	N/A	28554	28569	CACCCCGCTTCCACAT	108	3751
1211534	N/A	N/A	29096	29111	ATGTGACACAAGAGTG	121	3752
1211562	N/A	N/A	29685	29700	TCTAGACAAGGTCACC	81	3753
1211590	N/A	N/A	30326	30341	AGTGTAACACTCAACC	27	3754
1211617	N/A	N/A	30987	31002	GTGGACCAACAGATAA	49	3755
1211670	N/A	N/A	32269	32284	TCCAGGGATGAGACCT	68	3756
1211698	N/A	N/A	33201	33216	CTTTTATTAATCCCCC	62	3757
1211726	N/A	N/A	33636	33651	CTTTGGTAACCTCGCA	34	3758
1211754	N/A	N/A	34109	34124	GCTGATTAGCTCACTA	100	3759
1211782	N/A	N/A	34404	34419	AATTCCCAGTACATCC	83	3760
1211810	N/A	N/A	34773	34788	ATGTATCACCAGGTCC	19	3761
1211838	N/A	N/A	35194	35209	GAGGAGATACCAGATT	55	3762
1211866	N/A	N/A	35476	35491	CCCCACTCTTCCACGG	72	3763
1211894	N/A	N/A	35894	35909	GGATTCATGCAGTTCC	102	3764
1211922	N/A	N/A	36380	36395	CATACCAGGTGAAGCA	53	3765
1211950	N/A	N/A	36779	36794	TCCAGGTCCAGAATTG	65	3766

TABLE 60
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	8	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	6	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
1120802	N/A	N/A	28805	28820	TCCTGTTGATACGCCT	10	3767
1205186	N/A	N/A	23866	23881	GTGATTAGCAAAGGAG	15	3768
1205243	N/A	N/A	26955	26970	AGAGATCAACTAGTCC	34	3769
1209881	N/A	N/A	4277	4292	TGTATATTCTTACGGT	117	3770
1209909	N/A	N/A	8647	8662	TATGACTTAAAAGCAC	46	3771
1209937	N/A	N/A	10659	10674	ACAACTTAGCAACTCC	7	3772
1209965	N/A	N/A	14592	14607	AAGTGATAAGAATCCC	48	3773
1209993	N/A	N/A	15859	15874	CCATAAATGCAGAAGG	48	3774
1210021	N/A	N/A	19186	19201	TCAAAACTTAGTGTCT	17	3775
1210049	N/A	N/A	21423	21438	TAGATTAACACAAGCC	30	3776
1210077	N/A	N/A	23228	23243	CGTAGAGAAAGAGCCA	22	3777
1210106	N/A	N/A	23987	24002	ACATAGTGTTGGCTAT	53	3778
1210134	N/A	N/A	26226	26241	TCGAATCAAATCAGAA	96	3779
1210162	N/A	N/A	26883	26898	AGCCAAATCTAAGAGG	100	3780
1210190	N/A	N/A	28858	28873	TACAGATAGCCTCAGT	26	3781
1210219	N/A	N/A	29870	29885	TCATTTAACAGAGCCA	32	3782
1210247	N/A	N/A	30543	30558	TTTCAATGTGACTGGG	1	3783
1210275	N/A	N/A	32285	32300	CTATTAAATGAGAGTC	26	3784
1210303	N/A	N/A	34598	34613	AACTTACAAGAGTTTC	125	3785
1210331	682	697	37045	37060	ATAGATGACACCGCTG	34	3786
1210361	N/A	N/A	3170	3185	CTCCCTAACCTGCTTA	159	3787
1210389	N/A	N/A	4158	4173	GCCCGTTATATGCCAA	131	3788
1210417	N/A	N/A	4596	4611	TGATTCATAGCCTCCT	264	3789
1210445	N/A	N/A	4908	4923	GTCCCCGCTATTACTG	181	3790
1210473	N/A	N/A	5236	5251	CGACTTTTACTCGAAA	91	3791
1210501	N/A	N/A	5758	5773	AGACCATAAAGGCTCT	88	3792
1210529	N/A	N/A	6167	6182	CCTGTTAGAGGACATG	149	3793
1210557	N/A	N/A	6387	6402	CGAACCCCAACAAGCC	118	3794
1210585	N/A	N/A	6674	6689	CATTCCGTTTGTCTCC	122	3795
1210613	N/A	N/A	7100	7115	CCGCGCGGGTCAGGAG	190	3796
1210641	N/A	N/A	7796	7811	ATGGGACCTGTGAACT	70	3797
1210669	N/A	N/A	8621	8636	GAGAAGTTCCACATGC	57	3798
1210697	N/A	N/A	9130	9145	GGCACTAAGGGCATGT	57	3799
1210725	N/A	N/A	9320	9335	TAGCCCCACTGTCACT	102	3800
1210745	N/A	N/A	9568	9583	TCCCTTAATTTGACCC	17	3801
1210773	N/A	N/A	9980	9995	TGGATTATGCAAAGCC	5	3802
1210799	N/A	N/A	10471	10486	GTAACCACCAGGTGTC	47	3803
1210827	N/A	N/A	10876	10891	CTAAGGAGGCATTGTA	15	3804
1210855	N/A	N/A	11187	11202	TATTGTCTGCAGCCAC	4	3805
1210883	N/A	N/A	11990	12005	GCACTGGATACAATAT	37	3806
1210911	N/A	N/A	12358	12373	TCTCTTATACACAATC	9	3807
1210939	N/A	N/A	12960	12975	AGGTCCTAAAGTTTCT	97	3808
1210967	N/A	N/A	13803	13818	ACCAATGAACGGCCTC	101	3809
1210995	N/A	N/A	14233	14248	TATGGAACCTCCCCGA	58	3810
1211023	N/A	N/A	14721	14736	CAGAGGGAACCTACTT	83	3811
1211051	N/A	N/A	15358	15373	GCTTTGGTGTTGAGCA	122	3812
1211079	N/A	N/A	15977	15992	TTGTACCACCAGGGTC	45	3813
1211107	N/A	N/A	16676	16691	TACCCATAGTGATGCA	53	3814
1211133	N/A	N/A	17384	17399	AGTTACACACCAGTTG	15	3815
1211160	N/A	N/A	18515	18530	ATATGCTTGCAATCTA	19	3816
1211188	N/A	N/A	18810	18825	GCAATTCTACCCCATT	91	3817
1211212	N/A	N/A	19093	19108	GCCATAGAAAATGACG	91	3818
1211239	N/A	N/A	19594	19609	GTATTCCAGCTAACTT	27	3819
1211267	N/A	N/A	20084	20099	CATAGTGCTAGACTGT	78	3820
1211295	N/A	N/A	21238	21253	CCAACCTTGGTGCTGA	38	3821
1211323	N/A	N/A	21917	21932	GCCAGGTTATTAGCAC	71	3822
1211349	N/A	N/A	22749	22764	GCTCCCCAATCAGAGC	169	3823
1211397	N/A	N/A	24993	25008	TATAGAGAGCCACATG	104	3824
1211425	N/A	N/A	26399	26414	CGAGACCTCACATACA	45	3825
1211473	N/A	N/A	27590	27605	ACAACCCGTATTTTTT	29	3826
1211501	N/A	N/A	28564	28579	GACTTGGATGCACCCC	6	3827
1211535	N/A	N/A	29153	29168	GGAGACCTCTCATGTG	73	3828
1211563	N/A	N/A	29734	29749	GTGGTTAATCATTTAC	54	3829
1211591	N/A	N/A	30343	30358	AGTACCTCACTATATT	93	3830
1211618	N/A	N/A	30991	31006	AAATGTGGACCAACAG	27	3831
1211643	N/A	N/A	31472	31487	CGGGCATGCACGCTTG	147	3832
1211671	N/A	N/A	32296	32311	CCATCCCACAACTATT	52	3833
1211699	N/A	N/A	33243	33258	CTTAAGCCACCTTTGA	73	3834
1211727	N/A	N/A	33638	33653	TACTTTGGTAACCTCG	5	3835
1211755	N/A	N/A	34112	34127	TAGGCTGATTAGCTCA	85	3836
1211783	N/A	N/A	34427	34442	AGGTCAAAGGAAGTAG	40	3837
1211811	N/A	N/A	34777	34792	GGAGATGTATCACCAG	41	3838
1211839	N/A	N/A	35202	35217	CTGACTAAGAGGAGAT	139	3839
1211867	N/A	N/A	35560	35575	ATTGTTGATTGCAGAA	10	3840
1211895	N/A	N/A	35897	35912	GTGGGATTCATGCAGT	45	3841
1211923	N/A	N/A	36396	36411	CCTAACAGAGTTGCCA	52	3842
1211951	N/A	N/A	36827	36842	CAATTGCTGGGTAGGA	42	3843

TABLE 61
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop	Sequence	(%	ID
ID	Site	Site	Site	Site	(5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	17	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	15	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	13	31
1120803	N/A	N/A	28806	28821	TTCCTGTTGATACGCC	47	3844
1205248	N/A	N/A	27020	27035	TAGATTTTCACCTAAG	107	3845
1205284	N/A	N/A	30480	30495	ATAATACATGGTGCAA	14	3846
1205300	687	702	37050	37065	ATCACATAGATGACAC	70	3847
1209882	N/A	N/A	4278	4293	TTGTATATTCTTACGG	101	3848
1209910	N/A	N/A	8652	8667	CGTTTTATGACTTAAA	99	3849
1209938	N/A	N/A	11038	11053	TTTAGATTAAGCCTGA	64	3850
1209966	N/A	N/A	14896	14911	GATTTTAAACTCACCC	58	3851
1209994	N/A	N/A	15873	15888	TGTAAAACATGAACCC	44	3852
1210022	N/A	N/A	19230	19245	GGTAATTCACAATGTA	12	3853
1210050	N/A	N/A	21476	21491	GTTCTATTTAGATCAA	67	3854
1210078	N/A	N/A	23257	23272	GTATAGACATCCACAG	73	3855
1210107	N/A	N/A	23994	24009	AGACAATACATAGTGT	58	3856
1210135	N/A	N/A	26228	26243	TCTCGAATCAAATCAG	29	3857
1210163	N/A	N/A	26949	26964	CAACTAGTCCAGCTCC	54	3858
1210191	N/A	N/A	28944	28959	ACTTTGCTAGTTCTTA	84	3859
1210220	N/A	N/A	29872	29887	AGTCATTTAACAGAGC	28	3860
1210248	N/A	N/A	30593	30608	TATCCCAAGGAGCCCA	131	3861
1210276	N/A	N/A	32363	32378	ACAGTTTAATGGCTAT	42	3862
1210304	N/A	N/A	34623	34638	GACAATACAAATGTGC	72	3863
1210362	N/A	N/A	3206	3221	CCCGGCTGGCCAAGGC	121	3864
1210390	N/A	N/A	4184	4199	GTACTTGTAAACACTG	126	3865
1210418	N/A	N/A	4598	4613	GCTGATTCATAGCCTC	95	3866
1210446	N/A	N/A	4910	4925	CGGTCCCCGCTATTAC	120	3867
1210474	N/A	N/A	5240	5255	GCGGCGACTTTTACTC	123	3868
1210502	N/A	N/A	5760	5775	ATAGACCATAAAGGCT	108	3869
1210530	N/A	N/A	6177	6192	GCTGGGATGACCTGTT	117	3870
1210558	N/A	N/A	6392	6407	GGACACGAACCCCAAC	70	3871
1210586	N/A	N/A	6679	6694	CTCCGCATTCCGTTTG	77	3872
1210614	N/A	N/A	7102	7117	GCCCGCGCGGGTCAGG	192	3873
1210642	N/A	N/A	7799	7814	GACATGGGACCTGTGA	81	3874
1210670	N/A	N/A	8691	8706	ACCTAGCCACACCGCC	78	3875
1210698	N/A	N/A	9139	9154	GATCAGGAGGGCACTA	113	3876
1210726	N/A	N/A	9327	9342	AGTGAGCTAGCCCCAC	109	3877
1210746	N/A	N/A	9596	9611	ACCTAGTTGGTGCTTC	50	3878
1210774	N/A	N/A	9984	9999	CAACTGGATTATGCAA	95	3879
1210800	N/A	N/A	10473	10488	TTGTAACCACCAGGTG	79	3880
1210828	N/A	N/A	10880	10895	CACACTAAGGAGGCAT	37	3881
1210856	N/A	N/A	11188	11203	TTATTGTCTGCAGCCA	13	3882
1210884	N/A	N/A	12001	12016	GGGCCGGAGAGGCACT	143	3883
1210912	N/A	N/A	12379	12394	GCCCCTATCATTTGAA	154	3884
1210940	N/A	N/A	13004	13019	TATACCTGGAGAGGTG	139	3885
1210968	N/A	N/A	13808	13823	TTAAGACCAATGAACG	98	3886
1210996	N/A	N/A	14237	14252	TCTGTATGGAACCTCC	43	3887
1211024	N/A	N/A	14736	14751	CTCTCTTAATCAAGGC	62	3888
1211052	N/A	N/A	15388	15403	ATTACAGGAAAGCTCA	27	3889
1211080	N/A	N/A	15981	15996	TCCCTTGTACCACCAG	46	3890
1211108	N/A	N/A	16678	16693	ACTACCCATAGTGATG	92	3891
1211134	N/A	N/A	17386	17401	TCAGTTACACACCAGT	0.4	3892
1211161	N/A	N/A	18567	18582	CAGACTACTAGTTTTT	80	3893
1211189	N/A	N/A	18855	18870	GCCCGTTTACAAGCAC	106	3894
1211213	N/A	N/A	19096	19111	TTGGCCATAGAAAATG	80	3895
1211240	N/A	N/A	19598	19613	CAAGGTATTCCAGCTA	36	3896
1211268	N/A	N/A	20096	20111	ACCTCCCATTTGCATA	102	3897
1211296	N/A	N/A	21242	21257	ATATCCAACCTTGGTG	101	3898
1211324	N/A	N/A	22292	22307	TCACACCAAGCAGTAT	74	3899
1211350	N/A	N/A	22828	22843	GCAAGATTCAAGAGCT	98	3900
1211377	N/A	N/A	23939	23954	TTCGCATCATTAACAA	54	3901
1211398	N/A	N/A	25054	25069	GATAATTCCTCGGATT	85	3902
1211426	N/A	N/A	26408	26423	AAACTACTACGAGACC	95	3903
1211474	N/A	N/A	27595	27610	CTTGGACAACCCGTAT	68	3904
1211502	N/A	N/A	28570	28585	TCCGCAGACTTGGATG	100	3905
1211536	N/A	N/A	29156	29171	TAAGGAGACCTCTCAT	103	3906
1211564	N/A	N/A	29855	29870	AGCAACCATCCAGGAG	149	3907
1211619	N/A	N/A	31037	31052	CTGCTATTACAGCTCA	72	3908
1211644	N/A	N/A	31474	31489	GCCGGGCATGCACGCT	106	3909
1211672	N/A	N/A	32302	32317	GTGGATCCATCCCACA	123	3910
1211700	N/A	N/A	33246	33261	TGACTTAAGCCACCTT	32	3911
1211728	N/A	N/A	33643	33658	AAGTGTACTTTGGTAA	83	3912
1211756	N/A	N/A	34123	34138	CTCTCATATAATAGGC	128	3913
1211784	N/A	N/A	34474	34489	GAGTGATTAGAGCCCA	45	3914
1211812	N/A	N/A	34784	34799	AGTAGGTGGAGATGTA	79	3915
1211840	N/A	N/A	35210	35225	CGATTTCACTGACTAA	72	3916
1211868	N/A	N/A	35562	35577	TAATTGTTGATTGCAG	34	3917
1211896	N/A	N/A	35900	35915	CGTGTGGGATTCATGC	85	3918
1211924	N/A	N/A	36399	36414	CCCCCTAACAGAGTTG	102	3919
1211952	N/A	N/A	36832	36847	GCTGACAATTGCTGGG	104	3920

