T cell receptor (TCR) structure of autologous melanoma-reactive cytotoxic T lymphocyte (CTL) clones: tumor-infiltrating lymphocytes overexpress in vivo the TCR beta chain sequence used by an HLA-A2- restricted and melanocyte-lineage-specific CTL clone

HLA-A2+ melanomas express common melanoma-associated antigens (Ags) recognized in vitro by autologous cytotoxic T lymphocytes (CTL). However, it is not known whether tumor Ags can drive in vivo a selective accumulation/expansion of Ag-specific, tumor-infiltrating T lymphocytes (TIL). Therefore, to evaluate this possibility, 39 CTL clones isolated from several independent mixed lymphocyte tumor cultures (MLTC) of TIL and peripheral blood lymphocytes (PBL) of an HLA- A2+ melanoma patient and selected for T cell receptor (TCR)-dependent, HLA-restricted tumor lysis, were used for analysis of TCR alpha and beta chain structure by the cDNA polymerase chain reaction (PCR) technique with variable gene-specific primers followed by sequencing. Despite absence of oligoclonality in fresh TIL and PBL, as well as in T cells of day 28 MLTC (day of cloning), sequence analysis of TCR alpha and beta chains of TIL clones revealed a dominance of a major category of melanoma-specific, HLA-A2-restricted T cells expressing a V alpha 8.2/J alpha AP511/C alpha and V beta 2.1/D beta 1/J beta 1.1/C beta 1 TCR. The same TCR was also found in 2 out of 14 PBL clones. The other PBL clones employed a V alpha 2.1 gene segment associated with either V beta 13.2, 14, or w22. Clones A81 (V alpha 2.1/J alpha IGRJ alpha 04/C alpha and V beta 14/D beta 1/J beta 1.2/C beta 1) and A21 (V alpha 8.2/J alpha AP511/C alpha and V beta 2.1/D beta 1/J beta 1.1/C beta 1), representative of the two most frequent TCR of PBL and TIL, respectively, expressed different lytic patterns, but both were HLA-A2 restricted and lysed only HLA-A2+ melanomas and normal melanocytes, thus indicating recognition of two distinct HLA-A2-associated and tissue-related Ags. Finally, by the inverse PCR technique, the specific TCR beta chain (V beta 2.1/D beta 1/J beta 1.1/C beta 1) expressed by the dominant TIL clone was found to represent 19 and 18.4% of all V beta 2 sequences expressed in the fresh tumor sample and in the purified TIL, respectively, but < 0.19% of V beta 2+ sequences expressed in PBL. These results are consistent with the hypothesis that a clonal expansion/accumulation of a melanocyte-lineage-specific and HLA-A2-restricted T cell clone occurred in vivo at the site of tumor growth.

[1]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[2]  M. Herlyn,et al.  Melanoma cells and normal melanocytes share antigens recognized by HLA- A2-restricted cytotoxic T cell clones from melanoma patients , 1993, The Journal of experimental medicine.

[3]  Catia,et al.  A nonapeptide encoded by human gene MAGE-1 is recognized on HLA-A1 by cytolytic T lymphocytes directed against tumor antigen MZ2-E , 1992, The Journal of experimental medicine.

[4]  G. Nicolini,et al.  Expansion of Major Histocompatibility Complex-Restricted Antimelanoma Cytotoxic T-Cell Lymphocyte Clones with Identical T-Cell Receptor from Tumor-Infiltrating Lymphocytes , 1992, Journal of immunotherapy : official journal of the Society for Biological Therapy.

[5]  S. Roman-Roman,et al.  Analysis of T-Cell Receptor α/β Variability in Lymphocytes Infiltrating a Melanoma Metastasis , 1992 .

[6]  P. Coulie,et al.  Precursor frequency analysis of human cytolytic T lymphocytes directed against autologous melanoma cells , 1992, International journal of cancer.

[7]  S. Rosenberg,et al.  Shared human melanoma antigens. Recognition by tumor-infiltrating lymphocytes in HLA-A2.1-transfected melanomas. , 1992, Journal of immunology.

[8]  D. Kono,et al.  New human V beta genes and polymorphic variants. , 1991, Journal of immunology.

[9]  A. Anichini,et al.  Two autologous melanoma‐specific and MHC‐restricted human T cell clones with identical intra‐tumour reactivity do not share the same TCR Vα and Vβ gene families , 1991 .

