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Cell Surface Structures Involved in T Cell Activation

1984; Wiley; Volume: 81; Issue: 1 Linguagem: Inglês

10.1111/j.1600-065x.1984.tb01105.x

1600-065X

D W Lancki, I. Dávid, Wendy L. Havran, Frank W. Fitch,

T-cell and B-cell Immunology

Immunological ReviewsVolume 81, Issue 1 p. 65-94 Cell Surface Structures Involved in T Cell Activation David W. Lancki, David W. Lancki Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorDavid I. Ma, David I. Ma Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorWendy L. Havran, Wendy L. Havran Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorFrank W. Fitch, Frank W. Fitch Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this author David W. Lancki, David W. Lancki Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorDavid I. Ma, David I. Ma Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorWendy L. Havran, Wendy L. Havran Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this authorFrank W. Fitch, Frank W. Fitch Department of Pathology, Committee on Immunology, The University of Chicago, Illinois, USA.Search for more papers by this author First published: October 1984 https://doi.org/10.1111/j.1600-065X.1984.tb01105.xCitations: 41AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat REFERENCES Allison, J.P., McIntyre, B.W. & Bloch, D. (1982) Tumor-specific antigen of murine T-lymphoma defined with monoclonal antibody. J. Immunol. 129, 2293. CASPubMedWeb of Science®Google Scholar Biddison, W.E., Rao, R.E., Talle, M.A., Goldstein, G. & Shaw, S. (1982) Possible involvement of the OKT4 molecule in T cell recognition of class II HLA antigens. Evidence from studies of cytotoxic T lymphocytes specific for SB antigens. J. Exp. Med. 156, 1065. 10.1084/jem.156.4.1065 CASPubMedWeb of Science®Google Scholar Biddison, W.E., Rao, P.E., Talle, M.A., Goldstein, G. & Shaw, S. (1984) Possible involvement of the OKT4 molecule in T cell recognition of class II HLA antigens. Evidence from studies of CTL-target cell binding. J. Exp. Med. 159, 783. 10.1084/jem.159.3.783 CASPubMedWeb of Science®Google Scholar Borst, J., Prendiville, M.A. & Terhorst, C. (1982) Complexity of the human T lymphocyte-specific cell surface antigen T3. J. Immunol. 128, 1560. CASPubMedWeb of Science®Google Scholar Borst J., Alexander, S., Elder, J. & Terhorst, C. (1983) The T3 complex on human T lymphocytes involves four structurally distinct glycoproteins. J. Biol. Chem. 258, 5135. 10.1016/S0021-9258(18)32549-3 CASPubMedWeb of Science®Google Scholar Davignon, D., Martz, E., Reynolds, T., Kürzinger, K. & Springer, TA. (1981) Monoclonal antibody to a novel lymphocyte function-associated antigen (LFA-1): Mechanism of blockade of T lymphocyte-mediated killing and effects on other T and B lymphocyte functions. J. Immunol. 127, 590. PubMedWeb of Science®Google Scholar Dialynas, D.P., Loken, M.R., Sarmiento, M. & Fitch, F.W. (1982) Identification of lysis-relevant molecules on the surface of CTL: Primary screening of monoclonal antibodies for the capacity to block cytolysis by cloned CTL lines. Adv. Exp. Med. Biol. 146, 547. 