TABLE 62
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	10	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	8	31
1120804	N/A	N/A	28807	28822	ATTCCTGTTGATACGC	23	3921
1205187	N/A	N/A	23942	23957	TAGTTCGCATCATTAA	39	3922
1205249	N/A	N/A	27022	27037	CCTAGATTTTCACCTA	48	3923
1209883	N/A	N/A	4279	4294	ATTGTATATTCTTACG	107	3924
1209911	N/A	N/A	8778	8793	ATAGATATCCTGAGTC	115	3925
1209939	N/A	N/A	11093	11108	GGAAGATAGCGGCAGA	10	3926
1209967	N/A	N/A	14985	15000	GATATTTGGATCTTGG	1	3927
1209995	N/A	N/A	15891	15906	GCCACGAAGATTTTAA	68	3928
1210023	N/A	N/A	19248	19263	ATATCAATCTCCCTCC	79	3929
1210051	N/A	N/A	21487	21502	ATTACAAACCTGTTCT	92	3930
1210079	N/A	N/A	23272	23287	AAACTATGTAATTGCG	47	3931
1210108	N/A	N/A	24037	24052	GATAATACACAACATC	50	3932
1210136	N/A	N/A	26229	26244	TTCTCGAATCAAATCA	49	3933
1210164	N/A	N/A	26952	26967	GATCAACTAGTCCAGC	98	3934
1210192	N/A	N/A	28950	28965	ATAACTACTTTGCTAG	75	3935
1210221	N/A	N/A	29880	29895	GCATAATTAGTCATTT	34	3936
1210249	N/A	N/A	30594	30609	CTATCCCAAGGAGCCC	109	3937
1210277	N/A	N/A	32385	32400	AAACCTTACAGTGGGA	40	3938
1210305	N/A	N/A	34907	34922	AAGGATGATTCTTTGG	35	3939
1210332	1408	1423	37771	37786	TAAGGAATGGTAAATC	53	3940
1210363	N/A	N/A	3232	3247	GCTGACCAGGCTTGCC	120	3941
1210391	N/A	N/A	4188	4203	AAGTGTACTTGTAAAC	67	3942
1210419	N/A	N/A	4643	4658	GCGAGGTGGCCATTTG	137	3943
1210447	N/A	N/A	4912	4927	GCCGGTCCCCGCTATT	141	3944
1210475	N/A	N/A	5242	5257	CCGCGGCGACTTTTAC	134	3945
1210503	N/A	N/A	5763	5778	CTTATAGACCATAAAG	142	3946
1210531	N/A	N/A	6213	6228	CCTCGCCCCTCATTTT	152	3947
1210559	N/A	N/A	6394	6409	CAGGACACGAACCCCA	89	3948
1210587	N/A	N/A	6681	6696	CTCTCCGCATTCCGTT	118	3949
1210615	N/A	N/A	7104	7119	CCGCCCGCGCGGGTCA	140	3950
1210643	N/A	N/A	7804	7819	AAGCCGACATGGGACC	98	3951
1210671	N/A	N/A	8693	8708	CCACCTAGCCACACCG	89	3952
1210699	N/A	N/A	9145	9160	CTAAGTGATCAGGAGG	11	3953
1210727	N/A	N/A	9339	9354	AACTGACGGTGCAGTG	70	3954
1210747	N/A	N/A	9598	9613	GTACCTAGTTGGTGCT	145	3955
1210775	N/A	N/A	10021	10036	CTGGGTACTGAGCTGT	13	3956
1210801	N/A	N/A	10476	10491	TACTTGTAACCACCAG	31	3957
1210829	N/A	N/A	10907	10922	GGAAAGCAACGAGGCA	18	3958
1210857	N/A	N/A	11192	11207	CAGCTTATTGTCTGCA	62	3959
1210885	N/A	N/A	12013	12028	CTTGTATTCCCTGGGC	48	3960
1210913	N/A	N/A	12381	12396	AAGCCCCTATCATTTG	42	3961
1210941	N/A	N/A	13007	13022	ACTTATACCTGGAGAG	66	3962
1210969	N/A	N/A	13811	13826	AGATTAAGACCAATGA	67	3963
1210997	N/A	N/A	14246	14261	GACGGTCCTTCTGTAT	103	3964
1211025	N/A	N/A	14741	14756	CTCCACTCTCTTAATC	97	3965
1211053	N/A	N/A	15426	15441	CTTAGACAATGGAGGT	26	3966
1211081	N/A	N/A	15983	15998	CCTCCCTTGTACCACC	50	3967
1211109	N/A	N/A	16680	16695	CCACTACCCATAGTGA	115	3968
1211135	N/A	N/A	17388	17403	ATTCAGTTACACACCA	20	3969
1211162	N/A	N/A	18569	18584	CCCAGACTACTAGTTT	51	3970
1211190	N/A	N/A	18862	18877	AACCAATGCCCGTTTA	88	3971
1211214	N/A	N/A	19098	19113	GTTTGGCCATAGAAAA	51	3972
1211241	N/A	N/A	19646	19661	GCCACTAGTGGGCACA	59	3973
1211269	N/A	N/A	20102	20117	ATTAACACCTCCCATT	119	3974
1211297	N/A	N/A	21245	21260	CCAATATCCAACCTTG	38	3975
1211325	N/A	N/A	22342	22357	ATTTACAGGCTGTTAT	110	3976
1211351	N/A	N/A	22840	22855	CAAAAGGCTGGTGCAA	93	3977
1211399	N/A	N/A	25056	25071	CAGATAATTCCTCGGA	47	3978
1211427	N/A	N/A	26434	26449	CCCCGCGCCCCTGTCA	121	3979
1211475	N/A	N/A	27630	27645	AAGGTATGCTCTCTAT	48	3980
1211503	N/A	N/A	28573	28588	CATTCCGCAGACTTGG	40	3981
1211537	N/A	N/A	29168	29183	TAGGCAGGAGATTAAG	112	3982
1211565	N/A	N/A	29888	29903	ATCTCCTTGCATAATT	44	3983
1211592	N/A	N/A	30482	30497	GAATAATACATGGTGC	19	3984
1211620	N/A	N/A	31077	31092	CAACGGAGGACAGGAC	31	3985
1211645	N/A	N/A	31476	31491	TTGCCGGGCATGCACG	131	3986
1211673	N/A	N/A	32313	32328	TCACCTAGGCAGTGGA	125	3987
1211701	N/A	N/A	33281	33296	ATCCGTCCCTAACAAA	51	3988
1211729	N/A	N/A	33695	33710	GTAGCTAACAGTATTG	88	3989
1211757	N/A	N/A	34132	34147	CCACACGGACTCTCAT	105	3990
1211785	N/A	N/A	34477	34492	TGAGAGTGATTAGAGC	49	3991
1211813	N/A	N/A	34791	34806	AGCAACCAGTAGGTGG	51	3992
1211841	N/A	N/A	35212	35227	CCCGATTTCACTGACT	43	3993
1211869	N/A	N/A	35568	35583	GCGGGTTAATTGTTGA	57	3994
1211897	N/A	N/A	35907	35922	AGTATGCCGTGTGGGA	14	3995
1211925	N/A	N/A	36406	36421	CTATGGTCCCCCTAAC	98	3996
1211953	N/A	N/A	36842	36857	CACCCCGGATGCTGAC	94	3997

TABLE 63
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	16	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
1120805	N/A	N/A	28808	28823	CATTCCTGTTGATACG	32	3998
1205190	N/A	N/A	23946	23961	TCTCTAGTTCGCATCA	46	3999
1205252	N/A	N/A	27032	27047	GTTAACTGTTCCTAGA	108	4000
1209884	N/A	N/A	4307	4322	GATTTGAAAGGAGCTG	125	4001
1209912	N/A	N/A	8780	8795	AGATAGATATCCTGAG	128	4002
1209940	N/A	N/A	11142	11157	GAGGATTCGCCACTTA	83	4003
1209968	N/A	N/A	14986	15001	TGATATTTGGATCTTG	14	4004
1209996	N/A	N/A	15942	15957	TGTAAAATCCAGAGCC	29	4005
1210024	N/A	N/A	19263	19278	ATTGTACGATGAAGGA	7	4006
1210052	N/A	N/A	21538	21553	AAAATAATGATTCGAG	43	4007
1210080	N/A	N/A	23322	23337	AGAGTAAGGTGCACAC	37	4008
1210109	N/A	N/A	24066	24081	ACTTTGGAAGCATACA	16	4009
1210137	N/A	N/A	26233	26248	TTATTTCTCGAATCAA	75	4010
1210165	N/A	N/A	27011	27026	ACCTAAGATGTTTCCA	38	4011
1210193	N/A	N/A	28954	28969	CCTGATAACTACTTTG	21	4012
1210222	N/A	N/A	29894	29909	AATGATATCTCCTTGC	16	4013
1210250	N/A	N/A	30608	30623	GATGAAGGTACTGGCT	30	4014
1210278	N/A	N/A	32496	32511	ATAGATGGCTATAGGT	23	4015
1210306	N/A	N/A	34932	34947	AATAGATGTACCCTGA	49	4016
1210333	1527	1542	37890	37905	GGTACAAAAGCAGTTA	17	4017
1210364	N/A	N/A	3256	3271	CAGAGGAAGTGCTACT	120	4018
1210392	N/A	N/A	4208	4223	CGTGTTATCAGATTAA	93	4019
1210420	N/A	N/A	4704	4719	GCAGTCGGGCTTGGCT	174	4020
1210448	N/A	N/A	4914	4929	GCGCCGGTCCCCGCTA	106	4021
1210476	N/A	N/A	5246	5261	AAAACCGCGGCGACTT	179	4022
1210504	N/A	N/A	5767	5782	AGGTCTTATAGACCAT	90	4023
1210532	N/A	N/A	6219	6234	TGCGGTCCTCGCCCCT	119	4024
1210560	N/A	N/A	6452	6467	TTGCGCTAGACCCACG	120	4025
1210588	N/A	N/A	6716	6731	CAGCGGCGAGGAGGCT	184	4026
1210616	N/A	N/A	7110	7125	GCCCGACCGCCCGCGC	112	4027
1210644	N/A	N/A	7810	7825	GCCATAAAGCCGACAT	73	4028
1210672	N/A	N/A	8700	8715	CCCGCATCCACCTAGC	158	4029
1210700	N/A	N/A	9148	9163	ATCCTAAGTGATCAGG	92	4030
1210728	N/A	N/A	9342	9357	TGTAACTGACGGTGCA	89	4031
1210748	N/A	N/A	9600	9615	GGGTACCTAGTTGGTG	77	4032
1210776	N/A	N/A	10035	10050	ATGCTTGGGTATTACT	8	4033
1210802	N/A	N/A	10486	10501	GCTGAGTCACTACTTG	143	4034
1210830	N/A	N/A	10910	10925	CACGGAAAGCAACGAG	72	4035
1210858	N/A	N/A	11256	11271	GTTCGCAATGAGCATA	11	4036
1210886	N/A	N/A	12018	12033	AGATCCTTGTATTCCC	19	4037
1210914	N/A	N/A	12385	12400	ACTTAAGCCCCTATCA	89	4038
1210942	N/A	N/A	13009	13024	TTACTTATACCTGGAG	15	4039
1210970	N/A	N/A	13843	13858	TCCGATGGGCCTTGTT	32	4040
1210998	N/A	N/A	14249	14264	CTTGACGGTCCTTCTG	42	4041
1211026	N/A	N/A	14785	14800	TCATTCAAAGCGACGC	71	4042
1211054	N/A	N/A	15429	15444	GCCCTTAGACAATGGA	164	4043
1211082	N/A	N/A	15989	16004	TCTGTACCTCCCTTGT	48	4044
1211110	N/A	N/A	16692	16707	GCAGAGCATGTTCCAC	86	4045
1211136	N/A	N/A	17435	17450	CCCGCAAATCTTCTGT	92	4046
1211163	N/A	N/A	18584	18599	AAGGATTCCCTGATGC	116	4047
1211191	N/A	N/A	18882	18897	TACCCCCACCAGTGAC	61	4048
1211215	N/A	N/A	19102	19117	CTGAGTTTGGCCATAG	27	4049
1211242	N/A	N/A	19670	19685	TAGCTAGAGCAAAGCC	81	4050
1211270	N/A	N/A	20115	20130	GAGGCAAAGAGTTATT	172	4051
1211298	N/A	N/A	21259	21274	GTGGAAGTTTTAAGCC	28	4052
1211326	N/A	N/A	22356	22371	CAGGGTAAACAAGCAT	38	4053
1211352	N/A	N/A	22904	22919	CAAGGACAGCGAGAGG	82	4054
1211400	N/A	N/A	25145	25160	TAGGCTCAACATATAC	56	4055
1211428	N/A	N/A	26436	26451	AACCCCGCGCCCCTGT	110	4056
1211476	N/A	N/A	27681	27696	TTAGAGCCCAAAGTAA	86	4057
1211504	N/A	N/A	28578	28593	CTAATCATTCCGCAGA	68	4058
1211538	N/A	N/A	29188	29203	GAGGGAACTTGAAGAC	93	4059
1211566	N/A	N/A	29891	29906	GATATCTCCTTGCATA	131	4060
1211593	N/A	N/A	30523	30538	ATAGTACAGGCTTGTA	22	4061
1211621	N/A	N/A	31087	31102	CTGGGATTAACAACGG	39	4062
1211646	N/A	N/A	31483	31498	GAGGCATTTGCCGGGC	117	4063
1211674	N/A	N/A	32315	32330	AGTCACCTAGGCAGTG	112	4064
1211702	N/A	N/A	33285	33300	AATCATCCGTCCCTAA	67	4065
1211730	N/A	N/A	33702	33717	AGAGTAAGTAGCTAAC	120	4066
1211758	N/A	N/A	34138	34153	GAGAAGCCACACGGAC	94	4067
1211786	N/A	N/A	34479	34494	CATGAGAGTGATTAGA	72	4068
1211814	N/A	N/A	34817	34832	GTAAGTGGACTGTGAC	25	4069
1211842	N/A	N/A	35215	35230	CTCCCCGATTTCACTG	105	4070
1211870	N/A	N/A	35570	35585	TTGCGGGTTAATTGTT	32	4071
1211898	N/A	N/A	35909	35924	CCAGTATGCCGTGTGG	122	4072
1211926	N/A	N/A	36408	36423	GCCTATGGTCCCCCTA	78	4073
1211954	N/A	N/A	36844	36859	GCCACCCCGGATGCTG	81	4074

TABLE 64
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	12	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	10	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	3	31
1120806	N/A	N/A	28809	28824	TCATTCCTGTTGATAC	35	4075
1205254	N/A	N/A	27035	27050	TAGGTTAACTGTTCCT	97	4076
1209885	N/A	N/A	4308	4323	CGATTTGAAAGGAGCT	108	4077
1209913	N/A	N/A	9210	9225	TTAGCTATCATACCAC	71	4078
1209941	N/A	N/A	11169	11184	TTGTTAAACTCAATCA	37	4079
1209969	N/A	N/A	14988	15003	CTTGATATTTGGATCT	27	4080
1209997	N/A	N/A	16114	16129	TATAGATTCCAGGTCA	41	4081
1210025	N/A	N/A	19310	19325	TTGGAAGACTTACTCC	60	4082
1210053	N/A	N/A	21539	21554	GAAAATAATGATTCGA	63	4083
1210081	N/A	N/A	23323	23338	AAGAGTAAGGTGCACA	61	4084
1210110	N/A	N/A	24163	24178	TAGACATACAAAGCTT	53	4085
1210138	N/A	N/A	26235	26250	AGTTATTTCTCGAATC	34	4086
1210166	N/A	N/A	27037	27052	ATTAGGTTAACTGTTC	21	4087
1210194	N/A	N/A	28955	28970	ACCTGATAACTACTTT	33	4088
1210223	N/A	N/A	29898	29913	TAGAAATGATATCTCC	13	4089
1210251	N/A	N/A	30634	30649	CGAAACAGCTCAGCAG	57	4090
1210279	N/A	N/A	32561	32576	GTCTAGATTAATTTCT	37	4091
1210307	N/A	N/A	34958	34973	ATTACAAGATTGTCTG	35	4092
1210334	1598	1613	37961	37976	CCGTAAGAAAAATGTG	62	4093
1210365	N/A	N/A	3319	3334	CAGGTAAACCCAACCC	104	4094
1210393	N/A	N/A	4267	4282	TACGGTAAGTAAAAAT	102	4095
1210421	N/A	N/A	4734	4749	CGAATAAGCTCTAGGC	113	4096
1210449	N/A	N/A	4918	4933	CCCCGCGCCGGTCCCC	93	4097
1210477	N/A	N/A	5251	5266	CCTGCAAAACCGCGGC	120	4098
1210505	N/A	N/A	5770	5785	GTAAGGTCTTATAGAC	81	4099
1210533	N/A	N/A	6222	6237	TAATGCGGTCCTCGCC	102	4100
1210561	N/A	N/A	6456	6471	GCTCTTGCGCTAGACC	108	4101
1210589	N/A	N/A	6740	6755	AGCCGTGGCATGCGGT	73	4102
1210617	N/A	N/A	7112	7127	CAGCCCGACCGCCCGC	123	4103
1210645	N/A	N/A	7812	7827	ATGCCATAAAGCCGAC	47	4104
1210673	N/A	N/A	8703	8718	GCACCCGCATCCACCT	95	4105
1210701	N/A	N/A	9158	9173	AAAAAGCATTATCCTA	69	4106
1210729	N/A	N/A	9345	9360	CCATGTAACTGACGGT	63	4107
1210749	N/A	N/A	9602	9617	TTGGGTACCTAGTTGG	30	4108
1210777	N/A	N/A	10054	10069	TAATGCTTCAGCTGGG	2	4109
1210803	N/A	N/A	10494	10509	CTTTTCGGGCTGAGTC	65	4110
1210831	N/A	N/A	10912	10927	CTCACGGAAAGCAACG	63	4111
1210859	N/A	N/A	11258	11273	TGGTTCGCAATGAGCA	15	4112
1210887	N/A	N/A	12020	12035	CCAGATCCTTGTATTC	29	4113
1210915	N/A	N/A	12433	12448	CTACCTACTTCCAGAC	66	4114
1210943	N/A	N/A	13011	13026	ACTTACTTATACCTGG	21	4115
1210971	N/A	N/A	13846	13861	GATTCCGATGGGCCTT	38	4116
1210999	N/A	N/A	14264	14279	CCCAGCGATCTTGCAC	75	4117
1211027	N/A	N/A	14825	14840	GATTGTATGAGTTTGC	2	4118
1211055	N/A	N/A	15431	15446	CTGCCCTTAGACAATG	148	4119
1211083	N/A	N/A	15999	16014	CATTCCGTCCTCTGTA	41	4120
1211111	N/A	N/A	16716	16731	ATTGGATCACCCTATT	84	4121
1211137	N/A	N/A	17438	17453	CTTCCCGCAAATCTTC	80	4122
1211164	N/A	N/A	18600	18615	CCCGGTGCAGAAAAAC	108	4123
1211192	N/A	N/A	18922	18937	CACGCATTATGGAAAT	43	4124
1211216	N/A	N/A	19103	19118	ACTGAGTTTGGCCATA	8	4125
1211243	N/A	N/A	19697	19712	TCTCAACAGGTAATCC	69	4126
1211271	N/A	N/A	20129	20144	GAGGGTAAATCACAGA	105	4127
1211299	N/A	N/A	21344	21359	CTTATGTTGAGTACCT	17	4128
1211327	N/A	N/A	22398	22413	GATAGTGCAAATAACC	61	4129
1211353	N/A	N/A	22908	22923	TACACAAGGACAGCGA	81	4130
1211378	N/A	N/A	23950	23965	TAAATCTCTAGTTCGC	15	4131
1211401	N/A	N/A	25149	25164	GATGTAGGCTCAACAT	78	4132
1211429	N/A	N/A	26438	26453	TTAACCCCGCGCCCCT	106	4133
1211477	N/A	N/A	27685	27700	GCTGTTAGAGCCCAAA	68	4134
1211505	N/A	N/A	28586	28601	CTACTAAACTAATCAT	126	4135
1211539	N/A	N/A	29228	29243	TAGGACTCTGCACACT	60	4136
1211567	N/A	N/A	29924	29939	AGGGTAACTCTTCACT	63	4137
1211594	N/A	N/A	30587	30602	AAGGAGCCCATTCAAC	85	4138
1211622	N/A	N/A	31089	31104	GACTGGGATTAACAAC	28	4139
1211647	N/A	N/A	31491	31506	GCATTGGAGAGGCATT	72	4140
1211675	N/A	N/A	32318	32333	CAGAGTCACCTAGGCA	105	4141
1211703	N/A	N/A	33287	33302	ATAATCATCCGTCCCT	36	4142
1211731	N/A	N/A	33739	33754	CAGCGATGTCTCAGAA	81	4143
1211759	N/A	N/A	34176	34191	AGAGCATAGACGGGCG	101	4144
1211787	N/A	N/A	34503	34518	CTCCTTTAACAGTGAC	77	4145
1211815	N/A	N/A	34823	34838	CCCCTAGTAAGTGGAC	111	4146
1211843	N/A	N/A	35217	35232	TACTCCCCGATTTCAC	87	4147
1211871	N/A	N/A	35574	35589	ATCATTGCGGGTTAAT	37	4148
1211899	N/A	N/A	35913	35928	AAATCCAGTATGCCGT	36	4149
1211927	N/A	N/A	36436	36451	AGGATTAAGCTCCATG	109	4150
1211955	N/A	N/A	36848	36863	CTCCGCCACCCCGGAT	118	4151

