Barrios et al., 1994, "Heat shock proteins as carrier molevules: in vivo helper effect mediated by Escherichia coli GroEl and DnaK proteins requires cross-linking with antigen", Clin Exp. Immunol., 98:229-233. |
Barrios et al., 1994, "Specificity of antibodies induced after immunization of mice with the mycobacterial heat shock protein of 65kD", Clin Exp Immunol, 224-228. |
Blachere et al., 1997, "Heat shock protein-peptide complexes, Reconstituted In vitro, elicit peptide-specific cytotoxic T lymphocyte response and tumor immunity", J. Exp. Med. 186 [8]:1315-1322. |
Ciupitu et al., 1998, "Immunization with a lymphocytic choriomeningitis virus peptide mixed with heat shock protein 70 results in protective antiviral immunity and specific cytotoxic T lymphocytes", J. Exp. Med., 187 [5]:685-691. |
Aldovini et al. (1992) "The New Vaccines", Technology Review pp. 24-31. |
Basombrio (1970) "Search for common antigenicities among twenty-five sarcomas induced by methylcholanthrene", The Institute for Cancer Research 30:2458-2462. |
Blachere et al. (1993) "Heat Shock Protein Vaccines Against Cancer," Journal of Immunotherapy 14:352-356. |
Blachere and Srivastava (1993) "Immunization with GP96 heat shock proteins isolated from tumors or influenza virus infected cells elicits MHC-restricted, antigen-specific cytotoxic T lymphocytes against the corresponding cells", J. Cellular Biochem. Keystone Symposia NZ502, p. 124. |
Boon (1992) "Toward a genetic analysis of tumor rejection antigens", Advances in Cancer Research 58:177-210. |
Cohen (1993) "Cancer Vaccines Get A Shot In The Arm", Science 262:841-843. |
Craig (1993) "Chaperones: Helpers Along the Pathways to Protein Folding", Science 260:1902-1904. |
Elliott et al. (1990) "Naturally Processed Peptides", Nature 348:195-197. |
Falk et al. (1991) "Allele-specific Motifs Revealed by Sequencing of Self-peptides Eluted from MHC Molecules", Nature 351:290-296. |
Falk et al. (1990) "Cellular Peptide Composition Governed by Major Histocompatibility Complex Class I Molecules", Nature 348:248-251. |
Fedweg and Srivastava (1993) "Evidence for biochemical heterogeneity of gp96 heat shock protein/tumor rejecion antigen", Mount Sinai School of Medicine NZ 206, Joar. Cellular Biochemistry S17.D p. 108. |
Flynn et al. (1989) "Peptide binding and release by proteins implicated as catalysts of protein assembly", Science 245:385-390. |
Flynn et al. (1991) "Peptide-binding Specificity of the Molecular Chaperone BiP", Nature 353:726-730. |
Franklin (1993) "Making vaccines fit the cancer", New Scientist 140:17. |
Gething et al. (1992) "Protein Folding in the Cell", Nature 355:33-45. |
Globerson and Feldman (1964) "Antigenic specificity of benzo[a]pyrene-induced sarcomas", Journal of the National Cancer Institute 32(6):1229-1242. |
Jakob et al. (1993) "Small Heat Shock Proteins Are Molecular Chaperones", J. Biol. Chem. 268:1517-1520. |
Jardetzky et al. (1991) "Identification of Self Peptides Bound to Purified HLA-B27", Nature 353:326-329. |
Lakey et al (1987) "Identification of a peptide binding protein that plays a role in antigen presentation", Proc. Natl. Acad. Sci. USA 84:1659-1663. |
Lanzavecchia (1993) "Identifying Strategies for Immune Intervention", Science 260:937-944. |
Levy (1991) "ATP is Required for In Vitro Assembly of MHC Class I Antigens but Not for Transfer of Peptides across the ER Membrane", Cell 67:265-274. |