10.1007/978-1-4684-8959-0_33 CASPubMedWeb of Science®Google Scholar Dialynas, D.P., Quan, Z.S., Wall, K.A., Pierres, A., Quintans, J., Loken, M.R., Pierres, M. & Fitch, F.W. (1983a) Characterization of the murine T cell surface molecule, designated L3T4, identified by monoclonal antibody GK1.5. Similarity of L3T4 to the human Leu-3, T4 molecule. J. Immunol. 131, 2445. PubMedWeb of Science®Google Scholar Dialynas, D.P., Wilde, D.B., Marrack, P., Pierres, A., Wall, K.A., Havran, W.L., Otten, G.R., Loken, M.R., Pierres, M., Kappler, J. & Fitch, F.W. (1983b) Characterization of the murine antigenic determinant, designated L3T4a, recognized by monoclonal antibody GK1.5: Expression of L3T4a by functional T cell clones appears to correlate primarily with class II MHC antigen-reactivity. Immunol. Rev. 74, 29. 10.1111/j.1600-065X.1983.tb01083.x CASPubMedWeb of Science®Google Scholar Ertl, H.C.J., Green, M.I., Noseworthy, J.H., Fields, B.N., Nepom, J.T., Spriggs, D.R. & Finberg, R.W. (1980) Identification of idiotypic receptors as reovirus-specific cytolytic T cells. Proc. Natl Acad. Sci. USA. 79, 7479. 10.1073/pnas.79.23.7479 PubMedWeb of Science®Google Scholar Evans, G.A., Margulis, D.H., Ozato, K., Camerini-Ofero, R.D. & Seidmon, J.G. (1982) Structure and expression of a mouse major histocompatibility antigen gene, H-2Ld. Proc. Natl. Acad. Sci. USA. 79, 1994. 10.1073/pnas.79.6.1994 CASPubMedWeb of Science®Google Scholar Fan, J., Ahmed, A. & Bonavida, B. (1980) Studies on the induction and expression of T cell-mediated immunity. X. Inhibition by Lyt-2,3 antisera of cytotoxic-mediated antigen-specific and -nonspecific cytotoxicity: Evidence for the blocking of the binding between T lymphocytes and target cells not the post-binding cytolytic steps. J. Immunol. 125, 2444. CASPubMedWeb of Science®Google Scholar Fathman, C.G. & Fitch, F.W. (1982) In: Isolation, Characterization and Utilization of T Lymphocyte Clones. Academic Press, New York . Google Scholar Fitch, F.W., Lancki, D.W. & Dialynas, D.P. (1984) Contributions of T cell clones toward an understanding of the T cell receptor for antigen. Transplantation (in press). 10.1097/00007890-198409000-00001 PubMedWeb of Science®Google Scholar Glasebrook, A.L., Sarmiento, M., Loken, M.R., Dialynas, D.P., Quintans, J., Eisenberg, L., Lutz, C., Wilde, D. & Fitch, F.W. (1981) Murine T lymphocyte clones with distinct immunological functions. Immunol. Rev. 54, 225. 10.1111/j.1600-065X.1981.tb00439.x CASPubMedWeb of Science®Google Scholar Glimcher, L.H., Hamano, T., Asofsky, R., Heber-Katz, E., Hedrick, S., Schwartz, R.H. & Paul, W.E. (1982) I region-restricted antigen presentation by B cell-B lymphoma hybridomas. Nature (Lond.) 298, 283. 10.1038/298283a0 CASPubMedWeb of Science®Google Scholar Golstein, P., Goridis, C., Schmitt-Verhulst, A.-E., Hayot, B., Pierres, A., van Agthoven, A., Kaufmann, Y., Eshar, Z. & Pierres, M. (1982) Lymphoid cell surface interaction structures detected using cytolysis-inhibiting monoclonal antibodies. Immunol. Rev. 68, 5. 10.1111/j.1600-065X.1982.tb01058.x PubMedWeb of Science®Google Scholar Gromkowski, S.H., Heagy, W., Sanchez-Madrid, F., Springer, T.A. & Martz, E. (1983) Blocking of CTL-mediated killing by monoclonal antibodies to LFA-1 and Lyt-2,3. I. Increased susceptibility to blocking after papain-treatment of target cells. J. Immunol. 