[10]  M. Ott,et al.  The T-cell-receptor repertoire in the synovial fluid of a patient with rheumatoid arthritis is polyclonal. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[11]  P. Marrack,et al.  Evidence for the effects of a superantigen in rheumatoid arthritis. , 1991, Science.

[12]  S. Rosenberg,et al.  Common Expression of Melanoma Tumor-Associated Antigens Recognized by Human Tumor Infiltrating Lymphocytes: Analysis by Human Lymphocyte Antigen Restriction , 1991, Journal of immunotherapy : official journal of the Society for Biological Therapy.

[13]  S. Roman-Roman,et al.  Studies on the human T cell receptor α/β variable region genes. II. Identification of four additional Vβ subfamilies , 1991 .

[14]  S. Roman-Roman,et al.  Studies on the human T cell receptor α/β variable region genes. I. Identification of 7 additional Vα subfamilies and 14 Jα gene segments , 1991 .

[15]  H. Seigler,et al.  MHC-restricted recognition of autologous melanoma by tumor-specific cytotoxic T cells. Evidence for restriction by a dominant HLA-A allele. , 1991, Journal of immunology.

[16]  A. Anichini,et al.  Heterogeneity for integrin expression and cytokine‐mediated VLA modulation can influence the adhesion of human melanoma cells to extracellular matrix proteins , 1991, International journal of cancer.

[17]  L. Steinman,et al.  Predominant expression of T cell receptor V alpha 7 in tumor-infiltrating lymphocytes of uveal melanoma. , 1990, Science.

[18]  A. Anichini,et al.  Cellular immune response against autologous human malignant melanoma: are in vitro studies providing a framework for a more effective immunotherapy? , 1990, Journal of the National Cancer Institute.

[19]  P. Marrack,et al.  Interaction of Staphylococcus aureus toxin "superantigens" with human T cells. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[20]  R. Fauchet,et al.  Presence on a human melanoma of multiple antigens recognized by autologous CTL , 1989, International journal of cancer.

[21]  K. Meyer zum Büschenfelde,et al.  Lysis of human melanoma cells by autologous cytolytic T cell clones. Identification of human histocompatibility leukocyte antigen A2 as a restriction element for three different antigens , 1989, The Journal of experimental medicine.

[22]  A. Belldegrun,et al.  Human tumor infiltrating lymphocytes. Analysis of lymphokine mRNA expression and relevance to cancer immunotherapy. , 1989, Journal of immunology.

[23]  A. Anichini,et al.  Cytotoxic T lymphocyte clones from peripheral blood and from tumor site detect intratumor heterogeneity of melanoma cells. Analysis of specificity and mechanisms of interaction. , 1989, Journal of immunology.

[24]  L. Hood,et al.  Structure, Organization and Polymorphism of Murine and Human T‐Cell Receptor a and β Chain Gene Families , 1988, Immunological reviews.

[25]  P. Chomczyński,et al.  Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. , 1987, Analytical biochemistry.

[26]  L. Hood,et al.  Diversity and structure of human T-cell receptor alpha-chain variable region genes. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[27]  M. Minden,et al.  Sequences and diversity of human T cell receptor beta chain variable region genes , 1986, The Journal of experimental medicine.

[28]  T. Mak,et al.  Sequences and repertoire of human T cell receptor alpha chain variable region genes in mature T lymphocytes , 1986, The Journal of experimental medicine.

[29]  T. Mak,et al.  Organization and sequences of the diversity, joining, and constant region genes of the human T-cell receptor beta chain. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[30]  R. Accolla,et al.  Distinct forms of both alpha and beta subunits are present in the human Ia molecular pool. , 1981, Proceedings of the National Academy of Sciences of the United States of America.

[31]  C. Taswell,et al.  Clonal analysis of cytolytic T lymphocyte specificity. I. Phenotypically distinct sets of clones as the cellular basis of cross- reactivity to alloantigens , 1980, The Journal of experimental medicine.

[32]  G. Schönrich,et al.  Multiple levels of peripheral tolerance. , 1993, Immunology today.

[33]  T. Mak,et al.  Sequences and repertoire of the human T cell receptor α and β chain variable region genes in thymocytes , 1987 .

[34]  L. Hood,et al.  Diversity and structure of human T-cell receptor beta-chain variable region genes. , 1986, Proceedings of the National Academy of Sciences of the United States of America.