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HLA-A2 peptides can regulate cytolysis by human allogeneic T lymphocytes

Nature volume 330pages 763–765 (1987)Cite this article

Abstract

The class-I and class-II molecules encoded by the major histocompatibility complex (MHC) are homologous proteins which allow cytotoxic and helper T cells to recognize foreign antigens1,2. Recent studies have shown that the form of the antigen recognized by T cells is generally not a native protein but rather a short peptide fragment3,4 and that class-II molecules specifically bind antigenic peptides5,6. Furthermore, the three-dimensional structure of the human MHC class-I molecule, HLA-A2, is consistent with a peptide-binding function for MHC class-I molecules7,8. An outstanding question concerns the molecular nature and involvement of MHC-bound peptides in antigens recognized by alloreactive T cells. In this study the effects of peptides derived from HLA-A2 on cytolysis of alloreactive cytotoxic T cells (Tc) cells are presented. Peptides can inhibit lysis by binding to the T cell or sensitize to lysis by binding an HLA-A2-related class-I molecule (HLA-Aw69) on the target cell. Thus, allospecific Tc cells can recognize HLA-derived peptides in the context of the MHC.

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References

  1. 1. Schwartz, R. H. A. Rev. Immun. 3, 237-255 (1985). 2. Zinkernagel, R. M. & Doherty, P. C. Adv. Immun. 27, 51-177 (1979). 3. Ziegler, K. & Unanue, E. R. J. Immun. 127, 1869-1874 (1982). 4. Townsend, A. R. M., Gotch, F. M. & Davey, J. Cell 42, 457-468 (1985). 5. Buss, S. et al. Proc. natn. Acad. Sci. U.S.A. 83, 3968-3971 (1986). 6. Babbit, B., Alien, P., Matsueda, G., Haber, E. Unanue, E. Nature 317, 359-361 (1985). 7. Bjorkman, P. J. et al. Nature 329, 506-511 (1987). 8. Bjorkman, P. J. Nature 329, 512-518 (1987). 9. Parham, P. et al. Nature 325, 625-628 (1987). 10. Salter, R. D., Clayberger, C., Lomen, C. E., Krensky, A. M. & Parham, P. /. exp. Med. 166, 283-288 (1987). 11. Layet, C. et al. J. Immun. 138, 2197-2202 (1987). 12. McMichael, A. J., Parham, P., Rust, N. & Brodsky, F. Hum. Immun. 1, 121-138 (1980). 13. Ways, J. P. & Parham, P. Biochem. J. 216, 423-432 (1983). 14. Clayberger, C. et al. J. exp. Med. 162, 1709-1714 (1984). 15. Seong, R., Clayberger, C., Krensky, A. M. & Parnes, J. /. exp. Med. (in the press). 16. Bastin, J., Rothbard, J. B., Davey, J., Jones, I. & Townsend, A. J. J. exp. Med. 165,1508-1523 (1987). 17. Gotch, F., Rothbard, J., Howland, K., Townsend, A. & McMichael, A. Nature 326, 881-883 (1987). 18. Maryanski, J. L., Pala, P., Corradin, G., Jordan, B. R. & Cerottini, J. C. Nature 324, 578-581 (1986). 19. Holmes, N. & Parham, P. EMBO J. 4, 2849-2854 (1985). 20. Krangel, M. S., Orr, H. T. & Strominger, J. L. Cell 18, 979-991 (1979). 21. Ploegh, H. L., Orr, H. T. & Strominger, J. L. /. Immun. 126, 270-275 (1982). 22. Gussow, D. & Ploegh, H. Immunol. Today 8, 220-222 (1987). 23. Ways, J. P., Coppin, H. & Parham, P. J. Bio/. Chem. 260, 11924-11930 (1985). 24. Strachen, T., Sodoyer, R., Damotte, M. & Jordan, B. R. EMBO J. 3, 887-896 (1984). 25. Holmes, N., Ennis, P., Wan, A., Denney, D. & Parham, P. /. Immun. 139, 936-941 (1987). 26. Krensky, A. M., Reiss, C. S., Mier, J. W., Strominger, J. L. & Burakoff, S. J. Proc. natn. Acad. Sci. U.S.A. 79, 2365-2370 (1982).

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Authors and Affiliations

  1. Department of Pediatrics, Stanford University School of Medicine, Stanford, California, 94305, USA

    Carol Clayberger & Alan M. Krensky

  2. Department of Cell Biology, Stanford University School of Medicine, Stanford, California, 94305, USA

    Peter Parham

  3. Department of Medical Microbiology, Stanford University School of Medicine, Stanford, California, 94305, USA

    David S. Ludwig & Gary K. Schoolnik

  4. Imperial Cancer Research Fund, Lincoln's Inn Fields, London, WC2A 3PX, UK

    Jonathan Rothbard

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  1. To whom correspondence should be addressed.

    • Alan M. Krensky
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  1. Carol Clayberger
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  5. Gary K. Schoolnik
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  6. Alan M. Krensky
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Clayberger, C., Parham, P., Rothbard, J. et al. HLA-A2 peptides can regulate cytolysis by human allogeneic T lymphocytes. Nature 330, 763–765 (1987). https://doi.org/10.1038/330763a0

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