130, 3546. Google Scholar Gunter, K.C., Malek, T.R. & Shevach, E.M. (1984) T cell-activating properties of an anti-Thy-1 monoclonal antibody. J. Exp. Med. 159, 716. 10.1084/jem.159.3.716 CASPubMedWeb of Science®Google Scholar Hämmerling, G.J., Hämmerling, U. & Lemke, H. (1979) Isolation of twelve monoclonal antibodies against la and H-2 antigens. Serological characterization and reactivity with B and T lymphocytes. Immunogenetics 8, 433. 10.1007/BF01561454 Web of Science®Google Scholar Hansen, T.H., Cullen, S.F., Melvold, R., Kohn, H.I., Flaherty, L. & Sachs, D.H. (1977) Mutation in a new H-2 associated histocompatibility gene closely linked to H-2D. J. Exp. Med. 145, 1550. 10.1084/jem.145.6.1550 PubMedWeb of Science®Google Scholar Haskins, K., Kubo, R., White, J., Pigeon, M., Kappler, J. & Marrack, R (1983) The MHC-restricted antigen receptor on T cells. I. Isolation with a monoclonal antibody. J. Exp. Med. 157, 1149. 10.1084/jem.157.4.1149 CASPubMedWeb of Science®Google Scholar Hedrick, S.M., Cohen, D.I., Nielsen, E.A. & Davis, M.M. (1984a) Isolation of cDNA clones encoding T cell-specific membrane-associated proteins. Nature 308, 149. 10.1038/308149a0 CASPubMedWeb of Science®Google Scholar Hedrick, S.M., Nielsen, E.A., Kavalar, J., Cohen, D.I. & Davis, M.M. (1984b) Sequence relationships between putative T-cell receptor polypeptides and immunoglobulins. Nature 308, 153. 10.1038/308153a0 CASPubMedWeb of Science®Google Scholar Jones, B. (1983) Evidence that the Thy-1 molecule is the target for T cell mitogenic antibody against brain-associated antigens. Eur. J. Immunol. 13, 678. 10.1002/eji.1830130813 PubMedWeb of Science®Google Scholar Kakiuchi, T., Chesnut, R.W. & Grey, H.M. (1983) B cells as antigen-presenting cells: The requirements for B cell activation. J. Immunol. 131, 109. CASPubMedWeb of Science®Google Scholar Kaneoka, H., Perez-Rojas, G., Sasasuki, T., Benike, C.J. & Engleman, E.G. (1983) Human T lymphocyte proliferation induced by a pan-T monoclonal antibody (anti-Leu 4): heterogeneity of response is a function of monocytes. J. Immunol. 131, 158. CASPubMedWeb of Science®Google Scholar Kappler, J.W., Skidmore, B., While, J. & Marrack, P. (1981) Antigen-induced, H-2 restricted, interleukin-2-producing kT cell hybridomas. J. Exp. Med. 153, 1198. 10.1084/jem.153.5.1198 PubMedWeb of Science®Google Scholar Kappler, J.W., Kubo, R., Haskins, K., Hannum, C., Marrack, P., Pigeon, M., McIntyre, B., Allison, J. & Trowbridge, I. (1983) The major histocompatibility complex-restricted antigen receptor on T cells in mouse and man: identification of constant and variable peptides. Cell 35, 295. 10.1016/0092-8674(83)90232-5 CASPubMedWeb of Science®Google Scholar Kaye, J., Procelli, S., Tite, J., Jones, B. & Janeway, C.A. (1983) Both a monoclonal antibody and antisera specific for determinants unique to individual cloned helper T cell lines can substitute for antigen and antigen presenting cells in the activation of T cells. J. Exp. Med. 158, 836. 