Cornejo et al., Advances in Pharmacology, vol. 39, 1997.* |
Ward et al., Therapeutic Immunology, 1:165-171, 1994.* |
Higgins et al., J. of Biological Chemistry, 275(33):25652-25664, Aug. 2000.* |
Ludviksson et al., J. of Immunology, 162:4975-4982, 1999.* |
T. Ferguson et al., Two integrin-binding peptides abrogate T cell-mediated immune response in vivo, Proc. Natl. Acad. Sci. USA, vol. 88: 8072-8076, Sep. 1991. |
D. Taylor et al., A Peptide Corresponding to GPIIbα 300-312, a Presumptive Fibrinogen λ-Chain Binding Site on the Platelet Integrin GPIIb/IIIa, Inhibits the Adhesion of Platelets to at Least Four Adhesive Ligands, J. Bio Chem.; Jun. 15, 1992: 267, 11729-11733. |
N. Vedder et al., Inhibition of leukocyte adherence by anti-CD18 monoclonal antibody attenuates Reperfusion injury in the rabbit ear, Proc. Natl. Acad. Sci. USA, vol. 87: 2643-2646, Apr. 1990. |
T. Yednock et al., Prevention of experimental autoimmune encephalomyelitis by antibodies against α4β1 integrin, Nature, 356, Mar. 5, 1992:63-66. |
Cepek, K.L. et al., Integrin αEβ7 Mediates Adhesion of T Lymphocytes to Epithelial Cells, J. Immunol., 150: 3459-3470 (1993). |
Parker, C.M. et al., A family of β7 integrins on human mucosal lymphocytes, Proc. Natl. Acad. Sci. USA 89: 1924-1928 (1992). |
Hochstenbach, F. et al., Characterization of a Third Form of the Human T Cell Receptor, J. Exp. Med. 168:761-776 (1988). |
Moller, P. et al., Rapid Communication-Monoclonal Antibody HML-1, a marker for Intraepithelial T Cells and Lymphomas Derived Thereof, Also Recognizes Hairy Cell Leukemia and Some B-cell Lymphomas, Amer. Amer. J. Path. 136: 509-512 (1990). |
Visser, L. et al., Monoclonal Antibodies Reactive with Hairy Cell Leukemia, Blood 74: 320-325 (1989). |
Cerf-Bensussan, N. et al., A monoclonal antibody (HML-1) defining a novel membrane molecule present on human intestinal lymphocytes, Eur. J. Immunol. 17: 1279-1285 (1987). |
Kruschwitz, M. et al., Ber-ACT8: New monoclonal antibody to the mucosa lymphocyte antigen, J. Clin. Path 44, 636-645 Path 44, 636-645 (1991). |
Pallesen, G. et al., Specificity of monoclonal antibody HML-1, Lancet 335: 537 (1990). |
Visser, L. et al., Induction of B-cell chronic lymphocytic leukaemia and hairy cell leukaemia like phenotypes by by phorbol ester treatment of normal peripheral blood B-cells, Brit. J. Haematol. 75: 359-365 (1990). |
T. Springer, Adhesion receptors of the immune system, Nature, 346: 425-434 (1990). |
S. Albelda, Biology of Disease—Role of Integrins and Other Cell Adhesion Molecules in Tumor Progression and Metastasis, Laboratory Investigation, 68: 4-17 (1993). |
Cerf-Bensussan, N. et al., The human intraepithelial lymphocyte marker HML-1 is an integrin consisting of a a β7 subunit associated with a distinctive α chain, Eur. J. Immunol., 22,:273-277 (1992). |
Krissansen, G.W. et al., Immunologic and structural relatedness of the integrin β7 complex and the human intraepithelial lymphocyte antigen HML-1, FEBS Letts. 296: 25-28 (1992). |
A. Leff et al., Inflammation and cell-cell interactions in airway hyperresponsiveness, Am. Physiological Soc. Soc., 189-206 (1991). |
