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01-07-2007 | Original Article

CD8⁺ T lymphocytes isolated from renal cancer patients recognize tumour cells through an HLA- and TCR/CD3-independent pathway

Authors: Ilaria Lionello, Patrizia Mangia, Luca Gattinoni, Daniela Pende, Arcadi Cippone, Marialuisa Sensi, Patrizio Rigatti, Catia Traversari

Published in: Cancer Immunology, Immunotherapy | Issue 7/2007

Abstract

Purpose

The aim of this study was to characterize the immune response of patients affected by renal cell carcinoma (RCC).

Methods

Long-term RCC lines were established by retroviral-mediated transfer of the large T-antigen of SV40 into fresh carcinoma cells. Reactive T cell effectors were generated by iterative stimulations of patients’ PBMC with autologous tumour cells.

Results

This protocol led to the induction of CD8⁺ T cell clones reactive against the autologous tumour, but not against NK-sensitive cell lines. However, some of these effectors recognize normal renal cells, allogeneic renal carcinoma cell lines and colon and non-small cell lung carcinomas but not melanomas and lymphoblastoid lines, without evidence of shared classical HLA class I (HLA-I) molecules. Further characterization performed on the CD8⁺ TCR α/β⁺ clone, CTL30, demonstrated that neither expression of CD1, HLA-Ia nor HLA-Ib, correlated with the T cells’ recognition. Moreover, β2m expression by target cells was not required to achieve interaction of tumour–effector cells. In agreement with this observation, the lytic activity of CTL30 was not inhibited by anti-HLA-I Ab, and antigen expression was not affected by inhibitors of antigen processing. Lytic activity of CTL30, while partially inhibited by anti-NKG2D, could not be abolished by anti-CD3 Abs. Moreover, growth and expansion of CTL30 was sustained only by T cell interaction with antigen-expressing tumour cells; unspecific mitogenic stimuli, such as anti-CD3 and PHA, did not allow T cell expansion. These results demonstrated the existence of an α/β T cell population, recognizing epithelial tumour cells through an HLA-unrestricted, CD3-independent mechanism.

Fisher RI, Rosenberg SA, Fyfe G (2000) Long-term survival update for high-dose recombinant interleukin-2 in patients with renal cell carcinoma. Cancer J Sci Am 6(Suppl 1):S55–S57PubMed

Negrier S (1998) Is interleukin 2 useful in oncology? Rev Prat 48:237–239PubMed

Childs R, Chernoff A, Contentin N, Bahceci E, Schrump D, Leitman S, Read EJ, Tisdale J, Dunbar C, Linehan WM, Young NS, Barrett AJ (2000) Regression of metastatic renal-cell carcinoma after nonmyeloablative allogeneic peripheral-blood stem-cell transplantation. N Engl J Med 343:750–758PubMedCrossRef

Gattinoni L, Alu M, Ferrari L, Nova P, Del Vecchio M, Procopio G, Laudani A, Agostara B, Bajetta E (2003) Renal cancer treatment: a review of the literature. Tumori 89:476–484PubMed

Dorrschuck A, Schmidt A, Schnurer E, Gluckmann M, Albrecht C, Wolfel C, Lennerz V, Lifke A, Di Natale C, Ranieri E, Gesualdo L, Huber C, Karas M, Wolfel T, Herr W (2004) CD8+ cytotoxic T lymphocytes isolated from allogeneic healthy donors recognize HLA class Ia/Ib-associated renal carcinoma antigens with ubiquitous or restricted tissue expression. Blood 104:2591–2599PubMedCrossRef

Van Den Eynde BJ, Gaugler B, Probst-Kepper M, Michaux L, Devuyst O, Lorge F, Weynants P, Boon T (1999) A new antigen recognized by cytolytic T lymphocytes on a human kidney tumor results from reverse strand transcription. J Exp Med 190:1793–1800CrossRef

Gaugler B, Brouwenstijn N, Vantomme V, Szikora JP, Van der Spek CW, Patard JJ, Boon T, Schrier P, Van den Eynde BJ (1996) A new gene coding for an antigen recognized by autologous cytolytic T lymphocytes on a human renal carcinoma. Immunogenetics 44:323–330PubMed

Gaudin C, Kremer F, Angevin E, Scott V, Triebel F (1999) A hsp70-2 mutation recognized by CTL on a human renal cell carcinoma. J Immunol 162:1730–1738PubMed

Brandle D, Brasseur F, Weynants P, Boon T, Van den Eynde B (1996) A mutated HLA-A2 molecule recognized by autologous cytotoxic T lymphocytes on a human renal cell carcinoma. J Exp Med 183:2501–2508PubMedCrossRef

10.