Li and Srivastava (1993) "Tumor rejection antigen gp96/grp94 is an ATPase: Implications for protein folding and antigen presentation", EMBO J. 12(8):3143-3151. |
Lindquist and Craig (1988) "The heat-shock proteins", Ann. Rev. Genet. 22:631-677. |
Luescher et al. (1991) "Specific Binding of Antigenic Peptides to Cell-associated MHC Clas I Molecules", Nature 351:72-77. |
Lukacs et al. (1993) "Tumor cells transfected with a bacterial heat-shock gene lose tumorigenicity and induce protection against tumors", J. Exp. Med. 178:343-348. |
Lussow et al. (1991) "Mycobacterial heat-shock proteins as carrier molecules", Eur. J. Immunol. 21:2297-2302. |
Madden et al. (1991) "The Structure of HLA-B27 Reveals Nonamer Self-peptides Bound in an Extended Conformation", Nature 353:321-325. |
Maki et al. (1993) "Mapping of the Genes for Human Endoplasmic Reticular Heat Shock Protein gp96/grp94", Somatic Cell Mol. Genetics 19(1):73-81. |
Maki et al. (1990) "Human homologue of murine tumor rejection antigen gp96: 5'-Regulatory and coding regions and relationship to stress-induced proteins", Proc. Natl. Acad. Sci. USA 87:5658-5663. |
McCall et al. (1989) "Biotherapy: A New Dimension in Cancer Treatment", Biotechnology 7:231-240. |
Melnick (1985) "Virus Vaccines: An Overview", Proceedings of the First Annual Southwest Foundation for Biomedical Research International Symposium, Houston, Texas, Nov. 8-10, 1984, American Society for Microbiology pp. 1-13. |
Nelson et al. (1992) "The Translation Machinery and 70 kd Heat Shock Protein Cooperate in Protein Synthesis", Cell 71:97-105. |
Palladino et al. (1987) "Expression of shared tumor-specific antigen by two chemically induced BALB/c sarcomas", Cancer Research 47:5074-5079. |
Prehn and Main (1957) "Immunity to methylcholanthrene-induced sarcomas", Journal of the National Cancer Institute 18(6):769-778. |
Rothman (1989) "Polypeptide Chain Binding Proteins: Catalysts of Protein Folding and Related Processes in Cells", Cell 59:591-601. |
Rotzschke et al. (1990) "Isolation and Analysis of Naturally Processed Viral Peptides as Recognized by Cytotoxic T cells", Nature 348:248-251. |
Salk et al. (1993) "A Strategy for Prophylactic Vaccination Against HIV", Science 260:1270-1272. |
Schumacher et al. (1991) "Peptide Selection by MHC Class I Molecules", Nature 350:703-706. |
Srivastava et al. (1991) "Protein Tumor Antigens", Curr. Opin. Immunol. 3:654-658. |
Srivastava et al. (1984) "The Serologically Unique Cell Surface Antigen of Zajdela Ascitic Hepatoma is also its Tumor-Associated Transplantation Antigen", Int. J. Cancer 33:417-422. |
Srivastava et al. (1989) "Identification of a Human Homologue of the Murine Tumor Rejection Antigen GP96," Cancer Res. 49:1341-1343. |
Srivastava et al. (1988) "Individually Distinct Transplantation Antigens of Chemically Induced Mouse", Immunology Today 9:78-83. |
Srivastava et al. (1988) "Chromosonal Assignment of the Gene Encoding the Mouse Tumor Rejection Antigen gp96", Immunogenetics 28:205-207. |
Srivastava et al. (1987) "5'-Structural analysis of genes encoding polymorphic antigens of chemically induced tumors", Proc. Natl. Acad. Sci. USA 84:3807-3811. |
Srivastava et al. (1993) "Peptide-Binding Heat Shock Proteins in the Endoplasmic Reticulum: Role in Immune Response to Cancer and in Antigen Presentation", Advances in Cancer Research 62:153-177. |
Srivastava and Maki (1991) "Stress-induced proteins in immune response cancer", Curr. Topic Microbiol. Immunol. 167:109-123. |