TABLE 65
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	27	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	13	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	17	31
1120807	N/A	N/A	28810	28825	TTCATTCCTGTTGATA	73	4152
1209886	N/A	N/A	4310	4325	TACGATTTGAAAGGAG	105	4153
1209914	N/A	N/A	9341	9356	GTAACTGACGGTGCAG	46	4154
1209942	N/A	N/A	11170	11185	ATTGTTAAACTCAATC	91	4155
1209970	N/A	N/A	15069	15084	CCAGTATTCTGACCCA	17	4156
1209998	N/A	N/A	16120	16135	AAAGACTATAGATTCC	29	4157
1210026	N/A	N/A	19326	19341	TCTCTAAGAATTGCTC	22	4158
1210054	N/A	N/A	21540	21555	AGAAAATAATGATTCG	97	4159
1210082	N/A	N/A	23349	23364	CTTTGAAAGGTCTCCA	50	4160
1210111	N/A	N/A	24281	24296	TATCATAGAAGTATGA	121	4161
1210139	N/A	N/A	26237	26252	TAAGTTATTTCTCGAA	57	4162
1210167	N/A	N/A	27054	27069	GAATTTTAAGGGTGCA	17	4163
1210195	N/A	N/A	28976	28991	ACCTATTGGTGGAAGA	93	4164
1210224	N/A	N/A	29903	29918	GTACCTAGAAATGATA	47	4165
1210252	N/A	N/A	30635	30650	CCGAAACAGCTCAGCA	31	4166
1210280	N/A	N/A	32660	32675	AGTTTTATTCAGGCTC	25	4167
1210308	N/A	N/A	34960	34975	TTATTACAAGATTGTC	29	4168
1210344	516	531	28489	28504	ATGTAAAACCTGCCCC	103	4169
1210366	N/A	N/A	3325	3340	GCCAGACAGGTAAACC	87	4170
1210394	N/A	N/A	4269	4284	CTTACGGTAAGTAAAA	101	4171
1210422	N/A	N/A	4738	4753	CCACCGAATAAGCTCT	138	4172
1210450	N/A	N/A	4920	4935	TGCCCCGCGCCGGTCC	98	4173
1210478	N/A	N/A	5259	5274	AGTCGGTCCCTGCAAA	134	4174
1210506	N/A	N/A	5774	5789	CCCTGTAAGGTCTTAT	114	4175
1210534	N/A	N/A	6227	6242	CCAAGTAATGCGGTCC	144	4176
1210562	N/A	N/A	6497	6512	GCGCGCTTCCCCAGGC	141	4177
1210590	N/A	N/A	6749	6764	CCTGGAGACAGCCGTG	120	4178
1210618	N/A	N/A	7116	7131	CCCGCAGCCCGACCGC	131	4179
1210646	N/A	N/A	7833	7848	TACTAACAATGTGTTG	82	4180
1210674	N/A	N/A	8705	8720	AAGCACCCGCATCCAC	78	4181
1210702	N/A	N/A	9167	9182	TTCAATCACAAAAAGC	52	4182
1210730	N/A	N/A	9399	9414	ATGCTAGGTGGCATCA	73	4183
1210750	N/A	N/A	9606	9621	TGCCTTGGGTACCTAG	66	4184
1210778	N/A	N/A	10078	10093	CTGTGGTTCAAGGAAT	32	4185
1210804	N/A	N/A	10499	10514	CTGCCCTTTTCGGGCT	110	4186
1210832	N/A	N/A	10962	10977	TGATTGTGAGAGCTGA	15	4187
1210860	N/A	N/A	11349	11364	CAAATCGATGTCAATA	36	4188
1210888	N/A	N/A	12049	12064	CGGGACCATCAAGGCA	117	4189
1210916	N/A	N/A	12449	12464	CCATACCTCTCTCAGG	105	4190
1210944	N/A	N/A	13013	13028	AGACTTACTTATACCT	20	4191
1210972	N/A	N/A	13853	13868	TCAGGTAGATTCCGAT	65	4192
1211000	N/A	N/A	14289	14304	TCAACTACGCCAAGCT	77	4193
1211028	N/A	N/A	14827	14842	CAGATTGTATGAGTTT	8	4194
1211056	N/A	N/A	15439	15454	TGCAGGTACTGCCCTT	83	4195
1211084	N/A	N/A	16007	16022	TGACAACACATTCCGT	24	4196
1211112	N/A	N/A	16718	16733	CCATTGGATCACCCTA	34	4197
1211138	N/A	N/A	17443	17458	TACACCTTCCCGCAAA	83	4198
1211165	N/A	N/A	18602	18617	GACCCGGTGCAGAAAA	87	4199
1211193	N/A	N/A	18927	18942	AAGAACACGCATTATG	51	4200
1211217	N/A	N/A	19104	19119	CACTGAGTTTGGCCAT	34	4201
1211244	N/A	N/A	19707	19722	TGGGCGGCTCTCTCAA	111	4202
1211272	N/A	N/A	20186	20201	GGACAGTTGCAAGAGT	108	4203
1211300	N/A	N/A	21381	21396	CCCCACCCAATTTGCA	114	4204
1211328	N/A	N/A	22406	22421	TGTTAAAGGATAGTGC	53	4205
1211354	N/A	N/A	22922	22937	CATTGATCAAAAGCTA	125	4206
1211379	N/A	N/A	23986	24001	CATAGTGTTGGCTATT	80	4207
1211402	N/A	N/A	25155	25170	AGAAATGATGTAGGCT	42	4208
1211430	N/A	N/A	26440	26455	CCTTAACCCCGCGCCC	108	4209
1211450	N/A	N/A	27049	27064	TTAAGGGTGCAAATTA	67	4210
1211478	N/A	N/A	27696	27711	TCACGGGAATGGCTGT	90	4211
1211506	N/A	N/A	28589	28604	CTTCTACTAAACTAAT	119	4212
1211540	N/A	N/A	29355	29370	GAGCTAATGTAAGATG	104	4213
1211568	N/A	N/A	29927	29942	GTAAGGGTAACTCTTC	18	4214
1211595	N/A	N/A	30605	30620	GAAGGTACTGGCTATC	40	4215
1211623	N/A	N/A	31095	31110	GATCTTGACTGGGATT	93	4216
1211648	N/A	N/A	31528	31543	CAGAGATTCTAGTGGT	22	4217
1211676	N/A	N/A	32337	32352	CCCAACCCTAAATGCA	107	4218
1211704	N/A	N/A	33290	33305	TCCATAATCATCCGTC	39	4219
1211732	N/A	N/A	33741	33756	CACAGCGATGTCTCAG	45	4220
1211760	N/A	N/A	34179	34194	CCAAGAGCATAGACGG	79	4221
1211788	N/A	N/A	34513	34528	AAGTCTTAAGCTCCTT	86	4222
1211816	N/A	N/A	34827	34842	AATACCCCTAGTAAGT	86	4223
1211844	N/A	N/A	35224	35239	GACCAGCTACTCCCCG	72	4224
1211872	N/A	N/A	35578	35593	CGAAATCATTGCGGGT	44	4225
1211900	N/A	N/A	36029	36044	TCCCCCCACAAGGAGG	80	4226
1211928	N/A	N/A	36450	36465	CACGCCATGGTAAAAG	66	4227
1211956	N/A	N/A	36850	36865	CTCTCCGCCACCCCGG	114	4228

TABLE 66
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	12	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	11	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	16	31
1205168	N/A	N/A	17490	17505	AGTGATTTGCTGACCT	14	4229
1205199	N/A	N/A	23990	24005	AATACATAGTGTTGGC	41	4230
1205269	N/A	N/A	28823	28838	TCCAGATTGCAGTTTC	12	4231
1205304	856	871	37219	37234	TCAACAGCAACCCCCA	14	4232
1209887	N/A	N/A	4311	4326	TTACGATTTGAAAGGA	53	4233
1209915	N/A	N/A	9448	9463	AATAGCTTCAAGTCCC	16	4234
1209943	N/A	N/A	11172	11187	CAATTGTTAAACTCAA	64	4235
1209971	N/A	N/A	15268	15283	AGTTTATCAACTACCT	60	4236
1209999	N/A	N/A	16238	16253	AAAGATCAACATCCAC	26	4237
1210027	N/A	N/A	19371	19386	CTTGTTGGAAAACTCT	46	4238
1210055	N/A	N/A	21560	21575	GCAAAACAAGTCAGCT	108	4239
1210084	N/A	N/A	23416	23431	ATGGTATATCCTCACA	53	4240
1210112	N/A	N/A	24446	24461	ACCAATGAGTCAAGAT	44	4241
1210140	N/A	N/A	26238	26253	ATAAGTTATTTCTCGA	50	4242
1210168	N/A	N/A	27055	27070	AGAATTTTAAGGGTGC	11	4243
1210196	N/A	N/A	28979	28994	ACTACCTATTGGTGGA	92	4244
1210225	N/A	N/A	29904	29919	CGTACCTAGAAATGAT	61	4245
1210253	N/A	N/A	30638	30653	AAGCCGAAACAGCTCA	112	4246
1210281	N/A	N/A	32661	32676	TAGTTTTATTCAGGCT	21	4247
1210309	N/A	N/A	34999	35014	TATGATTGTTGTCATG	94	4248
1210367	N/A	N/A	3358	3373	ATAACCACCCAGGTCA	105	4249
1210395	N/A	N/A	4274	4289	ATATTCTTACGGTAAG	95	4250
1210423	N/A	N/A	4742	4757	ACTACCACCGAATAAG	116	4251
1210451	N/A	N/A	4932	4947	GCCGGACACACCTGCC	95	4252
1210479	N/A	N/A	5261	5276	AAAGTCGGTCCCTGCA	100	4253
1210507	N/A	N/A	5803	5818	CTATCCAGACACCAGC	61	4254
1210535	N/A	N/A	6241	6256	GCAGGACATTTATCCC	120	4255
1210563	N/A	N/A	6499	6514	CCGCGCGCTTCCCCAG	113	4256
1210591	N/A	N/A	6764	6779	GATTTCCGTCTGAGAC	131	4257
1210619	N/A	N/A	7119	7134	GCGCCCGCAGCCCGAC	124	4258
1210647	N/A	N/A	7844	7859	AGTGGAAGCTTTACTA	110	4259
1210675	N/A	N/A	8707	8722	AAAAGCACCCGCATCC	138	4260
1210703	N/A	N/A	9177	9192	CGATATTTTTTTCAAT	94	4261
1210731	N/A	N/A	9405	9420	GTTTTGATGCTAGGTG	10	4262
1210751	N/A	N/A	9630	9645	GCTGGGTGTTCCTTTC	61	4263
1210779	N/A	N/A	10152	10167	GCAGGGTTTTCTACTC	69	4264
1210805	N/A	N/A	10578	10593	CGGGCCCAAGAGTCCA	155	4265
1210833	N/A	N/A	10965	10980	CCCTGATTGTGAGAGC	11	4266
1210861	N/A	N/A	11369	11384	CACTTGCAACATATTC	10	4267
1210889	N/A	N/A	12055	12070	CAGGCTCGGGACCATC	102	4268
1210917	N/A	N/A	12477	12492	CTGCATCTCTGACAAT	46	4269
1210945	N/A	N/A	13343	13358	GAGAGGTCTGGACTCA	123	4270
1210973	N/A	N/A	13863	13878	AGTGGATCATTCAGGT	35	4271
1211001	N/A	N/A	14317	14332	CCCACTAGTCTGCCCT	92	4272
1211029	N/A	N/A	14829	14844	TCCAGATTGTATGAGT	27	4273
1211057	N/A	N/A	15474	15489	GCAGACCCACCTGTTG	134	4274
1211085	N/A	N/A	16012	16027	CATGTTGACAACACAT	91	4275
1211113	N/A	N/A	16730	16745	AGTGATGACTTTCCAT	41	4276
1211166	N/A	N/A	18605	18620	GCAGACCCGGTGCAGA	89	4277
1211194	N/A	N/A	18965	18980	ATAGAGTTCTCCTCCT	91	4278
1211218	N/A	N/A	19105	19120	ACACTGAGTTTGGCCA	78	4279
1211245	N/A	N/A	19726	19741	AAAGGCGATGAAGGTG	32	4280
1211273	N/A	N/A	20263	20278	CATATCAAGTCCCACT	87	4281
1211301	N/A	N/A	21385	21400	CACGCCCCACCCAATT	97	4282
1211329	N/A	N/A	22409	22424	CGCTGTTAAAGGATAG	81	4283
1211355	N/A	N/A	22924	22939	GCCATTGATCAAAAGC	93	4284
1211403	N/A	N/A	25220	25235	CACATGGGACAGCTTT	43	4285
1211431	N/A	N/A	26442	26457	ACCCTTAACCCCGCGC	116	4286
1211451	N/A	N/A	27071	27086	GTAAGCAGCTCATGGC	37	4287
1211479	N/A	N/A	27701	27716	AAAGATCACGGGAATG	64	4288
1211507	N/A	N/A	28591	28606	TCCTTCTACTAAACTA	83	4289
1211541	N/A	N/A	29368	29383	GACAGACATGTAAGAG	39	4290
1211569	N/A	N/A	30003	30018	AAACTAAAACGAGTGA	83	4291
1211596	N/A	N/A	30697	30712	TGAGTTTTGGCCTAAA	16	4292
1211624	N/A	N/A	31101	31116	TCAGATGATCTTGACT	69	4293
1211649	N/A	N/A	31539	31554	CGGAGACTACACAGAG	27	4294
1211677	N/A	N/A	32355	32370	ATGGCTATGTCAGTGG	68	4295
1211705	N/A	N/A	33292	33307	CATCCATAATCATCCG	5	4296
1211733	N/A	N/A	33744	33759	GAACACAGCGATGTCT	74	4297
1211761	N/A	N/A	34193	34208	ATGCACCAGATGCCCC	40	4298
1211789	N/A	N/A	34567	34582	GGGTAGGTCTGCAACA	56	4299
1211817	N/A	N/A	34829	34844	CAAATACCCCTAGTAA	74	4300
1211845	N/A	N/A	35230	35245	TGAGTGGACCAGCTAC	70	4301
1211873	N/A	N/A	35582	35597	GGAGCGAAATCATTGC	56	4302
1211901	N/A	N/A	36064	36079	CAAACTGATGGCCCCA	76	4303
1211929	N/A	N/A	36453	36468	AGTCACGCCATGGTAA	48	4304
1211957	N/A	N/A	36857	36872	CGGCCCCCTCTCCGCC	88	4305