R. Seth et al., ICAM-2 peptides mediate lymphocyte adhesion by binding to CDIIa/CD18 and CD49d/CD29 integrins, FEBS Letters 282: 193-196 (1991). |
M. Conrad et al., A concise Review: Iron Absorption-The Mucin-Mobilferrin-Integrin Pathway. A Competitive Pathway for Metal Absorption, Am. J. Hematology, 42: 42-67 (1993). |
S. Mette et al., Distribution of Integrin Cell Adhesion Receptors on Normal Bronchial Epithelial Cells and Lung Cancer Cells In Vitro and In Vivo, Am. J. Respir. Cell Mol. Biol., 8: 562-572 (1993). |
E. Uhlmann et al.,Antisense Oligonucleotides: A New Therapeutic Principle Chemical Reviews, vol. 90(4): 543-584 (1990). |
J. Holt et al., An Oligomer Complementary to c-myc MRNA Inhibits Proliferation of HL-60 Promyelocytic Cells and Induces Differentiation, Mol. Cell Biol., 8(2): 963-973 (1988). |
M. Cooney et al., Site-Specific Oligonucleotide Binding Represses Transcription of the Human c-myc Gene, In Vitro, Science, vol. 241: 456-459 (1988). |
C. Hélène et al., Oligodeoxynucleotides covalently linked to intercalating agents: a new class of gene regulatory substances, Biochimie, 67: 777-783 (1985). |
W. James, Towards gene-inhibition therapy: a review of progress and prospects in the field of antiviral antisense nucleic acids and ribozymes, Antiviral Chem. & Chemo. 2(4): 191-214 (1991). |
R. Weiss, Upping the Antisense Ante-Scientists bet on profits from reverse genetics, Science News, 139: 108-109 (1991). |
M. Arnaout et al., Molecular cloning of the α subunit of human and guinea pig leukocyte adhesion glycoprotein Mol: Chromosomal localization and homology to the α subunits of integrins, Proc. Natl. Acad. Sci. USA, 85: 2776-2780 (1988). |
T. Lallier et al., Inhibition of Neural Crest Cell Attachment by Integrin Antisense Oligonucleotides, Science, 259: 692-695 (1993). |
A. Shatzman et al., Expression, Identification, and Characterization of Recombinant Gene Products in Escherichia coli, Methods in Enzymology, 152: 661-673 (1986). |
Roberts, K. et al., The Mucosal T Cell Integrin Alpha -M-290-Beta-7 Recognizes a Ligand on Mucosal Epithelial Cell Lines, Eur J. Immunol. 23 (7): 1630-1635 (1993). |
Shaw, S. et al., Molecular Cloning of the Human Mucosal Lymphocyte Intergrin Alpha-E Subunit: Unusual Structure and Restricted RNA Distribution, Journal of Biological Chemistry, 269(8): 6016-6025 (1994). |
Tidd, D., A Potential Role for Antisense Oligonucleotide Analogues in the Development of Oncogene Targeted Cancer Chemotherapy, Anticancer Research 10: 1169-1182 (1990). |
Wu-Pong, S., Oligonucleotides: Opportunities for Drug Therapy and Research, Pharm. Tech.:102-114 (1994). |
Westermann, P., et al., Inhibition of expression of SV40 virus large T-antigen by antisense Oligodeoxyribonucleotides, Biomed. Biochim. Acta 48(1): 85-93 (1989). |
Herrenknecht et al., Characterization of Recombinant E-Cadherin (Uvomorulin) Expressed in Insect Cells, Journal of Cell Science, vol. Supp. 17, 1993, pp. 147-154. |
M. Wheelock et all, Soluble 80-id Fragment of Cell-CAM 120/80 Disrupts Cell-Cell Adhesion, Journal of Cellular Biochemistry, vol. 34, No. 3, Jul. 1987. |