Maccalli C, Pende D, Castelli C, Mingari MC, Robbins PF, Parmiani G (2003) NKG2D engagement of colorectal cancer-specific T cells strengthens TCR-mediated antigen stimulation and elicits TCR independent anti-tumor activity. Eur J Immunol 33:2033–2043PubMedCrossRef

11.

Li P, Morris DL, Willcox BE, Steinle A, Spies T, Strong RK (2001) Complex structure of the activating immunoreceptor NKG2D and its MHC class I-like ligand MICA. Nat Immunol 2:443–451PubMed

12.

Cosman D, Mullberg J, Sutherland CL, Chin W, Armitage R, Fanslow W, Kubin M, Chalupny NJ (2001) ULBPs, novel MHC class I-related molecules, bind to CMV glycoprotein UL16 and stimulate NK cytotoxicity through the NKG2D receptor. Immunity 14:123–133PubMedCrossRef

13.

Pende D, Rivera P, Marcenaro S, Chang CC, Biassoni R, Conte R, Kubin M, Cosman D, Ferrone S, Moretta L, Moretta A (2002) Major histocompatibility complex class I-related chain A and UL16-binding protein expression on tumor cell lines of different histotypes: analysis of tumor susceptibility to NKG2D-dependent natural killer cell cytotoxicity. Cancer Res 62:6178–6186PubMed

14.

Foley GE, Lazarus H, Farber S, Uzman BG, Boone BA, McCarthy RE (1965) Continuous culture of human lymphoblasts from peripheral blood of a child with acute leukemia. Cancer 18:522–529PubMedCrossRef

15.

Gazdar AF, Oie HK (1986) Re: growth of cell lines and clinical specimens of human non-small cell lung cancer in a serum-free defined medium. Cancer Res 46:6011–6012PubMed

16.

Fleischhauer K, Tanzarella S, Russo V, Sensi ML, van der Bruggen P, Bordignon C, Traversari C (1997) Functional heterogeneity of HLA-A*02 subtypes revealed by presentation of a MAGE-3-encoded peptide to cytotoxic T cell clones. J Immunol 159:2513–2521PubMed

17.

Lustig AJ (1999) Crisis intervention: the role of telomerase. Proc Natl Acad Sci USA 96:3339–3341PubMedCrossRef

18.

Mavilio F, Ferrari G, Rossini S, Nobili N, Bonini C, Casorati G, Traversari C, Bordignon C (1994) Peripheral blood lymphocytes as target cells of retroviral vector-mediated gene transfer. Blood 83:1988–1997PubMed

19.

Lupetti R, Pisarra P, Verrecchia A, Farina C, Nicolini G, Anichini A, Bordignon C, Sensi M, Parmiani G, Traversari C (1998) Translation of a retained intron in tyrosinase-related protein (TRP) 2 mRNA generates a new cytotoxic T lymphocyte (CTL)-defined and shared human melanoma antigen not expressed in normal cells of the melanocytic lineage. J Exp Med 188:1005–1016PubMedCrossRef

20.

Van den Eynde B, Hainaut P, Herin M, Knuth A, Lemoine C, Weynants P, van der Bruggen P, Fauchet R, Boon T (1989) Presence on a human melanoma of multiple antigens recognized by autologous CTL. Int J Cancer 44:634–640PubMedCrossRef

21.

Pende D, Cantoni C, Rivera P, Vitale M, Castriconi R, Marcenaro S, Nanni M, Biassoni R, Bottino C, Moretta A, Moretta L (2001) Role of NKG2D in tumor cell lysis mediated by human NK cells: cooperation with natural cytotoxicity receptors and capability of recognizing tumors of nonepithelial origin. Eur J Immunol 31:1076–1086PubMedCrossRef

22.

Katz G, Gazit R, Arnon TI, Gonen-Gross T, Tarcic G, Markel G, Gruda R, Achdout H, Drize O, Merims S, Mandelboim O (2004) MHC class I-independent recognition of NK-activating receptor KIR2DS4. J Immunol 173:1819–1825PubMed

23.

Traversari C, van der Bruggen P, Van den Eynde B, Hainaut P, Lemoine C, Ohta N, Old L, Boon T (1992) Transfection and expression of a gene coding for a human melanoma antigen recognized by autologous cytolytic T lymphocytes. Immunogenetics 35:145–152PubMedCrossRef

24.