10.1084/jem.158.3.836 CASPubMedWeb of Science®Google Scholar Kürzinger, K., Reynolds, T., Germain, R., Davignon, D., Martz, E. & Springer, T.A. (1981) A novel lymphocyte function-associated antigen (LFA-1): cellular distribution, quantitative expression, and structure. J. Immunol. 127, 596. PubMedWeb of Science®Google Scholar Lancki, D.W., Lorber, M.I., Loken, M.R. & Fitch, F.W. (1982) A clone specific monoclonal antibody which inhibits T cell-mediated cytolysis. Adv. Exp. Med. Biol. 146, 557. 10.1007/978-1-4684-8959-0_34 CASPubMedWeb of Science®Google Scholar Lancki, D.W., Lorber, M.I., Loken, M.R. & Fitch, F.W. (1983) A done specific monoclonal antibody which inhibits cytolysis of a cytolytic T cell clone. J. Exp. Med. 157, 921. 10.1084/jem.157.3.921 CASPubMedWeb of Science®Google Scholar Lancki, D.W., Prystowsky, M.B., Vogel, S.N., Beller, D.I., Dialynas, D.P. & Fitch, F.W. (1984) Effects of monoclonal antibodies directed against murine T lymphocyte cell surface antigens on lymphokine production by cloned T lymphocytes reactive with class I MHC or Mls alloantigens. J. Immunol. (In press). PubMedWeb of Science®Google Scholar Lorber, M.I., Loken, M.R., Stall, A.M & Fitch, F.W. (1983) I-A antigens on cloned alloreactive murine T lymphocytes are acquired passively. J. Immunol. 128, 2798. PubMedWeb of Science®Google Scholar Ma, D.I., Wilde, D.B., Gajewski, T., Dunn, D.E. & Fitch, F.W. (1984) Evidence implicating I-region restricted antigen presentation in alloantigen and nominal antigen recognition by a dual-reactive helper T lymphocyte clone. J. Immunol. (In press). PubMedWeb of Science®Google Scholar MacDonald, H.R., Glasebrook, A.L., Bron, C., Kelso, A. & Cerotinni, J.-C. (1982a) Clonal heterogeneity in the functional requirement for Lyt-2,3 molecules on cytolytic T lymphocytes (CTL): possible implications for the affinity of CTL antigen receptors. Immunol. Rev. 68, 89. 10.1111/j.1600-065X.1982.tb01061.x CASPubMedWeb of Science®Google Scholar MacDonald, H.R., Glasebrook, A.L. & Cerottini, J.-C. (1982b) Clonal heterogeneity in the functional requirement for Lyt-2/3 molecules on cytolytic T lymphocytes: Analysis by antibody blocking and selective trypsinization. J. Exp. Med. 156, 1711. 10.1084/jem.156.6.1711 PubMedWeb of Science®Google Scholar Marrack, P., Endres, R., Shimonkevitz, R., Zlotnik, A., Dialynas, D., Fitch, F. & Kappler, J. (1983) The major histocompatibility complex-restricted antigen receptor on T cells. IL Role of the L3T4 molecule. J. Exp. Med. 158, 1077. 10.1084/jem.158.4.1077 CASPubMedWeb of Science®Google Scholar Matis, L.A., Glimcher, L.H., Paul, W.E. & Schwartz, R.H. (1983) Magnitude of response of histocompatibility restricted T-cell clones is a function of the product of the concentration of antigen and la molecules, Proc. Natl Acad. Sci. USA 80, 6019. 10.1073/pnas.80.19.6019 CASPubMedWeb of Science®Google Scholar McKearn, T.J., Fitch, F.W., Smilek, D.E., Sarmiento, M. & Stuart, F.P. (1979) Properties of rat anti-MHC antibodies produced by cloned rat-mouse hybridomas. Immunol. Rev. 47, 91. 