TABLE 67
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	11	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	11	31
1205151	N/A	N/A	10232	10247	AGATTAAGCACTGTTC	9	4306
1209888	N/A	N/A	4321	4336	CTATATTATTTTACGA	107	4307
1209916	N/A	N/A	9564	9579	TTAATTTGACCCTCAT	52	4308
1209944	N/A	N/A	11189	11204	CTTATTGTCTGCAGCC	10	4309
1209972	N/A	N/A	15390	15405	AGATTACAGGAAAGCT	28	4310
1210000	N/A	N/A	16466	16481	GTAATAAGTTCCCCAT	36	4311
1210028	N/A	N/A	19401	19416	ATAGTAAGCTGTCTGA	26	4312
1210056	N/A	N/A	21588	21603	AAGCTATTATCTGCCA	57	4313
1210085	N/A	N/A	23417	23432	TATGGTATATCCTCAC	35	4314
1210113	N/A	N/A	24447	24462	AACCAATGAGTCAAGA	34	4315
1210141	N/A	N/A	26239	26254	CATAAGTTATTTCTCG	15	4316
1210169	N/A	N/A	27094	27109	GTAAGATAAACTTGTT	37	4317
1210197	N/A	N/A	29009	29024	AAGGTGAGAATTTGTC	20	4318
1210226	N/A	N/A	29925	29940	AAGGGTAACTCTTCAC	21	4319
1210254	N/A	N/A	30639	30654	AAAGCCGAAACAGCTC	78	4320
1210282	N/A	N/A	32662	32677	ATAGTTTTATTCAGGC	7	4321
1210310	N/A	N/A	35001	35016	TATATGATTGTTGTCA	114	4322
1210345	1467	1482	37830	37845	CTTATGTTGTAAAATT	49	4323
1210368	N/A	N/A	3365	3380	TTAATCAATAACCACC	74	4324
1210396	N/A	N/A	4312	4327	TTTACGATTTGAAAGG	84	4325
1210424	N/A	N/A	4744	4759	AGACTACCACCGAATA	27	4326
1210452	N/A	N/A	4937	4952	TCTTAGCCGGACACAC	61	4327
1210480	N/A	N/A	5275	5290	ATGCGCCTCAAGAAAA	77	4328
1210508	N/A	N/A	5806	5821	CCGCTATCCAGACACC	59	4329
1210536	N/A	N/A	6243	6258	CGGCAGGACATTTATC	101	4330
1210564	N/A	N/A	6501	6516	CACCGCGCGCTTCCCC	58	4331
1210592	N/A	N/A	6768	6783	CCCAGATTTCCGTCTG	68	4332
1210620	N/A	N/A	7142	7157	AGCGGAAGGCCCGGCC	118	4333
1210648	N/A	N/A	7872	7887	GAAGTTACTCTGATGG	30	4334
1210676	N/A	N/A	8714	8729	GATGGCGAAAAGCACC	66	4335
1210704	N/A	N/A	9178	9193	TCGATATTTTTTTCAA	60	4336
1210732	N/A	N/A	9407	9422	AGGTTTTGATGCTAGG	5	4337
1210752	N/A	N/A	9711	9726	ATCGCTATGGCCTACC	11	4338
1210806	N/A	N/A	10580	10595	TCCGGGCCCAAGAGTC	107	4339
1210834	N/A	N/A	11007	11022	ACCCAGCATGTTCAGG	52	4340
1210862	N/A	N/A	11625	11640	CACATGGCGCAGTGGC	86	4341
1210890	N/A	N/A	12064	12079	CTCTTCGACCAGGCTC	19	4342
1210918	N/A	N/A	12485	12500	GAAAGTGTCTGCATCT	39	4343
1210946	N/A	N/A	13363	13378	AACAGGTCTGGGATTC	70	4344
1210974	N/A	N/A	13865	13880	GGAGTGGATCATTCAG	40	4345
1211002	N/A	N/A	14340	14355	CTACTTACCCCTCACT	72	4346
1211030	N/A	N/A	14885	14900	CACCCATAGGGTCTTG	65	4347
1211058	N/A	N/A	15496	15511	CCCGCCCACACACTGT	74	4348
1211086	N/A	N/A	16016	16031	CTGGCATGTTGACAAC	81	4349
1211114	N/A	N/A	16775	16790	ATCACTATGGAAGGAA	82	4350
1211139	N/A	N/A	17568	17583	CTTCGGTATAGAGGAA	80	4351
1211167	N/A	N/A	18608	18623	CAGGCAGACCCGGTGC	65	4352
1211195	N/A	N/A	18985	19000	GAATTCTCCCCATAGA	93	4353
1211219	N/A	N/A	19173	19188	TCTTTCAAACGGATTT	28	4354
1211246	N/A	N/A	19757	19772	GGAGACAACTATGTGC	24	4355
1211274	N/A	N/A	20290	20305	ATTACCAGCATGGAAC	53	4356
1211302	N/A	N/A	21398	21413	CGATACTCTTCCCCAC	52	4357
1211330	N/A	N/A	22452	22467	ATTGGGTTGTCATAAT	73	4358
1211356	N/A	N/A	23002	23017	AAGGGCTAGTGGAATT	72	4359
1211380	N/A	N/A	23995	24010	CAGACAATACATAGTG	19	4360
1211404	N/A	N/A	25332	25347	GTCAGGTAGACCAAAA	75	4361
1211432	N/A	N/A	26444	26459	TCACCCTTAACCCCGC	57	4362
1211452	N/A	N/A	27104	27119	TAGTAACTGAGTAAGA	31	4363
1211480	N/A	N/A	27782	27797	AGGGCTTATCAGAACT	91	4364
1211508	N/A	N/A	28626	28641	GGAGACTCATGAACAT	51	4365
1211515	N/A	N/A	28824	28839	GTCCAGATTGCAGTTT	12	4366
1211542	N/A	N/A	29396	29411	TGCTGGTTCAGTCAAC	59	4367
1211570	N/A	N/A	30015	30030	TGATTTGATATCAAAC	75	4368
1211597	N/A	N/A	30702	30717	GACTTTGAGTTTTGGC	16	4369
1211625	N/A	N/A	31136	31151	ATCCTAGAGATCTGAG	67	4370
1211650	N/A	N/A	31541	31556	TCCGGAGACTACACAG	102	4371
1211678	N/A	N/A	32358	32373	TTAATGGCTATGTCAG	54	4372
1211706	N/A	N/A	33300	33315	CAGTGAGACATCCATA	8	4373
1211734	N/A	N/A	33748	33763	GTGGGAACACAGCGAT	119	4374
1211762	N/A	N/A	34196	34211	GAAATGCACCAGATGC	81	4375
1211790	N/A	N/A	34569	34584	ATGGGTAGGTCTGCAA	36	4376
1211818	N/A	N/A	34832	34847	AGCCAAATACCCCTAG	87	4377
1211846	N/A	N/A	35232	35247	GCTGAGTGGACCAGCT	83	4378
1211874	N/A	N/A	35585	35600	TCAGGAGCGAAATCAT	39	4379
1211902	N/A	N/A	36066	36081	CTCAAACTGATGGCCC	89	4380
1211930	N/A	N/A	36460	36475	TTATTGGAGTCACGCC	28	4381
1211958	N/A	N/A	36861	36876	AGAGCGGCCCCCTCTC	110	4382

TABLE 68
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	11	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	9	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	7	31
1078160	1475	1490	37838	37853	CATTCTATCTTATGTT	29	4383
1205153	N/A	N/A	10235	10250	ACAAGATTAAGCACTG	11	4384
1205161	N/A	N/A	16813	16828	ATAACTGGTCCTTCCC	48	4385
1205180	N/A	N/A	22455	22470	TTTATTGGGTTGTCAT	20	4386
1205200	N/A	N/A	24026	24041	ACATCATATAAACCAG	22	4387
1209889	N/A	N/A	7661	7676	TCAACGAGGCTGCATC	23	4388
1209917	N/A	N/A	9713	9728	CAATCGCTATGGCCTA	47	4389
1209945	N/A	N/A	11260	11275	AATGGTTCGCAATGAG	8	4390
1209973	N/A	N/A	15391	15406	CAGATTACAGGAAAGC	24	4391
1210001	N/A	N/A	16505	16520	ACTATTAGCTCTTCAA	19	4392
1210029	N/A	N/A	19402	19417	AATAGTAAGCTGTCTG	17	4393
1210057	N/A	N/A	21592	21607	ATGCAAGCTATTATCT	62	4394
1210086	N/A	N/A	23419	23434	ATTATGGTATATCCTC	8	4395
1210114	N/A	N/A	24607	24622	TCCTAATCCATATTGC	45	4396
1210142	N/A	N/A	26241	26256	GCCATAAGTTATTTCT	30	4397
1210170	N/A	N/A	27096	27111	GAGTAAGATAAACTTG	75	4398
1210198	N/A	N/A	29033	29048	AGAATCTAGGAACTGG	33	4399
1210227	N/A	N/A	29930	29945	TGAGTAAGGGTAACTC	80	4400
1210255	N/A	N/A	30798	30813	TAAATCGCAATACCTA	27	4401
1210283	N/A	N/A	32680	32695	CTAATCATCCAACCAA	32	4402
1210311	N/A	N/A	35006	35021	CACTTTATATGATTGT	41	4403
1210369	N/A	N/A	3378	3393	TGAACCCAATAGTTTA	75	4404
1210397	N/A	N/A	4347	4362	CATCACTCTCAATGAT	106	4405
1210425	N/A	N/A	4747	4762	ACCAGACTACCACCGA	75	4406
1210453	N/A	N/A	4939	4954	CGTCTTAGCCGGACAC	99	4407
1210481	N/A	N/A	5278	5293	TAAATGCGCCTCAAGA	109	4408
1210509	N/A	N/A	5810	5825	TTATCCGCTATCCAGA	62	4409
1210537	N/A	N/A	6245	6260	GCCGGCAGGACATTTA	105	4410
1210565	N/A	N/A	6503	6518	TCCACCGCGCGCTTCC	105	4411
1210593	N/A	N/A	6777	6792	GAGTAGGTGCCCAGAT	104	4412
1210621	N/A	N/A	7147	7162	GCACTAGCGGAAGGCC	94	4413
1210649	N/A	N/A	7898	7913	CTAATGGGCTGGACAG	61	4414
1210677	N/A	N/A	8716	8731	GGGATGGCGAAAAGCA	90	4415
1210705	N/A	N/A	9183	9198	CCAGGTCGATATTTTT	20	4416
1210733	N/A	N/A	9431	9446	ATCTTGCAACAAGGAA	25	4417
1210753	N/A	N/A	9714	9729	TCAATCGCTATGGCCT	23	4418
1210807	N/A	N/A	10582	10597	CTTCCGGGCCCAAGAG	117	4419
1210835	N/A	N/A	11033	11048	ATTAAGCCTGAGTGGC	83	4420
1210863	N/A	N/A	11700	11715	GCAACCCCCAGAGAGA	53	4421
1210891	N/A	N/A	12069	12084	CCTGACTCTTCGACCA	31	4422
1210919	N/A	N/A	12489	12504	GCTAGAAAGTGTCTGC	92	4423
1210947	N/A	N/A	13402	13417	TAGATATCCCAAGGGA	91	4424
1210975	N/A	N/A	13889	13904	GGGAGGTGAGACTTAA	92	4425
1211003	N/A	N/A	14344	14359	GATTCTACTTACCCCT	20	4426
1211031	N/A	N/A	14891	14906	TAAACTCACCCATAGG	49	4427
1211059	N/A	N/A	15530	15545	GTAAGTGGTCATCTTC	26	4428
1211087	N/A	N/A	16038	16053	AGAAACCCTAAGGGTT	75	4429
1211140	N/A	N/A	17570	17585	CCCTTCGGTATAGAGG	73	4430
1211168	N/A	N/A	18611	18626	TTACAGGCAGACCCGG	70	4431
1211196	N/A	N/A	18987	19002	AGGAATTCTCCCCATA	77	4432
1211220	N/A	N/A	19204	19219	TCAAAGCCTGCTTAAC	67	4433
1211247	N/A	N/A	19762	19777	CAGATGGAGACAACTA	48	4434
1211275	N/A	N/A	20351	20366	TGAGTTAAGGGCTCAG	75	4435
1211303	N/A	N/A	21401	21416	TGGCGATACTCTTCCC	80	4436
1211357	N/A	N/A	23005	23020	TCAAAGGGCTAGTGGA	52	4437
1211405	N/A	N/A	25339	25354	AATAGATGTCAGGTAG	40	4438
1211433	N/A	N/A	26446	26461	CTTCACCCTTAACCCC	15	4439
1211453	N/A	N/A	27161	27176	CATACCTTCAATGCTT	52	4440
1211481	N/A	N/A	27785	27800	TGAAGGGCTTATCAGA	81	4441
1211509	N/A	N/A	28657	28672	CCACCCTCACTTTATG	101	4442
1211516	N/A	N/A	28825	28840	TGTCCAGATTGCAGTT	18	4443
1211543	N/A	N/A	29426	29441	ACATCTAGCTCTTACT	87	4444
1211571	N/A	N/A	30044	30059	CCACTGATGCAATGGA	106	4445
1211598	N/A	N/A	30720	30735	TAAGGGTTCTTATCTC	33	4446
1211626	N/A	N/A	31166	31181	GAAAGATCCTGCAGCC	36	4447
1211651	N/A	N/A	31543	31558	CTTCCGGAGACTACAC	53	4448
1211679	N/A	N/A	32362	32377	CAGTTTAATGGCTATG	13	4449
1211707	N/A	N/A	33314	33329	GATTTGGGCATGGCCA	71	4450
1211735	N/A	N/A	33774	33789	ACCGCCTGGTGTGTTC	121	4451
1211763	N/A	N/A	34212	34227	TTTCGAGAGAGGGAAG	114	4452
1211791	N/A	N/A	34575	34590	CTCAGGATGGGTAGGT	35	4453
1211819	N/A	N/A	34851	34866	TCCAGTAGTCATCTCC	11	4454
1211847	N/A	N/A	35265	35280	CTAACCAGATCTGGCA	72	4455
1211875	N/A	N/A	35624	35639	CACCTACAGGAAGTTC	82	4456
1211903	N/A	N/A	36068	36083	CGCTCAAACTGATGGC	64	4457
1211931	N/A	N/A	36467	36482	TTTACCATTATTGGAG	54	4458
1211959	N/A	N/A	36863	36878	GCAGAGCGGCCCCCTC	52	4459