Coulie PG, Brichard V, Van Pel A, Wolfel T, Schneider J, Traversari C, Mattei S, De Plaen E, Lurquin C, Szikora JP, et al (1994) A new gene coding for a differentiation antigen recognized by autologous cytolytic T lymphocytes on HLA-A2 melanomas. J Exp Med 180:35–42PubMedCrossRef

25.

Hahn WC, Counter CM, Lundberg AS, Beijersbergen RL, Brooks MW, Weinberg RA (1999) Creation of human tumour cells with defined genetic elements. Nature 400:464–468PubMedCrossRef

26.

Bottino C, Castriconi R, Pende D, Rivera P, Nanni M, Carnemolla B, Cantoni C, Grassi J, Marcenaro S, Reymond N, Vitale M, Moretta L, Lopez M, Moretta A (2003) Identification of PVR (CD155) and Nectin-2 (CD112) as cell surface ligands for the human DNAM-1 (CD226) activating molecule. J Exp Med 198:557–567PubMedCrossRef

27.

Braud VM, Allan DS, McMichael AJ (1999) Functions of nonclassical MHC and non-MHC-encoded class I molecules. Curr Opin Immunol 11:100–108PubMedCrossRef

28.

Moody DB, Porcelli SA (2003) Intracellular pathways of CD1 antigen presentation. Nat Rev Immunol 3:11–22PubMedCrossRef

29.

Barnd DL, Lan MS, Metzgar RS, Finn OJ (1989) Specific, major histocompatibility complex-unrestricted recognition of tumor-associated mucins by human cytotoxic T cells. Proc Natl Acad Sci USA 86:7159–7163PubMedCrossRef

30.

Nistico P, De Berardinis P, Morrone S, Alonzi T, Buono C, Venturo I, Natali PG (1994) Generation and characterization of two human alpha/beta T cell clones. Recognizing autologous breast tumor cells through an HLA- and TCR/CD3-independent pathway. J Clin Invest 94:1426–1431PubMedCrossRef

31.

Fleischhauer K, Tanzarella S, Wallny HJ, Bordignon C, Traversari C (1996) Multiple HLA-A alleles can present an immunodominant peptide of the human melanoma antigen Melan-A/MART-1 to a peptide-specific HLA-A*0201+ cytotoxic T cell line. J Immunol 157:787–797PubMed

32.

Yssel H, Spits H, de Vries JE (1984) A cloned human T cell line cytotoxic for autologous and allogeneic B lymphoma cells. J Exp Med 160:239–254PubMedCrossRef

33.

Bright RK, Kimchi ET, Shearer MH, Kennedy RC, Pass HI (2002) SV40 Tag-specific cytotoxic T lymphocytes generated from the peripheral blood of malignant pleural mesothelioma patients. Cancer Immunol Immunother 50:682–690PubMedCrossRef

34.

Moretta L, Romagnani C, Pietra G, Moretta A, Mingari MC (2003) NK-CTLs, a novel HLA-E-restricted T-cell subset. Trends Immunol 24:136–143PubMedCrossRef

35.

Falk CS, Noessner E, Weiss EH, Schendel DJ (2002) Retaliation against tumor cells showing aberrant HLA expression using lymphokine activated killer-derived T cells. Cancer Res 62:480–487PubMed

36.

Snyder MR, Weyand CM, Goronzy JJ (2004) The double life of NK receptors: stimulation or co-stimulation? Trends Immunol 25:25–32PubMedCrossRef

37.

Seino KI, Fujii SI, Harada M, Motohashi S, Nakayama T, Fujisawa T, Taniguchi M (2005) Valpha14 NKT cell-mediated anti-tumor responses and their clinical application. Springer Semin Immunopathol 27:65–74

Title: CD8+ T lymphocytes isolated from renal cancer patients recognize tumour cells through an HLA- and TCR/CD3-independent pathway
Authors: Ilaria Lionello
Patrizia Mangia
Luca Gattinoni
Daniela Pende
Arcadi Cippone
Marialuisa Sensi
Patrizio Rigatti
Catia Traversari
Publication date: 01-07-2007
Publisher: Springer-Verlag
Published in: Cancer Immunology, Immunotherapy / Issue 7/2007
Print ISSN: 0340-7004
Electronic ISSN: 1432-0851
DOI: https://doi.org/10.1007/s00262-006-0268-x

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