10.1111/j.1600-065X.1979.tb00290.x CASPubMedWeb of Science®Google Scholar Meuer, S.C., Hussey, R.E., Hodgdon, J.C., Hercend, T., Schlossman, S.F. & Reinherz, E.L. (1982) Surface structures involved in target recognition by human cytotoxic T lymphocytes. Science 218, 471. 10.1126/science.6981845 PubMedWeb of Science®Google Scholar Meuer, S.C., Acuto, O., Hussey, R.F., Hodgdon, J.C., Fitzgerald, K.A., Schlossman, S.F. & Reinherz, E.L. (1983a) Evidence for the T3-associated 90K heterodimer as the T-cell antigen receptor. Nature 303, 808. 10.1038/303808a0 CASPubMedWeb of Science®Google Scholar Meuer, S.C., Hodgdon, J.C., Hussey, R.E., Protentis, J.P., Schlossman, S.F. & Reinherz, E.L. (1983b) Antigen-like effects of monoclonal antibodies directed at receptors on human T cell clones. J. Exp. Med. 158, 988. 10.1084/jem.158.3.988 CASPubMedWeb of Science®Google Scholar Meuer, S.C., Fitzgerald, K.A., Hussey, R.E., Hodgdon, J.C., Schlossman, S.F. & Reinherz, E.L. (1983c) Clonotypic structures involved in antigen-specific human T cell function. J. Exp. Med. 157, 705. 10.1084/jem.157.2.705 PubMedWeb of Science®Google Scholar Meuer, S.C., Hussey, R.E., Cantrell, D.A., Hodgdon, J.C., Schlossman, S.F., Smith, K.A. & Reinherz, E.L. (1984) Triggering of the T3-Ti anti-receptor complex results in clonal T-cell proliferation through an interleuken 2 dependent autocrine pathway. Proc. Natl. Acad. Sci. USA 81, 1509. 10.1073/pnas.81.5.1509 CASPubMedWeb of Science®Google Scholar Norcross, M.A., Smith, R.T. & Shimizu, S. (1984) Regulation of TCGF production in T cells. II. Early membrane events after anti-Thy-1 binding by the TCGF-producing T lymphoma EL-4 G12. J. Immunol. 132, 833. CASPubMedWeb of Science®Google Scholar Oi, V.T., Jones, P.P., Goding, J.W., Herzenberg, L.A. & Herzenberg, L.A. (1978) Properties of monoclonal antibodies to mouse Ia allotypes, H-2, and Ia antigens. Curr. Top. Microbiol. Immunol. 81, 115. CASPubMedWeb of Science®Google Scholar Okada, M. & Henney, C.S. (1980) The differentiation of cytotoxic T cells in vitro. II. Amplifying factor(s) produced in primary mixed lymphocyte cultures against K/D stimuli require the presence of Lyt-2+ cells but not Lyt-1+ cells. J. Immunol. 125, 300. CASPubMedWeb of Science®Google Scholar Ozato, K., Hansen, T.H. & Sachs, D.H. (1980) Monoclonal antibodies to mouse MHC antigens. II. Antibodies to the H-2Ld antigen, the products of a third polymorphic locus of the mouse major histocompatibility gene complex. J. Immunol. 125, 2473. CASPubMedWeb of Science®Google Scholar Ozato, K., Mayer, N.M. & Sach, D.H. (1982) Monoclonal antibodies to mouse MHC antigens. IV. A series of hybridoma clones producing anti-H-2d antibodies and an examination of expression of H-2d antigens on the surface of these cells. Transplantation 34, 113. 10.1097/00007890-198209000-00001 CASPubMedWeb of Science®Google Scholar Pierres, M., Devaux, C., Dosseto, M.I. & Marchetto, S. (1981) Clonal analysis of B- and T-cell responses to Ia antigens. I. Topology of epitope regions on I-Ak and I-Ek molecules analyzed with 35 monoclonal alloantibodies. Immunogenetics 14, 481. 10.1007/BF00350120 CASPubMedWeb of Science®Google Scholar Pierres, A., Schmitt-Verhulst, A.-M., Buferne, M., Golstein, P. & Pierres, M. (1982a) Characterization of an Lyt-1+ cytolytic T-cell clone specific for a polymorphic domain of the I-A-k molecule. Scand. J. Immunol. 