TABLE 69
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	27	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	6	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
1078136	1493	1508	37856	37871	CAGAATTATTCAGGTC	7	4460
1079080	N/A	N/A	28707	28722	AGTCCCAAGTTCTAAG	93	4461
1209892	N/A	N/A	7743	7758	AGTCCTAAAAGGGTGT	91	4462
1209920	N/A	N/A	9843	9858	CTGTATTTCCGTGGCC	88	4463
1209948	N/A	N/A	11971	11986	AACGAATATCCCCACA	38	4464
1209976	N/A	N/A	15538	15553	GAAGAGTAGTAAGTGG	28	4465
1210004	N/A	N/A	16673	16688	CCATAGTGATGCATGT	80	4466
1210032	N/A	N/A	19446	19461	AAGGGAATAACACGCA	10	4467
1210060	N/A	N/A	21701	21716	CAAAATCAGCCATAGC	72	4468
1210089	N/A	N/A	23510	23525	TTATCTACTATATCCT	66	4469
1210117	N/A	N/A	24893	24908	AGTGAACTACACTTTC	93	4470
1210145	N/A	N/A	26261	26276	CCATTACAATTGAGCT	40	4471
1210173	N/A	N/A	27182	27197	CATATGTAATGGCTTC	102	4472
1210201	N/A	N/A	29350	29365	AATGTAAGATGCTAGG	31	4473
1210230	N/A	N/A	30014	30029	GATTTGATATCAAACT	81	4474
1210258	N/A	N/A	31220	31235	AACCAGGAACTCTCCA	97	4475
1210286	N/A	N/A	32852	32867	TTAAATGCTCTATAGC	88	4476
1210314	N/A	N/A	35131	35146	GCGACTAACTACACAG	63	4477
1210372	N/A	N/A	3403	3418	CTACAGCTCGCTTCTT	128	4478
1210400	N/A	N/A	4427	4442	ATGCAGCAGTTCACGC	122	4479
1210428	N/A	N/A	4766	4781	TCCTCCTAGCCTAGGC	159	4480
1210456	N/A	N/A	5022	5037	CCCACTAATAGAGGGC	88	4481
1210484	N/A	N/A	5374	5389	GTAGGGTGTGTCCCTG	150	4482
1210512	N/A	N/A	5817	5832	GCCGCCCTTATCCGCT	100	4483
1210540	N/A	N/A	6262	6277	AATTTCAGCCGGTCAG	124	4484
1210568	N/A	N/A	6517	6532	CCCTGCGCTTCCCGTC	196	4485
1210596	N/A	N/A	6833	6848	CCGAGACCCCGGTTCA	117	4486
1210624	N/A	N/A	7155	7170	GGTCCCGCGCACTAGC	152	4487
1210652	N/A	N/A	7924	7939	CATCGCCAAGAAAATA	69	4488
1210680	N/A	N/A	8783	8798	ATCAGATAGATATCCT	82	4489
1210708	N/A	N/A	9187	9202	GCTCCCAGGTCGATAT	91	4490
1210736	N/A	N/A	9470	9485	AGGCTTAGCTTAGGGT	120	4491
1210756	N/A	N/A	9737	9752	TCCAGGTCCACGGGCT	89	4492
1210782	N/A	N/A	10316	10331	ACTCAGTTGCCAACTC	59	4493
1210810	N/A	N/A	10607	10622	TTAACACGCCTGCCAA	45	4494
1210838	N/A	N/A	11130	11145	CTTAAGGCTGAAGTCG	99	4495
1210866	N/A	N/A	11736	11751	CAGGAGGCCCCATTCA	120	4496
1210894	N/A	N/A	12132	12147	TCCCTTTGGGCACCTG	89	4497
1210922	N/A	N/A	12657	12672	AGGTGTAGGTGTGACC	93	4498
1210950	N/A	N/A	13522	13537	GATGTTTGGCTTGCTG	60	4499
1210978	N/A	N/A	13961	13976	CTCCCGAAGTGGGAAG	101	4500
1211006	N/A	N/A	14389	14404	AACTCCTTCCTAGTGG	91	4501
1211034	N/A	N/A	14944	14959	TCATTCAATAGCAGGG	7	4502
1211062	N/A	N/A	15615	15630	CCTATTGATAGTCATG	33	4503
1211090	N/A	N/A	16104	16119	AGGTCATACAGTTCAG	9	4504
1211117	N/A	N/A	16905	16920	TCTCCCGCATTCCCCA	85	4505
1211143	N/A	N/A	17598	17613	ACTGTATTCAGCACCA	44	4506
1211171	N/A	N/A	18629	18644	CCCAGGTTACCTAATT	111	4507
1211199	N/A	N/A	19019	19034	ATTCGCTTAGTTTTAA	36	4508
1211223	N/A	N/A	19219	19234	ATGTACCATGAATGAT	28	4509
1211250	N/A	N/A	19787	19802	CCTATGATTCATGCGG	76	4510
1211278	N/A	N/A	20365	20380	GGCCTACAACCTAGTG	154	4511
1211306	N/A	N/A	21462	21477	AAACCTAGTGTGACAC	40	4512
1211333	N/A	N/A	22522	22537	ACCTAACTTGCCACAT	92	4513
1211360	N/A	N/A	23036	23051	ATTGACTTACTAAGAG	65	4514
1211383	N/A	N/A	24278	24293	CATAGAAGTATGATAT	85	4515
1211408	N/A	N/A	25487	25502	TGGTTTACATGATCTA	29	4516
1211436	N/A	N/A	26504	26519	GGAGTATGGCTGGTGG	80	4517
1211456	N/A	N/A	27214	27229	GCAGCATTTAATCCTT	87	4518
1211484	N/A	N/A	27842	27857	TTAAAGAGGGCCTGAG	115	4519
1211518	N/A	N/A	28844	28859	GTATTCACCTCTGATT	58	4520
1211546	N/A	N/A	29486	29501	ACATACTCTGGTACAT	46	4521
1211574	N/A	N/A	30060	30075	TATCTTGAGGGCATAT	45	4522
1211601	N/A	N/A	30735	30750	GTTACATGAGTGACTT	46	4523
1211629	N/A	N/A	31233	31248	CACACGATAAGGGAAC	38	4524
1211654	N/A	N/A	31656	31671	GCCCTAGCACCTTTCA	95	4525
1211682	N/A	N/A	32370	32385	ATTAGGGACAGTTTAA	67	4526
1211710	N/A	N/A	33331	33346	CCCATAGCATTGACTC	42	4527
1211738	N/A	N/A	33830	33845	GCAGGATTCAGTAGAA	133	4528
1211766	N/A	N/A	34224	34239	AGTTCGATGGAATTTC	23	4529
1211794	N/A	N/A	34607	34622	TGAGCATTCAACTTAC	64	4530
1211822	N/A	N/A	34927	34942	ATGTACCCTGAAATAG	77	4531
1211850	N/A	N/A	35281	35296	CTCCCAAATGGGCTGT	100	4532
1211878	N/A	N/A	35670	35685	CACACAATAGTCTTGG	36	4533
1211906	N/A	N/A	36080	36095	GTGGAGCAGCCACGCT	116	4534
1211934	N/A	N/A	36501	36516	GCATTACCTAAAGCCA	86	4535
1211962	N/A	N/A	36880	36895	GTGACGGAGAGTCCAT	123	4536

TABLE 70
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	21	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	8	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	19	31
1078144	1501	1516	37864	37879	ATATTACACAGAATTA	75	4537
1079081	N/A	N/A	28708	28723	AAGTCCCAAGTTCTAA	95	4538
1205164	N/A	N/A	16928	16943	CAGCGATCCTGCTCCC	108	4539
1205219	N/A	N/A	26550	26565	GGATTCACTTTGGCTG	77	4540
1209893	N/A	N/A	7751	7766	CAATTTCAAGTCCTAA	84	4541
1209921	N/A	N/A	9847	9862	AAAGCTGTATTTCCGT	8	4542
1209949	N/A	N/A	11973	11988	ATAACGAATATCCCCA	41	4543
1209977	N/A	N/A	15612	15627	ATTGATAGTCATGAGT	16	4544
1210005	N/A	N/A	16677	16692	CTACCCATAGTGATGC	32	4545
1210033	N/A	N/A	19447	19462	AAAGGGAATAACACGC	21	4546
1210061	N/A	N/A	21736	21751	CTTCTTAACAACTACT	58	4547
1210090	N/A	N/A	23528	23543	CTATATGTGTTCAAGT	67	4548
1210118	N/A	N/A	24938	24953	CAATGTATACACTTCT	22	4549
1210146	N/A	N/A	26262	26277	CCCATTACAATTGAGC	56	4550
1210174	N/A	N/A	27604	27619	ATCAATTTGCTTGGAC	30	4551
1210202	N/A	N/A	29452	29467	GAATTTGGACCACAGA	30	4552
1210231	N/A	N/A	30035	30050	CAATGGATATGATCAT	80	4553
1210259	N/A	N/A	31247	31262	TGACTTAGAACTGTCA	82	4554
1210287	N/A	N/A	33163	33178	TTTCCTAGAGAGGCAG	51	4555
1210315	N/A	N/A	35147	35162	AGTATAGAGAAGTGCA	47	4556
1210373	N/A	N/A	3420	3435	AGTGCATATATTGGGT	105	4557
1210401	N/A	N/A	4482	4497	CTTGAGGCACGGGACA	146	4558
1210429	N/A	N/A	4775	4790	GGATTGGGCTCCTCCT	103	4559
1210457	N/A	N/A	5063	5078	ACGCCGACCGCGCCCG	99	4560
1210485	N/A	N/A	5377	5392	GCAGTAGGGTGTGTCC	134	4561
1210513	N/A	N/A	5825	5840	AGAACTGGGCCGCCCT	132	4562
1210541	N/A	N/A	6265	6280	GAGAATTTCAGCCGGT	95	4563
1210569	N/A	N/A	6523	6538	CCCGGACCCTGCGCTT	144	4564
1210597	N/A	N/A	6836	6851	TCTCCGAGACCCCGGT	107	4565
1210625	N/A	N/A	7370	7385	GGCCGCGCAGGGAGCC	109	4566
1210653	N/A	N/A	8385	8400	CTAAGTCACAAATCCC	53	4567
1210681	N/A	N/A	8804	8819	CACGATCCATTGCTAG	128	4568
1210709	N/A	N/A	9188	9203	AGCTCCCAGGTCGATA	109	4569
1210737	N/A	N/A	9473	9488	CCAAGGCTTAGCTTAG	87	4570
1210757	N/A	N/A	9745	9760	CATGTGGATCCAGGTC	97	4571
1210783	N/A	N/A	10356	10371	GCTACGGTCACATTCT	16	4572
1210811	N/A	N/A	10609	10624	TTTTAACACGCCTGCC	68	4573
1210839	N/A	N/A	11137	11152	TTCGCCACTTAAGGCT	92	4574
1210867	N/A	N/A	11746	11761	GGCACGATGCCAGGAG	97	4575
1210895	N/A	N/A	12160	12175	CCCTGAACTCAGACGC	68	4576
1210923	N/A	N/A	12660	12675	AATAGGTGTAGGTGTG	80	4577
1210951	N/A	N/A	13526	13541	TCTAGATGTTTGGCTT	107	4578
1210979	N/A	N/A	13966	13981	AGAGACTCCCGAAGTG	75	4579
1211007	N/A	N/A	14435	14450	AGGTCTAAGGAAATCA	54	4580
1211035	N/A	N/A	14977	14992	GATCTTGGAGACTTCA	79	4581
1211063	N/A	N/A	15644	15659	CCAAAGCATTGATCTA	29	4582
1211091	N/A	N/A	16250	16265	CTCTCGGGCACCAAAG	63	4583
1211144	N/A	N/A	17649	17664	CTGAACCCTGTTCCCC	70	4584
1211172	N/A	N/A	18642	18657	CCAGGGTACCTGCCCC	94	4585
1211200	N/A	N/A	19022	19037	ATAATTCGCTTAGTTT	58	4586
1211224	N/A	N/A	19236	19251	CTCCTTGGTAATTCAC	68	4587
1211251	N/A	N/A	19793	19808	ACTTTGCCTATGATTC	46	4588
1211279	N/A	N/A	20367	20382	AGGGCCTACAACCTAG	85	4589
1211307	N/A	N/A	21530	21545	GATTCGAGTTCAGAGA	27	4590
1211334	N/A	N/A	22525	22540	CCCACCTAACTTGCCA	83	4591
1211361	N/A	N/A	23039	23054	TCTATTGACTTACTAA	48	4592
1211384	N/A	N/A	24427	24442	ACCTACCAGATTTAAA	71	4593
1211409	N/A	N/A	25702	25717	TTGTAGCTATATTCTA	33	4594
1211457	N/A	N/A	27314	27329	AGGGTAAAAATCTGCA	93	4595
1211485	N/A	N/A	27846	27861	TGTGTTAAAGAGGGCC	139	4596
1211519	N/A	N/A	28846	28861	CAGTATTCACCTCTGA	99	4597
1211547	N/A	N/A	29488	29503	AGACATACTCTGGTAC	58	4598
1211575	N/A	N/A	30125	30140	CATCGCTTATGAAACT	23	4599
1211602	N/A	N/A	30737	30752	CAGTTACATGAGTGAC	11	4600
1211630	N/A	N/A	31244	31259	CTTAGAACTGTCACAC	22	4601
1211655	N/A	N/A	31658	31673	GAGCCCTAGCACCTTT	32	4602
1211683	N/A	N/A	32383	32398	ACCTTACAGTGGGATT	70	4603
1211711	N/A	N/A	33333	33348	CACCCATAGCATTGAC	105	4604
1211739	N/A	N/A	33832	33847	ATGCAGGATTCAGTAG	105	4605
1211767	N/A	N/A	34274	34289	CTTAAGGACTGTGTGT	91	4606
1211795	N/A	N/A	34609	34624	GCTGAGCATTCAACTT	74	4607
1211823	N/A	N/A	34931	34946	ATAGATGTACCCTGAA	70	4608
1211851	N/A	N/A	35283	35298	GGCTCCCAAATGGGCT	115	4609
1211879	N/A	N/A	35695	35710	CTTGACTGGCCCCTGT	107	4610
1211907	N/A	N/A	36126	36141	GCCCTTCGGTGTTGGA	153	4611
1211935	N/A	N/A	36503	36518	TGGCATTACCTAAAGC	98	4612
1211963	N/A	N/A	38217	38232	GAGAGACCAGTGAGTT	128	4613

TABLE 71
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	26	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	20	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	12	31
1078157	1480	1495	37843	37858	GTCTCCATTCTATCTT	90	4614
1205270	N/A	N/A	28826	28841	GTGTCCAGATTGCAGT	40	4615
1209890	N/A	N/A	7678	7693	ATAAATACTCCTCTTC	202	4616
1209918	N/A	N/A	9829	9844	CCTTTTAAACCCAGGA	139	4617
1209946	N/A	N/A	11267	11282	CAAGTTAAATGGTTCG	15	4618
1209974	N/A	N/A	15534	15549	AGTAGTAAGTGGTCAT	57	4619
1210002	N/A	N/A	16530	16545	GTTGAAGAACACATGA	97	4620
1210030	N/A	N/A	19438	19453	AACACGCAGCCACTGA	61	4621
1210058	N/A	N/A	21600	21615	GATTCGACATGCAAGC	66	4622
1210087	N/A	N/A	23453	23468	ACATTGATTGTAGCAT	49	4623
1210115	N/A	N/A	24691	24706	GAAACATACTAAGTTC	123	4624
1210143	N/A	N/A	26256	26271	ACAATTGAGCTCTTTG	107	4625
1210171	N/A	N/A	27102	27117	GTAACTGAGTAAGATA	53	4626
1210199	N/A	N/A	29038	29053	CCAGTAGAATCTAGGA	122	4627
1210228	N/A	N/A	29935	29950	AAAATTGAGTAAGGGT	22	4628
1210256	N/A	N/A	30806	30821	AATATACTTAAATCGC	40	4629
1210284	N/A	N/A	32683	32698	TATCTAATCATCCAAC	88	4630
1210312	N/A	N/A	35090	35105	GTAGAATCTCAGAAGT	55	4631
1210370	N/A	N/A	3398	3413	GCTCGCTTCTTCCTTT	160	4632
1210398	N/A	N/A	4374	4389	CCTCTAGTGTACTGTG	178	4633
1210426	N/A	N/A	4753	4768	GGCAAAACCAGACTAC	103	4634
1210454	N/A	N/A	4971	4986	TCTCGGGTCCTGGAGC	148	4635
1210482	N/A	N/A	5284	5299	TGGCCTTAAATGCGCC	138	4636
1210510	N/A	N/A	5812	5827	CCTTATCCGCTATCCA	129	4637
1210538	N/A	N/A	6247	6262	GAGCCGGCAGGACATT	128	4638
1210566	N/A	N/A	6508	6523	TCCCGTCCACCGCGCG	140	4639
1210594	N/A	N/A	6821	6836	TTCAGATGGTGAATTC	143	4640
1210622	N/A	N/A	7150	7165	CGCGCACTAGCGGAAG	174	4641
1210650	N/A	N/A	7901	7916	GATCTAATGGGCTGGA	153	4642
1210678	N/A	N/A	8720	8735	CCCAGGGATGGCGAAA	165	4643
1210706	N/A	N/A	9184	9199	CCCAGGTCGATATTTT	89	4644
1210734	N/A	N/A	9465	9480	TAGCTTAGGGTTTTGC	92	4645
1210754	N/A	N/A	9724	9739	GCTCTTAACATCAATC	28	4646
1210780	N/A	N/A	10297	10312	ATGCAAACCCACCACG	90	4647
1210808	N/A	N/A	10585	10600	CCCCTTCCGGGCCCAA	111	4648
1210836	N/A	N/A	11085	11100	GCGGCAGAGATAACCA	137	4649
1210864	N/A	N/A	11703	11718	GTGGCAACCCCCAGAG	97	4650
1210892	N/A	N/A	12100	12115	AAGGGAGTGATTCACC	48	4651
1210920	N/A	N/A	12580	12595	CTGCTTGAATCATGGA	33	4652
1210948	N/A	N/A	13408	13423	CTCTCTTAGATATCCC	41	4653
1210976	N/A	N/A	13953	13968	GTGGGAAGTTCACATT	117	4654
1211004	N/A	N/A	14357	14372	TGAGATGGTCTGTGAT	73	4655
1211032	N/A	N/A	14911	14926	TCCTTTGGGTCAGTAG	67	4656
1211060	N/A	N/A	15536	15551	AGAGTAGTAAGTGGTC	26	4657
1211088	N/A	N/A	16056	16071	CCTGGGTATTGGCATC	54	4658
1211115	N/A	N/A	16827	16842	CCATGGTTCTTCCTAT	196	4659
1211141	N/A	N/A	17576	17591	TGAATACCCTTCGGTA	97	4660
1211169	N/A	N/A	18613	18628	TGTTACAGGCAGACCC	78	4661
1211197	N/A	N/A	18994	19009	GTTTAGGAGGAATTCT	123	4662
1211221	N/A	N/A	19207	19222	TGATCAAAGCCTGCTT	112	4663
1211248	N/A	N/A	19778	19793	CATGCGGAAAGCAAAA	114	4664
1211276	N/A	N/A	20361	20376	TACAACCTAGTGAGTT	119	4665
1211304	N/A	N/A	21405	21420	AGTGTGGCGATACTCT	150	4666
1211331	N/A	N/A	22473	22488	CTTGAGGCACTAATAT	112	4667
1211358	N/A	N/A	23008	23023	AACTCAAAGGGCTAGT	116	4668
1211381	N/A	N/A	24110	24125	GGTGTTAATCATGAAA	40	4669
1211406	N/A	N/A	25366	25381	GTAGAAGACTTTAGCT	105	4670
1211434	N/A	N/A	26489	26504	GAGACAATATCTTAGA	93	4671
1211454	N/A	N/A	27163	27178	AGCATACCTTCAATGC	122	4672
1211482	N/A	N/A	27788	27803	CTTTGAAGGGCTTATC	89	4673
1211510	N/A	N/A	28681	28696	GTACACACCCACACAT	150	4674
1211544	N/A	N/A	29438	29453	GAATCCACCACTACAT	89	4675
1211572	N/A	N/A	30048	30063	ATATCCACTGATGCAA	123	4676
1211599	N/A	N/A	30725	30740	TGACTTAAGGGTTCTT	95	4677
1211627	N/A	N/A	31170	31185	AGTGGAAAGATCCTGC	69	4678
1211652	N/A	N/A	31546	31561	CCACTTCCGGAGACTA	73	4679
1211680	N/A	N/A	32364	32379	GACAGTTTAATGGCTA	48	4680
1211708	N/A	N/A	33317	33332	TCTGATTTGGGCATGG	76	4681
1211736	N/A	N/A	33778	33793	CATGACCGCCTGGTGT	165	4682
1211764	N/A	N/A	34219	34234	GATGGAATTTCGAGAG	39	4683
1211792	N/A	N/A	34599	34614	CAACTTACAAGAGTTT	98	4684
1211820	N/A	N/A	34874	34889	GCAACCCAAGACAGTT	122	4685
1211848	N/A	N/A	35270	35285	GCTGTCTAACCAGATC	117	4686
1211876	N/A	N/A	35656	35671	GGAACCAAAATGGGAC	77	4687
1211904	N/A	N/A	36071	36086	CCACGCTCAAACTGAT	138	4688
1211932	N/A	N/A	36497	36512	TACCTAAAGCCAATGG	108	4689
1211960	N/A	N/A	36866	36881	ATGGCAGAGCGGCCCC	150	4690