Srivastava and Heike (1986) "Tumor-specific immunogenicity of stress-induced proteins: Convergence of two evolutionary pathways of antigen presentation?", Seminars in Immunology 3:57-64. |
Srivastava et al. (1986) "Tumor rejection antigens of chemically induced sarcomas of inbred mice", Proc. Natl. Acad. Sci. USA 83:3407-3411. |
Subbarao et al. (1992) "A General Overview of Viral Vaccine Development," Genetically Engineered Vaccines 327:51-57. |
Szikora et al. (1990) "Structure of the gene of tum-transplantation antigen P35B presence of a point mutation in the antigenic allele", EMBO J 9(4):1041-1050. |
Udono (1993) "Heat shock proteins HSP70, HSP90 and GP96 elicit tumor specific immunity to the tumors from which they are isolated", J. Cell. Biochem. Suppl. 17D:113 (Abstract NZ225). |
Udono et al. (1993) "Heat Shock Protein 70-associated Peptides Elicit Specific Cancer Immunity", J. Exp. Med. 178:1391-1396. |
Ullrich et al. (1986) "A mouse tumor-specific transplantation antigen is a heat shock-related protein", Proc. Natl. Acad. Sci. USA 83:3121-3125. |
Vanbuskirk et al. (1989) "peptide binding protein having a role in antigen presentation is a member of the hsp70 heat shock family", J. Exp. Med. 170:1799-1809. |
Welch et al. (1982) "Purification of the Major Mammalian Heat Shock Proteins", J. Biol. Chem. 257:14949-14959. |
Welch et al. (1985) "Rapid Purification of Mammalian 70,000-Dalton Proteins: Affinity of the Proteins for Nucleotides", Mol. Cell. Biol. 5:1229-1237. |
Welch (1993) "How Cells Respond to Stress", Scientific American pp. 56-64. |
Young (1990) "Stress Proteins and Immunology", Annu. Rev. Immunol. 8:401-420. |
Yu et al. (1991) "Sequence Analysis of Peptides Bound to MHC Class II Molecules", Nature 353:622-627. |
Blachere et al. (Mar. 1993) "Immunization with GP96 heat shock proteins isolated from tumors or influenza virus infected cells elicits MHC-restricted, antigen-specific cytotoxic T lymphocytes against the corresponding cells/antigens", J Cell Biochem Suppl 17D:124 (Abstract NZ 502). |
Srivastava et al. (Mar. 1993) "Evidence for peptide-chaperoning by the endoplasmic reticular heat shock protein GP96: Implications for vaccination against cancer and infectious diseases", J Cell Biochem Suppl 17D:94 (Abstract NZO14). |
Thomas et al. (1982) "Molecular and Cellular Effects of Heat Shock and Related Treatments of Mammalian Tissue-Culture Cells", Cold Springs Harbor Symp Quant Biol 46:985-996. |
Levinson et al. (1979) "Metal Binding Drugs Induce Synthesis of Four Proteins in Normal Cells", Biol Trace Element Research 1:15-23. |
Martin et al., (1986) "Role of Murine Tumor Models in Cancer Treatment Research", Cancer Research 46:2189-2192. |
Nieland et al., (1996) "Isolation of an immunodominant viral peptide that is endogenously bound to the stress protein GP96/GRP94", Proc. Natl. Acad. Sci. USA 93:6135-6139. |
Suto et al., (1995) "A Mechanism for the Specific Immunogenicity of Heat Shock Protein-Chaperoned Peptides", Science 269;1585-1588. |
Udono et al., (1994) "Comparison of Tumor-Specific Immunogenicities of Stress-Induced Proteins gp96, hsp90, and hsp70", J. Immunol. 152:5398-5403. |
Muleet al., (1984) "Adoptive Immunotherapy of Established Pulmonary Metastases with LAK Cells and Recombinant Interleukin-2", Science 225:1487-1489. |
Melief et al. (1992) "Lessons from T Cell Responses to Virus Induced Tumours for Cancer Eradication in General", Career Surveys 13:81-99. |