15, 619. 10.1111/j.1365-3083.1982.tb00691.x CASPubMedWeb of Science®Google Scholar Pierres, M., Goridis, C. & Golstein, P. (1982b) Inhibition of murine T cell-mediated cytolysis and T cell proliferation by a rat monoclonal antibody immunoprecipitating two lymphoid cell surface polypeptides of 94,000 and 180,000 molecular weight. Eur. J. Immunol. 12, 60. 10.1002/eji.1830120112 CASPubMedWeb of Science®Google Scholar Pillemer, E. & Weissman, I.L. (1981) A monoclonal antibody that detects a VK-TEPC 15 idiotypic determinant cross-reactive with a Thy-1 determinant. J. Exp. Med. 153, 1068. 10.1084/jem.153.5.1068 CASPubMedWeb of Science®Google Scholar Reinherz, E.L., Meuer, S.C. & Schlossman, S.F. (1983a) The delineation of antigen receptors on human T lymphocytes. Immunology Today 4, 5. 10.1016/0167-5699(83)90094-4 CASPubMedWeb of Science®Google Scholar Reinherz, E.L., Meuer, S.C., Fitzgerald, K.A., Hussey, R.E., Hodgon, J.C., Acuto, O. & Schlossman, S.F. (1983b) Comparison of T3-associated 49- and 43-kilodalton cell surface molecules on individual human T-cell clones: evidence for peptide variability in T-cell receptor structures. Proc. Natl. Acad. Sci. USA. 80, 4104. 10.1073/pnas.80.13.4104 CASPubMedWeb of Science®Google Scholar Russel, J.H. & Dobos, C.B. (1983) Characterization of a “heteroclitic” cytotoxic lymphocyte clone: heterogeneity of receptors or signals J. Immunol. 130, 538. PubMedWeb of Science®Google Scholar Samelson, L.E., Germain, R.N & Schwartz, R.H. (1983) Monoclonal antibodies against the antigen receptor on a cloned T cell hybrid. Proc. Natl. Acad. Sci. USA. 80, 6972. 10.1073/pnas.80.22.6972 CASPubMedWeb of Science®Google Scholar Sarmiento, M., Glasebrook, A.L. & Fitch, F.W. (1980) IgG or IgM monoclonal antibodies reactive with different determinants on the molecular complex bearing Lyt-2 antigen block T cell-mediated cytolysis in the absence of complement. J. Immunol. 125, 2665. CASPubMedWeb of Science®Google Scholar Sarmiento, M., Loken, M.R. & Fitch, F.W. (1981) Structural differences in cell surface T25 polypeptides from thymocytes and cloned T cells. Hybridoma 1, 13. 10.1089/hyb.1.1981.1.13 CASPubMedWeb of Science®Google Scholar Sarmiento, M., Dialynas, D.P., Lancki, D.W., Wall, K.A., Lorber, M.I., Loken, M.R. & Fitch, F.W. (1982) Cloned T lymphocytes and monoclonal antibodies as probes for cell surface molecules active in T cell-mediated cytolysis. Immunol. Rev. 68, 135. 10.1111/j.1600-065X.1982.tb01063.x PubMedWeb of Science®Google Scholar Sherman, L.A. (1980) Dissection of the B10.D2 anti-H-2Kb cytolytic T lymphocyte receptor repertoire. J. Exp. Med. 151, 1386. 10.1084/jem.151.6.1386 CASPubMedWeb of Science®Google Scholar Shimizu, S., Smith, R.T., Norcross, M.A. & Maino, V.C. (1982) Mechanisms controlling TCGF production by cloned sublines of EL-4 azgr in response to stimulation by anti-Thy-1 antibody. J. Immunol. 128, 296. CASPubMedWeb of Science®Google Scholar Sitkovsky, M.V., Pasternack, M.S. & Eisen, H.N. (1982) Inhibition of cytotoxic T lymphocyte activity by concanavalin A. J. Immunol. 