TABLE 72
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ	SEQ	SEQ	SEQ
	ID	ID	ID	ID
	NO: 1	NO: 1	NO: 2	NO: 2		PMP22	SEQ
Compound	Start	Stop	Start	Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
684267	864	879	37227	37242	ATCTTCAATCAACAGC	18	30
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	18	31
684394	1489	1504	37852	37867	ATTATTCAGGTCTCCA	14	31
1078135	1491	1506	37854	37869	GAATTATTCAGGTCTC	13	4691
1079079	N/A	N/A	28706	28721	GTCCCAAGTTCTAAGA	101	4692
1209891	N/A	N/A	7679	7694	CATAAATACTCCTCTT	81	4693
1209919	N/A	N/A	9840	9855	TATTTCCGTGGCCTTT	55	4694
1209947	N/A	N/A	11352	11367	TCACAAATCGATGTCA	28	4695
1209975	N/A	N/A	15535	15550	GAGTAGTAAGTGGTCA	65	4696
1210003	N/A	N/A	16552	16567	TACATAGGACAGGCTC	25	4697
1210031	N/A	N/A	19443	19458	GGAATAACACGCAGCC	39	4698
1210059	N/A	N/A	21603	21618	TTGGATTCGACATGCA	38	4699
1210088	N/A	N/A	23486	23501	AGTGAACATATACTCA	62	4700
1210116	N/A	N/A	24831	24846	ATTGACTTAATATGGA	47	4701
1210144	N/A	N/A	26260	26275	CATTACAATTGAGCTC	77	4702
1210172	N/A	N/A	27180	27195	TATGTAATGGCTTCAA	80	4703
1210200	N/A	N/A	29335	29350	GCAGAATGCAAGATGT	134	4704
1210229	N/A	N/A	29969	29984	CCAGAATATGTTACAG	32	4705
1210257	N/A	N/A	31078	31093	ACAACGGAGGACAGGA	39	4706
1210285	N/A	N/A	32722	32737	ACATTTGACTTGAGTT	78*	4707
1210313	N/A	N/A	35130	35145	CGACTAACTACACAGC	110	4708
1210371	N/A	N/A	3400	3415	CAGCTCGCTTCTTCCT	140	4709
1210399	N/A	N/A	4378	4393	CCTACCTCTAGTGTAC	114	4710
1210427	N/A	N/A	4757	4772	CCTAGGCAAAACCAGA	126	4711
1210455	N/A	N/A	4973	4988	CCTCTCGGGTCCTGGA	123	4712
1210483	N/A	N/A	5298	5313	AGGAGACAGTCACTTG	154	4713
1210511	N/A	N/A	5814	5829	GCCCTTATCCGCTATC	133	4714
1210539	N/A	N/A	6256	6271	AGCCGGTCAGAGCCGG	93	4715
1210567	N/A	N/A	6515	6530	CTGCGCTTCCCGTCCA	150	4716
1210595	N/A	N/A	6827	6842	CCCCGGTTCAGATGGT	119	4717
1210623	N/A	N/A	7152	7167	CCCGCGCACTAGCGGA	99	4718
1210651	N/A	N/A	7905	7920	TTAAGATCTAATGGGC	70	4719
1210679	N/A	N/A	8781	8796	CAGATAGATATCCTGA	103	4720
1210707	N/A	N/A	9186	9201	CTCCCAGGTCGATATT	85	4721
1210735	N/A	N/A	9468	9483	GCTTAGCTTAGGGTTT	108	4722
1210755	N/A	N/A	9730	9745	CCACGGGCTCTTAACA	113	4723
1210781	N/A	N/A	10304	10319	ACTCACCATGCAAACC	85	4724
1210809	N/A	N/A	10587	10602	GCCCCCTTCCGGGCCC	104	4725
1210837	N/A	N/A	11089	11104	GATAGCGGCAGAGATA	76	4726
1210865	N/A	N/A	11712	11727	ACAACATGAGTGGCAA	57	4727
1210893	N/A	N/A	12102	12117	CCAAGGGAGTGATTCA	52	4728
1210921	N/A	N/A	12587	12602	CACCCTACTGCTTGAA	78	4729
1210949	N/A	N/A	13443	13458	GATAAGGACTGTCTCT	117	4730
1210977	N/A	N/A	13957	13972	CGAAGTGGGAAGTTCA	93	4731
1211005	N/A	N/A	14361	14376	CCTTTGAGATGGTCTG	22	4732
1211033	N/A	N/A	14914	14929	GAATCCTTTGGGTCAG	69	4733
1211061	N/A	N/A	15609	15624	GATAGTCATGAGTTTG	12	4734
1211089	N/A	N/A	16060	16075	AATTCCTGGGTATTGG	96	4735
1211116	N/A	N/A	16867	16882	AGGGCCTTGGTTCTTC	101	4736
1211142	N/A	N/A	17578	17593	ATTGAATACCCTTCGG	43	4737
1211170	N/A	N/A	18617	18632	AATTTGTTACAGGCAG	83	4738
1211198	N/A	N/A	19017	19032	TCGCTTAGTTTTAAGA	55	4739
1211222	N/A	N/A	19216	19231	TACCATGAATGATCAA	16	4740
1211249	N/A	N/A	19783	19798	TGATTCATGCGGAAAG	46	4741
1211277	N/A	N/A	20363	20378	CCTACAACCTAGTGAG	89	4742
1211305	N/A	N/A	21435	21450	GTGGCTAAACTATAGA	100	4743
1211332	N/A	N/A	22520	22535	CTAACTTGCCACATAC	69	4744
1211359	N/A	N/A	23034	23049	TGACTTACTAAGAGTC	100	4745
1211382	N/A	N/A	24114	24129	ATATGGTGTTAATCAT	107	4746
1211407	N/A	N/A	25441	25456	AATAACATGGCCTGAA	82	4747
1211435	N/A	N/A	26502	26517	AGTATGGCTGGTGGAG	74	4748
1211455	N/A	N/A	27190	27205	GTAACTGCCATATGTA	97	4749
1211483	N/A	N/A	27823	27838	TGCCTACTACCTTCCC	105	4750
1211517	N/A	N/A	28827	28842	TGTGTCCAGATTGCAG	59	4751
1211545	N/A	N/A	29454	29469	ATGAATTTGGACCACA	23	4752
1211573	N/A	N/A	30053	30068	AGGGCATATCCACTGA	100	4753
1211600	N/A	N/A	30727	30742	AGTGACTTAAGGGTTC	37	4754
1211628	N/A	N/A	31172	31187	TTAGTGGAAAGATCCT	54	4755
1211653	N/A	N/A	31564	31579	ATAATGCAGCCCTCAC	93	4756
1211681	N/A	N/A	32368	32383	TAGGGACAGTTTAATG	61	4757
1211709	N/A	N/A	33327	33342	TAGCATTGACTCTGAT	64	4758
1211737	N/A	N/A	33782	33797	CCAGCATGACCGCCTG	71	4759
1211765	N/A	N/A	34221	34236	TCGATGGAATTTCGAG	100	4760
1211793	N/A	N/A	34601	34616	TTCAACTTACAAGAGT	79	4761
1211821	N/A	N/A	34902	34917	TGATTCTTTGGCTGGG	55	4762
1211849	N/A	N/A	35276	35291	AAATGGGCTGTCTAAC	61	4763
1211877	N/A	N/A	35667	35682	ACAATAGTCTTGGAAC	72	4764
1211905	N/A	N/A	36073	36088	AGCCACGCTCAAACTG	109	4765
1211933	N/A	N/A	36499	36514	ATTACCTAAAGCCAAT	97	4766
1211961	N/A	N/A	36878	36893	GACGGAGAGTCCATGG	137	4767

Example 7: Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides with Phosphorothioate Linkages on Human PMP22 RNA In Vitro, Single Dose

Modified oligonucleotides in the tables below are 3-10-3 cEt gapmers. The modified oligonucleotides are 16 nucleosides in length, wherein the central gap segment consists often 2′-deoxynucleosides and is flanked by wing segments at the 5′ end and the 3′ end having three nucleosides each. Each nucleoside of the 5′ wing segment and each nucleoside in the 3′ wing segment is a nucleoside. All internucleoside linkages throughout the modified oligonucleotide are phosphorothioate (P═S) linkages. All cytosine residues throughout the modified oligonucleotide are 5-methylcytosines.

“Start site” indicates the 5′-most nucleoside to which the modified oligonucleotide is targeted in the human gene sequence. “Stop site” indicates the 3′-most nucleoside to which the modified oligonucleotide is targeted human gene sequence. Each modified oligonucleotide listed in the tables below is complementary to SEQ ID NO: 4 (GENBANK Accession No. NM_001281455.1), SEQ ID NO: 5 (GENBANK Accession No. NM_001281456.1), SEQ ID NO: 6 (GENBANK Accession No. NR_104017.1), SEQ ID NO:7 (GENBANK Accession No. NR_104018.1), or SEQ ID NO: 8 (GENBANK Accession No. AK300690.1). ‘N/A’ indicates that the modified oligonucleotide does not target that particular gene sequence with 100% complementarity.

Cultured A-549 cells at a density of 15,000 cells per well were treated using electroporation with 4,000 nM of modified oligonucleotide. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS35670, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The modified oligonucleotides with percent control values marked with an asterisk (*) target the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region.

TABLE 73
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ ID	SEQ	SEQ ID	SEQ
	NO: 4	ID NO:	NO: 5	ID NO:		PMP22	SEQ
Compound	Start	4 Stop	Start	5 Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
885810	152	167	N/A	N/A	GCTTACAGCCCAAAGG	80	4768
885811	153	168	N/A	N/A	TGCTTACAGCCCAAAG	83	4769
885812	162	177	N/A	N/A	CGGAGTTTCTGCTTAC	46	4770
885813	163	178	N/A	N/A	GCGGAGTTTCTGCTTA	70	4771
885814	165	180	N/A	N/A	CAGCGGAGTTTCTGCT	87	4772
885815	N/A	N/A	192	207	TTTCCGGCCAAACAGC	75	4773
885816	N/A	N/A	193	208	GTTTCCGGCCAAACAG	61	4774
885817	N/A	N/A	194	209	AGTTTCCGGCCAAACA	138	4775
885818	N/A	N/A	195	210	GAGTTTCCGGCCAAAC	110	358
885819	N/A	N/A	197	212	CGGAGTTTCCGGCCAA	80	4776
885820	N/A	N/A	198	213	GCGGAGTTTCCGGCCA	107	4777
885821	N/A	N/A	199	214	AGCGGAGTTTCCGGCC	91	4778
885822	N/A	N/A	200	215	CAGCGGAGTTTCCGGC	90	4779
885823	N/A	N/A	202	217	CTCAGCGGAGTTTCCG	76	4780
885824	N/A	N/A	203	218	GCTCAGCGGAGTTTCC	50	4781

TABLE 74
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
	SEQ ID	SEQ	SEQ ID	SEQ
	NO: 6	ID NO:	NO: 7	ID NO:		PMP22	SEQ
Compound	Start	6 Stop	Start	7 Stop		(%	ID
ID	Site	Site	Site	Site	Sequence (5′ to 3′)	UTC)	NO
885865	191	206	N/A	N/A	TGCCGGCCAAACAGCG	58	4782
885866	192	207	N/A	N/A	TTGCCGGCCAAACAGC	102	4783
885867	193	208	N/A	N/A	ATTGCCGGCCAAACAG	100	4784
885868	194	209	N/A	N/A	CATTGCCGGCCAAACA	101	4785
885869	195	210	N/A	N/A	CCATTGCCGGCCAAAC	148	4786
885870	196	211	N/A	N/A	TCCATTGCCGGCCAAA	74	4787
885871	197	212	N/A	N/A	ATCCATTGCCGGCCAA	108	4788
885872	198	213	N/A	N/A	GATCCATTGCCGGCCA	196	4789
885873	199	214	N/A	N/A	CGATCCATTGCCGGCC	113	4790
885874	200	215	N/A	N/A	ACGATCCATTGCCGGC	124	4791
885875	201	216	N/A	N/A	CACGATCCATTGCCGG	140	4792
885876	202	217	N/A	N/A	CCACGATCCATTGCCG	70	4793
885877	203	218	N/A	N/A	CCCACGATCCATTGCC	84	4794
885879	N/A	N/A	192	207	ATTCCGGCCAAACAGC	65	4795
885880	N/A	N/A	193	208	CATTCCGGCCAAACAG	78	4796
885881	N/A	N/A	194	209	CCATTCCGGCCAAACA	67	4797
885882	N/A	N/A	195	210	GCCATTCCGGCCAAAC	84	4798
885883	N/A	N/A	196	211	AGCCATTCCGGCCAAA	78	4799
885884	N/A	N/A	197	212	CAGCCATTCCGGCCAA	59	4800
885885	N/A	N/A	198	213	GCAGCCATTCCGGCCA	57	4801
885886	N/A	N/A	199	214	TGCAGCCATTCCGGCC	110	4802
885887	N/A	N/A	200	215	CTGCAGCCATTCCGGC	188	4803
885888	N/A	N/A	201	216	ACTGCAGCCATTCCGG	78	4804
885889	N/A	N/A	202	217	GACTGCAGCCATTCCG	111	4805

TABLE 75
Percent control of human PMP22 RNA with 3-10-3 cEt gapmers
Compound	SEQ ID NO: 8	SEQ ID NO: 8		PMP22	SEQ ID
ID	Start Site	Stop Site	Sequence (5′ to 3′)	(% UTC)	NO
885825	55	70	AGCGGAGTTTCTGCAG	92	4806

Example 8: Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 In Vitro, Multiple Doses

Modified oligonucleotides selected from the examples above were tested at various doses in K-562 cells. Cells were plated at a density of 50,000 cells per well and treated by electroporation with various doses of modified oligonucleotide, as specified in the tables below. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time PCR. Human PMP22 primer probe set RTS4579, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The half maximal inhibitory concentration (IC₅₀) of each modified oligonucleotide is also presented. IC₅₀ was calculated using a linear regression on a log/linear plot of the data in excel.