M. Takeichi et al., Cadherin Cell Adhesion Receptors as a Morphogenetic Regulator, Science, vol. 251, No. 5000, Mar. 22, 1991, pp. 1451-1455. |
M. Katayama et al., Soluble E-Cadherin Fragments Increased in Circulation of Cancer Patients, British Journal of Cancer, vol. 69, No. 3, Mar. 1994. |
P. Karecla et al., Recognition of E-Cadherin on Epithelial Cells by the Mucosal T Cell Integrin AlphaM290beta7 (AlphaEbeta7), European J. Of Immunology, vol. 25, No. 3, Mar. 1995. |
Roberts and O'Connell, “Binding of Intreapithelial Lymphocytes to Colon Cancer Cells is Mediated by HMLI and LFA1,” A685, K.C. Ebert., Depts. Of Medicine and Surgery, UMDMJ-Robert Wood Johnson Medical School, New Brusnwick, NH (Apr. 1992). |
Visser, Dabbagh, and Poppema, “Reactivity of Monoclonal Antibody B-ly7 with a Subset of Activated T Cells and T-Cell Lymphomas,” Hematol Pathol 6(1):37-42 (1992). |
Harris, W.J., et al., “Therapeutic Antibodies—the Comingof Age,”TIBTECH, 11:42-44, 1993 Feb. |
Osband, M.E., et al., “Problems in the Investigational Study and Clinical Use of Cancer Immunotherapy,” Immunology Today, 11(6):193-195, 1990. |
Waldmann, T.A., “Monoclonal Antibodies in Diagnosis and Therapy,” Science, 252:1657-1662, Jun. 1991. |
Shirayoshi, Y. et al., “N-Linked Oligosaccharides Are Not Involved in the Function of a Cell-Cell Binding Glycoprotein E-Cadherin,” Cell Structure and Function, 11:245-252, 1986. |
Karecla, P.I., et al., “Recognition of E-Cadherin on Epithelial Cells by the Mucosal T Cell Integrin αM290β7 (αEβ7),” Eur. J. Immunol., 25:852-856, 1995. |
Geiger, B. et al., “Cadherins,” (1992) Annual Review of Cell Biology 8:307-32. |
Takeichi M., “Cadherin Cell Adhesion Receptors as a Morphogenetic Regulator,” (1991) Science 251:1451-1455. |
Kemler, R., “From Cadherins to Catenins: Cytoplasmic Protein Interactions and Regulation of Cell Adhesion,” (1993) Trends in Gastroenterology 9:317-321. |
Nose, A. et al., “Localization of Specificity Determining Sites in Cadherin Cell Adhesion Molecules,” (1990) Cell 61:147-155. |
Kaiserlain D. et al., Expression, Function, and Regulation of the Intercellular Adhesion Molecule-1 (ICAM-1) on Human Intestinal Epithelial Cell Lines, (1991) Eur. J. of Immunol. 21(10):2415-2421. |
Shimoyama Y. et al., “Cadherin Cell -Adhesion Molecules in Human Epithelial Tissues and Carcinomas,” (1989) Cancer Research 49(8):2128-2133. |
Vestweber D. et al., “Identification of a Putative Cell Adhesion Domain of Uvomorulin,” (1985) EMBO J. 4:3393-3398. |
Springer, T., “The Sensation and Regulation of Interactions with the Extracellular Environment: The Cell Biology of Lymphocyte Adhesion Receptors,” (1990) Annual Review of Cell Biol. 6:359-402. |
Cepek, K. et al., Adhesion Between Epithelial Cells and T Lymphocites Mediated by E-Cadherin and the αEβ7 Integrin, Nature, vol. 372, Nov. 10, 1994, pp. 190-193. |
Abstract; Roberts, A., et al., “Binding of Intraepithelial lymphocytes to colon cancer cells is mediated by HML1 and LFA1”. Gastroenterology; 102:A685 (1992). |