129, 1372. CASPubMedWeb of Science®Google Scholar Sitkovsky, M.V., Pasternack, M.S., Lugo, J.P., Klein, J.R. & Eisen, H.N. (1984) Isolation and partial characterization of concanavalin A receptors on cloned cytotoxic T lymphocytes. Proc. Natl. Acad. Sci. USA. 81, 1519. 10.1073/pnas.81.5.1519 CASPubMedWeb of Science®Google Scholar Swain, S.L. (1981) Significance of Lyt phenotypes: Lyt-2 antibodies block activities of T cells that recognize class I major histocompatibility complex antigens regardless of their function. Proc. Natl. Acad. Sci. U.S.A. 78, 7101. 10.1073/pnas.78.11.7101 CASPubMedWeb of Science®Google Scholar Swain, S.L., Dennert, G., Wormsley, S. & Dutton, R.W. (1981) The Lyt phenotype of a long-term allospecific T cell line. Both helper and killer activities to IA are mediated by Ly-1 cells. Eur. J. Immunol. 11, 175. 10.1002/eji.1830110304 CASPubMedWeb of Science®Google Scholar Swain, S.L., Dutton, R.W., Schwab, R. & Yamamoto, J. (1983) Xenogeneic human anti-mouse T cell responses are due to the activity of the same functional T cell subsets responsible for allospecific and major histocompatibility complex-restricted responses. J. Exp. Med. 157, 720. 10.1084/jem.157.2.720 PubMedWeb of Science®Google Scholar Tartof, D.F. (1980) Inhibition of cytotoxic T lymphocytes with concanavalin A. Cell. Immunol. 50, 48. 10.1016/0008-8749(80)90005-2 CASPubMedWeb of Science®Google Scholar Unanue, E.R., Beller, D.I., Lu, C.Y & Allen, P.M. (1984) Antigen-presentation: Comments on its regulation and mechanism. J. Immunol. 134, 1. Google Scholar Wauwe, J.P., DeMey, J.R. & Goossens, J.G. (1980) OKT3: A monoclonal anti-human T lymphocyte antibody with potent mitogenic properties. J. Immunol. 124 (6), 2708. PubMedWeb of Science®Google Scholar Wettstein, P.J., Bailey, D.W., Mobraaten, L.E., Klein, J. & Frelinger, J.A. (1978) T-lymphocyte response to H-2 mutants. I. Proliferation is dependent on Ly 1+2+ cells. J. Exp. Med. 147, 1395. 10.1084/jem.147.5.1395 CASPubMedWeb of Science®Google Scholar Wilde, D.B., Marrack, P., Kappler, J., Dialynas, D.P. & Fitch, F.W. (1983) Evidence implicating L3T4 in class II MHC antigen reactivity: Monoclonal antibody GK 1.5 (anti-L3T4) blocks class II MHC antigen-specific proliferation, release of lymphokines, and binding by cloned murine helper T lymphocyte lines. J. Immunol. 131, 2178. CASPubMedWeb of Science®Google Scholar Wilde, D.B., Prystowsky, M.B., Beller, D.I., Goldwasser, E., Ihle, J.N., Vogel, S.N. & Fitch, F.W. (1984) Comparison of allogeneic and self-restricted stimulation of lymphokine production by cloned T cells with dual antigenic reactivity. J. Immunol. (In press). PubMedGoogle Scholar Williams, A.F. & Gagnon, J. (1982) Neuronal cell Thy-1 glycoprotein: homology with immunoglobulin. Science 216, 696. 10.1126/science.6177036 CASPubMedWeb of Science®Google Scholar Yanagi, Y., Yoshikai, Y., Leggett, K., Clark, S.P., Aleksander, I. & Mak, T.W. (1984) A human T cell-specific cDNA clone encodes a protein having extensive homology to immunoglobulin chains. Nature 308, 145. 10.1038/308145a0 CASPubMedWeb of Science®Google Scholar Citing Literature Volume81, Issue1October 1984Pages 65-94 ReferencesRelatedInformation