TABLE 76
Dose-dependent reduction of human PMP22 RNA
expression in K-562 cells
Compound	PMP22 RNA Expression (% Control)	IC50
ID	0.2 μM	0.7 μM	2.2 μM	6.7 μM	20 μM	(μM)
684440	39	77	40	17	9	0.9
684277	86	46	24	16	10	1.8
684367	76	62	37	66	9	6.0
684289	78	58	43	21	15	3.0
684343	96	53	40	16	12	3.6
684363	86	70	31	20	10	3.6
684457	101	30	61	24	17	4.4
684394	71	43	22	17	7	0.9
684264	99	75	54	32	23	10.3
684267	95	52	48	31	15	5.1
684160	123	104	51	28	11	12.3
684382	86	53	50	16	12	3.4
684339	90	68	35	23	9	4.2
684312	83	68	40	23	17	4.2
684453	94	75	49	30	16	7.5

TABLE 77
Dose-dependent reduction of human PMP22 RNA
expression in K-562 cells
Compound	PMP22 RNA Expression (% Control)	IC50
ID	0.2 μM	0.7 μM	2.2 μM	6.7 μM	20 μM	(μM)
684377	94	65	38	16	13	4.2
684385	82	53	51	13	13	3.0
684313	81	60	36	24	10	3.0
684360	99	59	57	21	12	5.8
684407	87	44	39	16	11	2.4
684362	97	58	43	18	11	4.2
684318	100	53	37	25	7	3.9
684380	110	58	53	25	14	6.9
684571	98	60	46	16	9	4.4
684356	79	65	83	22	22	9.3
684462	93	69	40	41	9	6.3
684338	86	56	70	31	13	6.6
684366	118	54	42	24	16	6.4
684299	106	75	64	24	13	9.2
684396	95	62	25	67	6	3.6

TABLE 78
Dose-dependent reduction of human
PMP22 RNA expression in K-562 cells
	PMP22 RNA Expression
Compound	(% Control)	IC50
ID	0.56 μM	1.7 μM	5 μM	15 μM	(μM)
684266	91	61	35	14	2.9
684267	73	38	31	11	1.5
684277	62	39	22	12	1.0
684277	74	58	43	37	3.8
684462	96	64	36	12	3.1
684571	78	65	49	11	3.0
718275	66	59	34	17	2.0
718279	91	67	63	18	4.7
718300	78	66	39	18	2.9
718314	82	55	25	24	2.4
718316	75	79	49	34	5.6
718356	80	71	27	13	2.6
718358	99	79	52	22	5.0
718359	77	57	33	9	2.2
718360	60	42	18	13	1.0
718361	96	93	97	82	>15
718392	95	72	46	19	4.0
718393	85	61	35	13	2.7
718396	108	85	35	21	4.5

Example 9: Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 In Vitro, Multiple Doses

Modified oligonucleotides selected from the examples above were tested at various doses in A549 cells. Cells were plated at a density of 15,000 cells per well and treated by electroporation with various modified oligonucleotides, as specified in the tables below. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time PCR. Human

PMP22 primer probe set RTS35670, described herein above, was used to measure RNA levels. In addition to RTS35670, human primer-probe sets RTS35668 (forward sequence GCAATGGACACGCAACTG, designated herein as SEQ ID NO: 18; reverse sequence GGACAGACTGCAGCCATT, designated herein as SEQ ID NO: 19; probe sequence TGAGAAACAGTGGTGGACATTTCCTGAG, designated herein as SEQ ID NO: 20), and RTS35669 (forward sequence CTGGTCTGGCTTCAGTTACAG, designated herein as SEQ ID NO: 21; reverse sequence CCAAATGCAAGGGATGTTAAGG, designated herein as SEQ ID NO: 22; probe sequence TTGGAAGCTGCAGGCTTAGTCTGT, designated herein as SEQ ID NO: 23) were also used to measure the efficacy and potency of some compounds. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The half maximal inhibitory concentration (ICso) of each modified oligonucleotide is also presented. ICso was calculated using a linear regression on a log/linear plot of the data in excel. The modified oligonucleotides marked with an asterisk (*) are complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region. ‘N.D.’ (‘no data’) indicates that the % inhibition was not determined for that particular modified oligonucleotide in that particular experiment. ‘N.C.’ (“no calculation”) indicates that the range of concentrations tested was not sufficient for an accurate calculation of IC₅₀.

TABLE 79
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684129	102	51	47	25	1.4
684133	77	66	14	2	0.6
684139	61	95	83	27	7.6
684140	135	90	73	34	4.2
684376	51	69	19	15	0.4
684394	66	49	9	7	0.3
823764	51	75	14	6	0.4
866378	74	53	20	7	0.5
866379	58	68	29	11	0.5
866411	85	60	13	N.D.	0.5
866431*	16	8	3	2	N.C.
866458	110	67	37	15	1.4
866460	102	43	15	7	0.7
866480	132	53	23	8	1.2
866495	91	82	45	5	1.3
866504	92	66	20	7	0.8
866507	113	87	49	32	2.7
885950	27	29	7	3	N.C.

TABLE 80
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	115	71	23	17	1.3
866532	69	58	17	8	0.5
866540	118	58	31	13	1.2
866542	48	100	33	12	0.9
866578	67	72	48	6	0.9
885426*	79	103	39	12	1.5
885433*	49	92	50	8	1.0
885438*	67	73	44	11	0.9
885440*	115	150	82	44	N.C.
885446*	29	32	23	7	N.C.
885447*	46	45	33	8	N.C.
885448*	70	39	9	5	0.3
885449*	103	58	23	7	0.9
885450*	129	126	59	18	3.2
885453*	24	36	19	6	N.C.
885455*	48	40	25	6	N.C.
885456*	83	41	24	15	0.6
885476	133	81	34	6	1.6
885509	253	153	58	14	3.3

TABLE 81
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	106	69	14	3	0.9
885539	97	53	35	15	1.0
885545	84	77	23	4	0.9
885557	90	88	30	29	1.7
885558	129	86	52	67	N.C.
885569	204	119	129	60	N.C.
885573	115	64	31	5	1.2
885578	128	47	10	5	0.9
885595	151	143	64	20	3.7
885598	76	55	33	11	0.7
885601	30	34	6	2	N.C.
885605	112	87	68	26	3.2
885608	117	121	75	34	5.6
885610	117	105	93	18	4.4
885611	119	87	83	21	3.6
885612	146	128	97	65	N.C.
885619	175	148	92	34	6.0
885626	99	104	49	19	2.3
885627	97	82	33	11	1.3

TABLE 82
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	149	48	11	3	1.1
885628	94	43	7	7	0.6
885640	111	65	28	13	1.2
885645	34	31	15	5	N.C.
885646	129	71	30	2	1.3
885647	79	49	37	19	0.7
885648	97	52	26	17	0.9
885658	146	112	35	3	1.9
885662	105	43	29	12	0.9
885665	86	75	67	29	2.9
885668	79	97	118	26	N.C.
885671	104	89	77	30	4.4
885674	115	88	36	10	1.6
885680	167	104	43	15	2.4
885683	167	87	53	8	2.2
885688	139	99	59	32	3.5
885695	111	92	56	20	2.5
885696	113	69	39	21	1.6
885700	108	81	38	14	1.6

TABLE 83
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	72	62	65	15	1.3
885701	56	43	16	N.D.	0.2
885702	77	52	20	15	0.6
885704	68	49	36	26	0.6
885709	58	52	13	10	0.3
885710	94	45	28	6	0.7
885711	91	58	22	6	0.8
885717	45	30	7	3	N.C.
885718	52	54	11	11	0.2
885732	90	84	56	17	1.9
885740	102	73	19	11	1.0
885755	115	67	44	22	1.7
885769	63	71	48	21	1.1
885771	89	111	101	60	N.C.
885777	111	95	78	9	2.7
885800	95	84	67	10	2.0
885806	101	138	112	73	N.C.
885863*	70	88	77	34	7.3
885903	58	57	50	28	0.8

TABLE 84
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	96	94	67	23	3.1
885904	72	101	37	7	1.3
885906	66	79	60	9	1.3
885922	79	79	50	13	1.4
885925	111	101	59	11	2.3
885926	74	78	39	13	1.1
885927	71	73	46	18	1.2
885928	94	64	54	29	2.0
885929	72	49	17	7	0.4
885932	89	64	51	20	1.5
885933	80	78	37	26	1.4
885938	76	55	13	13	0.5
885939	89	80	53	12	1.6
885940	91	58	48	30	1.6
885941	83	67	42	16	1.1
885942	78	71	35	15	1.0
885943	84	91	42	10	1.4
885947	44	47	19	10	N.C.
885951	69	32	15	12	0.3

TABLE 85
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	134	122	70	49	7.3
885952	104	76	82	14	2.7
885953	89	55	26	5	0.7
885981	137	71	50	21	2.1
885982	99	74	30	13	1.2
885994	172	100	48	19	2.6
885995	128	86	92	16	3.6
886001	104	77	39	9	1.4
886005	127	84	74	35	4.3
886007	119	107	124	45	N.C.
886033	89	89	74	54	N.C.
886053	92	117	51	17	2.5
886060	121	108	98	19	5.0
886078	107	83	99	57	N.C.
886089	83	96	35	20	1.6
886092	157	127	73	36	5.0
886101	119	117	95	48	N.C.
886108	94	91	68	75	N.C.
886110	106	67	32	19	1.3

TABLE 86
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	125	138	65	29	4.5
886116	79	45	8	N.D.	0.4
886117	80	61	11	2	0.6
886118	135	82	26	8	1.5
886122	142	121	58	28	3.5
886123	102	106	22	5	1.4
886131	97	108	17	4	1.3
886133	121	120	33	4	1.8
886134	N.D.	113	87	9	3.4
886135	89	74	23	3	0.9
886139	47	64	14	6	0.2
886141	102	111	55	16	2.5
886146	140	78	24	9	1.5
886157	118	112	28	10	1.8
886159	179	116	58	8	2.7
886160	282	159	87	35	4.7
886168	131	115	30	2	1.8
886178	132	75	17	8	1.3
886179	114	47	9	6	0.8

TABLE 87
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	78	30	8	9	0.3
886180	58	45	21	23	0.2
886197	60	65	35	10	0.6
886219	108	72	54	7	1.6
886221	85	64	36	23	1.1
886226	93	115	63	12	2.7
886227	86	83	47	34	2.4
886230	92	71	32	7	1.0
886241	86	109	90	23	6.1
886251	91	105	53	28	3.0
886252	83	100	36	23	1.8
886259	66	52	47	40	1.3
886263	106	65	51	9	1.4
886266	132	77	36	16	1.7
886272	76	48	19	11	0.5
886277	89	97	32	19	1.6
886280	116	107	106	73	N.C.
886294	47	63	24	10	0.3
886297	103	37	31	9	0.8

TABLE 88
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	66	22	8	3	0.2
886300	99	66	63	20	2.0
886306	109	84	63	42	4.7
886307	79	48	23	15	0.6
886308	84	71	33	9	1.0
886314	90	45	22	7	0.6
886316	95	57	35	5	0.9
886318	109	68	23	10	1.1
886320	78	54	30	28	0.8
886330	94	70	37	14	1.2
886331	83	33	13	9	0.4
886332	78	69	54	28	1.8
886335	74	71	42	17	1.1
886338	89	55	31	21	0.9
886340	61	45	42	8	0.4
886347	73	90	64	25	2.8
886348	89	92	31	11	1.3
886349	50	84	52	15	1.0
886354	95	71	45	10	1.3

TABLE 89
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	65	31	N.D.	12	0.2
886355	127	75	86	53	N.C.
886363	102	99	67	45	7.1
886367	96	43	39	10	0.9
886376	117	82	81	18	3.1
886377	86	88	69	10	2.1
886379	82	103	55	18	2.3
886380	80	130	41	23	2.7
886386	85	77	46	12	1.3
886392	104	109	55	17	2.6
886401	99	113	44	45	4.6
886406	83	96	40	41	3.2
886407	96	90	38	24	1.9
886409	101	36	26	10	0.7
886413	113	66	43	22	1.7
886422	101	66	53	23	1.8
886427	88	47	21	8	0.6
886432	108	66	53	12	1.6
886444	86	44	29	10	0.6

TABLE 90
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	109	81	51	14	1.8
886445	99	91	55	14	2.0
886447	66	77	16	5	0.6
886449	59	59	34	8	0.5
886455	52	137	64	43	N.C.
886456	47	102	52	42	N.C.
886458	97	69	39	43	2.4
886476	80	56	15	18	0.6
886477	98	50	30	6	0.8
886482	123	93	41	10	1.8
886483	127	77	43	4	1.5
886485	108	76	50	19	1.9
886489	88	37	10	18	0.5
886494	54	53	21	4	0.3
886505	83	80	72	31	4.1
886514	58	71	72	17	1.7
886523	66	39	19	13	0.3
886524	78	64	33	22	1.0
886528	105	79	27	6	1.2

TABLE 91
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	90	115	58	10	2.4
886530	62	54	24	6	0.4
886535	46	23	5	3	N.C.
886537	70	72	48	26	1.4
886540	86	48	28	15	0.7
886550	46	27	15	2	N.C.
886552	77	68	34	5	0.8
886562	87	38	20	13	0.5
886565	58	45	7	3	0.2
886595	99	69	18	11	1.0
886602	98	57	12	4	0.7
886603	79	72	15	4	0.7
886605	136	70	16	7	1.3
886608	181	123	40	8	2.4
886614	158	118	36	9	2.2
886627	89	98	29	24	1.7
886629	140	101	21	8	1.7
886630	114	70	45	19	1.7
886633	148	65	46	6	1.7

TABLE 92
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	71	32	18	7	0.3
886648	60	56	39	9	0.5
886650	82	75	57	6	1.3
886652	73	52	31	20	0.6
886653	26	64	23	31	N.C.
886659	55	17	14	8	N.C.
886664	81	39	24	13	0.5
886668	57	47	8	9	0.2
886671	64	61	16	6	0.4
886690	117	94	12	18	1.5
886698	127	69	17	11	1.2
886707	107	62	8	5	0.8
886710	73	55	13	4	0.5
886711	106	53	15	3	0.8
886714	84	43	5	9	0.5
886723	75	48	9	3	0.4
886728	91	107	26	9	1.4
886730	83	37	15	6	0.5
886732	104	64	71	32	3.3

TABLE 93
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	74	16	21	8	0.2
886739	77	62	54	19	1.2
886750	81	27	26	30	0.4
886757	59	94	N.D.	N.D.	N.C.
886758	86	99	19	48	2.5
886761	76	57	43	40	1.6
886764	45	61	28	28	0.2
886783	48	74	39	N.D.	0.3
886784	96	107	33	12	1.7
886786	57	102	103	29	N.C.
886789	124	92	28	63	4.4
886791	103	74	15	23	1.2
886795	105	86	40	29	2.1
886797	96	65	30	N.D.	0.9
886798	89	71	50	17	1.5
886799	87	43	17	18	0.6
886812	87	92	40	65	N.C.
886814	125	141	44	32	3.7
886837	113	90	93	47	N.C.

TABLE 94
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35670	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	157	36	16	2	1.1
886671	63	36	28	N.D.	0.3
886690	181	64	34	5	1.7
886698	113	71	18	14	1.2
886707	97	38	7	29	0.7
886710	69	61	N.D.	11	0.6
886711	121	66	33	5	1.3
886714	105	41	12	16	0.7
886723	67	45	14	12	0.3
886728	163	88	27	17	1.9
886730	183	26	5	5	1.1
886732	179	112	29	29	2.6
886842	35	25	30	10	N.C.
886843	42	51	23	N.D.	N.C.
886860	45	22	22	13	N.C.
886870	33	20	10	N.D.	N.C.
886877	88	27	6	N.D.	0.4
886934	46	102	34	35	1.8
886945	46	23	16	8	N.C.

TABLE 95
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35669	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684129	55	51	51	48	2.2
684133	97	66	39	57	4.0
684139	131	120	85	58	N.C.
684140	74	65	66	28	2.3
684376	94	99	55	35	3.7
684394	66	47	53	31	0.9
823764	96	94	63	46	6.7
866378	67	85	76	43	N.C.
866379	68	81	69	22	2.5
866411	48	89	28	106	N.C.
866431	158	97	109	55	N.C.
866458	78	93	57	79	N.C.
866460	72	75	76	46	N.C.
866480	78	144	97	66	N.C.
866495	120	68	68	89	N.C.
866504	41	68	51	34	0.6
866507	108	60	55	53	N.C.
885950	37	39	49	47	N.C.

TABLE 96
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control) RTS35669	IC50
ID	0.125 μM	0.5 μM	2 μM	8 μM	(μM)
684394	40	32	29	42	N.C.
866532	44	63	25	17	0.2
866540	52	55	64	17	0.6
866542	128	75	57	43	3.8
866578	96	74	48	11	1.4
885426	83	121	83	36	N.C.
885433	110	89	56	40	3.9
885438	96	69	57	46	4.4
885440	86	68	61	88	N.C.
885446	85	77	53	38	3.0
885447	122	110	58	51	N.C.
885448	82	133	131	92	N.C.
885449	101	83	46	36	2.7
885450	115	76	59	32	2.9
885453	76	106	61	31	4.1
885455	87	96	76	52	N.C.
885456	69	68	64	58	N.C.
885476	80	79	55	41	3.8
885509	92	78	43	24	1.7

Example 10: Effect of 3-10-3 cEt Gapmer Modified Oligonucleotides on Human PMP22 In Vitro, Multiple Doses

Modified oligonucleotides described above were tested at various doses in A549 cells. Cells were plated at a density of 15,000 cells per well and treated by electroporation with various modified oligonucleotides, as specified in the tables below. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time PCR. Human PMP22 primer probe set RTS35670, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. The half maximal inhibitory concentration (ICso) of each modified oligonucleotide is also presented. ICso was calculated using a linear regression on a log/linear plot of the data in excel. The modified oligonucleotides marked with an asterisk (*) are complementary to the amplicon region of the primer probe set. Additional assays may be used to measure the potency and efficacy of the modified oligonucleotides targeting the amplicon region.

TABLE 97
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control)	IC50
ID	0.4 μM	1.3 μM	4 μM	12 μM	(μM)
684394	34	21	14	1	N.C.
923857	97	60	40	10	2.5
923868	73	48	43	28	2.0
923877	66	49	21	7	1.1
923878	74	53	24	17	1.5
923889	78	56	29	21	1.9
923898	63	49	31	11	1.1
923906	61	45	16	18	0.8
923918	67	48	23	9	1.1
923927	71	43	29	27	1.3
923956	60	29	37	8	0.7
923997	79	66	42	16	2.4
924016	69	47	17	7	1.1
924017	78	39	44	20	1.7
924018	68	54	39	20	1.7
924247	115	59	42	38	4.2
924257	75	40	24	11	1.2
924337	104	63	57	20	3.7
924338	96	68	50	36	4.6

TABLE 98
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control)	IC50
ID	0.4 μM	1.3 μM	4 μM	12 μM	(μM)
684394	38	16	6	1	N.C.
886954	60	34	20	3	0.7
923870	79	41	16	10	1.2
923881	74	55	17	13	1.4
923899	44	22	16	12	N.C.
923900	39	28	14	7	N.C.
923909	84	38	35	3	1.5
923910	60	34	17	6	0.6
923928	81	90	30	15	2.8
923939	84	72	52	27	3.8
923959	72	36	22	10	1.0
923990	62	41	32	12	0.9
924050	84	68	57	33	4.7
924299	70	43	26	5	1.1
924359	67	45	23	16	1.1
924370	61	46	33	14	1.0
924389	84	50	22	12	1.6
924509	53	35	12	4	0.5
924510	69	48	34	20	1.4

TABLE 99
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control)	IC50
ID	0.4 μM	1.3 μM	4 μM	12 μM	(μM)
684394	63	27	7	2	0.6
923843	66	47	27	19	1.1
923862	79	45	31	12	1.5
923962	60	44	27	8	0.9
923971	64	26	19	2	0.7
924001	45	25	10	3	N.C.
924002	53	40	19	2	0.6
924021	85	66	47	8	2.5
924022	67	44	23	10	1.0
924031	83	71	27	6	2.0
924092	82	54	60	37	4.6
924211	73	57	35	9	1.6
924272	77	38	34	9	1.3
924303	81	73	31	21	2.5
924441	76	61	21	16	1.7
924463	82	68	37	16	2.4
924471	65	36	20	16	0.8
924480	98	71	46	17	3.2
924523	101	51	41	11	2.4

TABLE 100
Dose-dependent reduction of human
PMP22 RNA expression in A549 cells
	PMP22 RNA Expression
Compound	(% Control)	IC50
ID	0.4 μM	1.3 μM	4 μM	12 μM	(μM)
684394	46	34	14	12	N.C.
923846	51	47	27	23	0.6
923894	57	65	40	11	1.5
924015	94	58	37	13	2.4
924025	86	65	40	19	2.6
924043	75	51	27	28	1.7
924055	65	54	35	26	1.6
924085	84	51	45	16	2.2
924105	87	62	72	39	7.7
924203	89	66	48	18	3.0
924335	101	73	47	28	4.0
924345	118	105	83	49	N.C.
924354	107	79	65	24	5.1
924355	105	78	94	51	N.C.
924364	93	85	36	32	4.0
924415	89	59	31	21	2.3
924444	114	100	62	48	9.9
924484	75	57	26	6	1.5
924565	90	66	45	41	4.6

Example 11: Effect of 3-10-3 cEt Modified Oligonucleotides on Human PMP22 In Vitro, Multiple Doses

Modified oligonucleotides were tested for in vitro inhibition of human PMP22 in human A-549 cells. Compound 1078152 is a 3-10-3 cEt gapmer with a full phosphorothioate backbone and the sequence from 5′ to 3′ is AACCATTTATATTACA (SEQ ID NO: 4807), wherein each cytosine is a 5-methyl cytosine. Compound 1079051 is a 3-10-3 cEt gapmer with a full phosphorothioate backbone and the sequence from 5′ to 3′ is CGGGAAAGGCAGTTGC (SEQ ID NO: 4808), wherein each cytosine is a 5-methyl cytosine.

Cultured A-549 cells at a density of 15,000 cells per well were treated using electroporation with 4,000 nM of modified oligonucleotide. After a treatment period of approximately 24 hours, total RNA was isolated from the cells and PMP22 RNA levels were measured by quantitative real-time RTPCR. Human PMP22 primer probe set RTS35670, described herein above, was used to measure RNA levels. PMP22 RNA levels were adjusted according to total RNA content, as measured by RIBOGREEN®. Results are presented in the tables below as percent PMP22 RNA levels relative to untreated control cells. ICso was calculated using a linear regression on a log/linear plot of the data in excel.

TABLE 101
Dose-dependent reduction of human PMP22 RNA
expression in A549 cells
Compound	PMP22 RNA (% Control)	IC50
ID	0.03 μM	0.1 μM	0.4 μM	1.8 μM	7 μM	(μM)
684267	96	42	30	30	8	0.2
684394	50	38	14	N.D.	15	N.C.
886650	117	75	62	33	15	0.8
886652	120	64	56	31	22	0.7
923866	96	89	50	36	7	0.6
923867	105	91	56	39	17	0.9
923868	73	55	52	22	20	0.3
924255	94	72	90	53	17	1.5
1078152	114	106	80	70	47	6.6
1079051	89	77	62	37	14	0.7

Example 12: Effect of 3-10-3 cEt Modified Oligonucleotides on Human PMP22 in Transgenic Mice

C22 mice, described in Huxley et al., Human Molecular Genetics, 5, 563-569 (1996) and Verhamme et al., Journal of Neuropathology and Experimental Neurology, 70, 386-398 (2011), express endogenous mouse PMP22 and overexpress a human PMP22 transgene. The effect of modified oligonucleotides on human PMP22 RNA was tested in symptomatic C22 mice.

Study 1

C22 mice were divided into groups of 3 mice each and administered 50 mg/kg of modified oligonucleotide by subcutaneous injection once a week for a total of three injections. A group of two mice was administered subcutaneous injections of PBS once a week for a total of three injections. This group serves as the control group to which other groups were compared. Mice were sacrificed 48 hours after the final injection and total RNA was isolated from the sciatic nerve for analysis. Levels of human PMP22 RNA were measured by quantitative real-time RTPCR using primer probe set RTS4579, as described herein above (Example 1). Data were normalized to the control group and are presented in the table below. These data were previously reported in Example 1, Table 2 of WO2017/156242, incorporated by reference herein.

These data demonstrate that comparator compound 684394 is more efficacious in vivo than comparator compound 684267.

TABLE 102
Reduction of human PMP22 in C22
transgenic mice, multi-dose study
Compound ID PMP22 RNA (% Control)
684267      83
684394      45

Study 2

C22 mice were divided into groups of 3 mice and administered 30 mg/kg of modified oligonucleotide by intravenous injection. A group of three mice was administered PBS by intravenous injection. This group serves as the control group to which other groups were compared. Two weeks post-dosing, mice were sacrificed, and total RNA was isolated from the sciatic nerve for analysis. Levels of human PMP22 RNA were measured by quantitative real-time RTPCR using primer probe set RTS4579, as described herein above (Example 1). Data were normalized to the control group and are presented in the table below. These data demonstrate that compound 923867 is more efficacious in vivo than comparator compound 684394.

TABLE 103
Reduction of human PMP22 in C22 transgenic
mice, single-dose study
Compound ID PMP22 RNA (% Control)
684394      73
923867      34

Claims

1. An oligomeric compound, comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides wherein the nucleobase sequence of the modified oligonucleotide is at least 90% complementary to an equal length portion of a PMP22 RNA, and wherein the modified oligonucleotide comprises at least one modification selected from a modified sugar, a sugar surrogate, and a modified internucleoside linkage.

2. An oligomeric compound comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides and having a nucleobase sequence comprising at least 12, 13, 14, 15, or 16 nucleobases of any of SEQ ID NOS: 37-5373.

3. An oligomeric compound comprising a modified oligonucleotide consisting of 12 to 50 linked nucleosides and having a nucleobase sequence complementary to at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, or at least 20 contiguous nucleobases of: an equal length portion of nucleobases 4,169-4,198 of SEQ ID NO: 2;an equal length portion of nucleobases 8,812-8,907 of SEQ ID NO: 2;an equal length portion of nucleobases 10,019-10,050 of SEQ ID NO: 2;an equal length portion of nucleobases 11,247-11,276 of SEQ ID NO: 2;an equal length portion of nucleobases 12,058-12,096 of SEQ ID NO: 2;an equal length portion of nucleobases 12,357-13,387 of SEQ ID NO: 2;an equal length portion of nucleobases 15,721-15,769 of SEQ ID NO: 2;an equal length portion of nucleobases 15,914-15,971 of SEQ ID NO: 2;an equal length portion of nucleobases 17,354-17,403 of SEQ ID NO: 2;an equal length portion of nucleobases 19,959-19,997 of SEQ ID NO: 2;an equal length portion of nucleobases 27,054-27,086 of SEQ ID NO: 2;an equal length portion of nucleobases 29,734-29,761 of SEQ ID NO: 2;an equal length portion of nucleobases 30,528-30,558 of SEQ ID NO: 2;an equal length portion of nucleobases 30,678-30,717 of SEQ ID NO: 2;an equal length portion of nucleobases 31,450-31,479 of SEQ ID NO: 2;an equal length portion of nucleobases 37,363-37,401 of SEQ ID NO: 2;an equal length portion of nucleobases 37,651-37,856 of SEQ ID NO: 2; oran equal length portion of nucleobases 38,107-38,223 of SEQ ID NO: 2.

4. The oligomeric compound of any of claims 1-3, wherein the modified oligonucleotide has a nucleobase sequence that is at least 80%, 85%, 90%, 95%, or 100% complementary to any of the nucleobase sequences of SEQ ID NO: 1-8 when measured across the entire nucleobase sequence of the modified oligonucleotide.

5. The oligomeric compound of any of claims 1-4, wherein the modified oligonucleotide comprises at least one modified nucleoside.

6. The oligomeric compound of claim 5, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a modified sugar moiety.

7. The oligomeric compound of claim 6, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a bicyclic sugar moiety.

8. The oligomeric compound of claim 7, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a bicyclic sugar moiety having a 2′-4′ bridge, wherein the 2′-4′ bridge is selected from —O—CH2—; and —O—CH(CH3)—.

9. The oligomeric compound of any of claims 5-8, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a non-bicyclic modified sugar moiety.

10. The oligomeric compound of claim 9, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a non-bicyclic modified sugar moiety comprising a 2′-MOE modified sugar or 2′-OMe modified sugar.

11. The oligomeric compound of any of claims 5-10, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a sugar surrogate.

12. The oligomeric compound of claim 11, wherein the modified oligonucleotide comprises at least one modified nucleoside comprising a sugar surrogate selected from morpholino and PNA.

13. The oligomeric compound of any of claims 1-12, wherein the modified oligonucleotide has a sugar motif comprising: a 5′-region consisting of 1-5 linked 5′-region nucleosides;a central region consisting of 6-10 linked central region nucleosides; anda 3′-region consisting of 1-5 linked 3′-region nucleosides; whereineach of the 5′-region nucleosides and each of the 3′-region nucleosides comprises a modified sugar moiety and each of the central region nucleosides comprises a 2′-β-D-deoxyribosyl sugar moiety.

14. The oligomeric compound of claim 13, wherein the modified oligonucleotide has a 5′-region consisting of 3 linked 5′-region nucleosides;a central region consisting of 10 linked central region nucleosides; anda 3′-region consisting of 3 linked 3′-region nucleosides; whereineach of the 5′-region nucleosides and each of the 3′-region nucleosides comprises a cEt modified sugar moiety and each of the central region nucleosides comprises a 2′-β-D-deoxyribosyl sugar moiety.

15. The oligomeric compound of any of claims 1-14, wherein the modified oligonucleotide comprises at least one modified internucleoside linkage.

16. The oligomeric compound of claim 15, wherein each internucleoside linkage of the modified oligonucleotide is a modified internucleoside linkage.

17. The oligomeric compound of claim 15 or 16 wherein at least one internucleoside linkage is a phosphorothioate internucleoside linkage.

18. The oligomeric compound of claim 15 or 17 wherein the modified oligonucleotide comprises at least one phosphodiester internucleoside linkage.

19. The oligomeric compound of any of claim 15, 17, or 18, wherein each internucleoside linkage is independently selected from a phosphodiester internucleoside linkage or a phosphorothioate internucleoside linkage.

20. The oligomeric compound of any of claims 1-19, wherein the modified oligonucleotide comprises a modified nucleobase.

21. The oligomeric compound of claim 20, wherein the modified nucleobase is a 5-methyl cytosine.

22. The oligomeric compound of any of claims 1-21, wherein the modified oligonucleotide consists of 12-30, 12-22, 12-20,14-18, 14-20, 15-17, 15-25, 16-20, 18-22 or 18-20 linked nucleosides.

23. The oligomeric compound of any of claims 1-22, wherein the modified oligonucleotide consists of 16 linked nucleosides.

24. The oligomeric compound of any of claims 1-23, consisting of the modified oligonucleotide.

25. The oligomeric compound of any of claims 1-24, comprising a conjugate group comprising a conjugate moiety and a conjugate linker.

26. The oligomeric compound of claims 25-26, wherein the conjugate linker consists of a single bond.

27. The oligomeric compound of claims 25-26, wherein the conjugate linker is cleavable.

28. The oligomeric compound of claims 25-26, wherein the conjugate linker comprises 1-3 linker-nucleosides.

29. The oligomeric compound of any of claims 25-28, wherein the conjugate group is attached to the modified oligonucleotide at the 5′-end of the modified oligonucleotide.

30. The oligomeric compound of any of claims 25-28, wherein the conjugate group is attached to the modified oligonucleotide at the 3′-end of the modified oligonucleotide.

31. The oligomeric compound of any of claims 1-30, comprising a terminal group.

32. The oligomeric compound of any of claims 1-31 wherein the oligomeric compound is a singled-stranded oligomeric compound.

33. The oligomeric compound of any of claim 1-27 or 29-32, wherein the oligomeric compound does not comprise linker-nucleosides.

34. An oligomeric duplex comprising an oligomeric compound of any of claim 1-23, 25-31, or 33.

35. An antisense compound comprising or consisting of an oligomeric compound of any of claims 1-33 or an oligomeric duplex of claim 34.

36. A pharmaceutical composition comprising an oligomeric compound of any of claims 1-34 or an oligomeric duplex of claim 35 and a pharmaceutically acceptable carrier or diluent.

37. The pharmaceutical composition of claim 36, wherein the pharmaceutically acceptable diluent is phosphate buffered saline.

38. The pharmaceutical composition of claim 37, wherein the pharmaceutical composition consists essentially of the modified oligonucleotide and phosphate buffered saline.

39. A method comprising administering to an animal a pharmaceutical composition of any of claims 36-38.

40. A method of treating a disease associated with PMP22 comprising administering to an individual having or at risk for developing a disease associated with PMP22 a therapeutically effective amount of a pharmaceutical composition according to any of claims 36-38; and thereby treating the disease associated with PMP22.

41. The method of embodiment 40, wherein the PMP2-associated disease is Dejerine-Sottas Syndrome.

42. The method of claim 40, wherein the PMP2-associated disease is Charcot-Marie-Tooth disease.

43. The method of claim 42, wherein the Charcot-Marie-Tooth disease is CMT1A.

44. The method of claim 42, wherein the Charcot-Marie-Tooth disease is CMT1E.

45. The method of any of claims 40-44, wherein at least one symptom or hallmark of the PMP22-associated disease is ameliorated.

46. The method of claim 45, wherein the symptom or hallmark is demyelination, progressive axonal damage and/or loss, weakness and wasting of foot and lower leg muscles, foot deformities, and weakness and atrophy in the hands.