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The immune response to a chemically induced fibrosarcoma

A comparison of cytolytic T lymphocyte stimulation by transformed and non-transformed fibroblasts

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Summary

A clone of C3H10T 1/2 fibroblasts transformed in vitro with the carcinogen 3-methylcholanthrene readily produced tumors when as few as 103 cells were injected into immunocompetent adult syngeneic mice. A non-transformed clone of the same parentage did not produce tumors. Because the cell-mediated immune response has an important role in inhibiting the growth of tumors, we have compared the ability of both these transformed and non-transformed fibroblasts to stimulate and to act as targets in cell-mediated cytotoxicity (CMC) assays. This model is unique in that studies of the immune response to tumors rarely have or utilize appropriate normal controls. When both types of irradiated fibroblasts were used as stimulators in vitro, neither syngeneic nor allogeneic effector spleen cells capable of efficiently lysing the tumor fibroblasts were generated. In contrast, the normal fibroblasts could both stimulate and be lysed by allogeneic cytolytic T cells (CTL). However, the tumor fibroblasts could be lysed by allogeneic effector spleen cells that had been sensitized to C3H/He spleen cells. These results suggest that the expression of alloantigenic determinants necessary for stimulating a CMC response may vary substantially among ‘normal’ cell types. They further indicate that the tumor cells are not resistant to lysis by appropriately stimulated effector cells. Thus, they must express antigenic determinants necessary for immune lysis and they do not inhibit the functional expression of cytolytic cells once generated. Consequently, tumor growth in vivo may be dependent, in part, upon a failure of the syngeneic host's immunocompetent cells to respond appropriately to the tumor cells. Additional data are provided which suggest that this failure is attributable in large part to immunosuppressive properties of the tumor cells.

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References

  1. Altman A, Cohen I (1974) The nonspecific helper effect of mixed lymphocyte reactions on the induction of T cell-mediated immunity in vitro. Eur J Immunol 4:577

    Google Scholar 

  2. Bach F, Bach M, Sondel P (1976) Differential function of major histocompatibility complex antigens on T-lymphocyte activation. Nature 259:273

    Google Scholar 

  3. Bairle MF, Leventhal BG (1968) Possible mechanism for mycoplasma inhibition of lymphocyte transformation by phytohemagglutinin. Nature 219:751

    Google Scholar 

  4. Bonnard G, Manders EK, Campbell DA, Herberman RB, Collins MJ (1976) Immunosuppressive activity of a subline of the mouse EL-4 lymphoma. Evidence for minute virus of mice causing inhibition. J Exp Med 143:187

    Google Scholar 

  5. Chen TR (1977) In situ detection of mycoplasma contamination in cell cultures by fluorescent Hoechst 33258 stain. Exp Cell Res 104:255

    Google Scholar 

  6. Cohen A, Schlesinger M (1970) Absorption of guinea pig serum with agar: a method for elimination of its cytotoxicity for murine thymus cells. Transplantation 10:130

    Google Scholar 

  7. Collins J, Patek P, Cohn M (1981) Tumorigenicity and lysis by natural killers. J Exp Med 153:89

    Google Scholar 

  8. Embleton M, Heidelberger C (1972) Antigenicity of clones of mouse prostate cells transformed in vitro. Int J Cancer 9:8

    Google Scholar 

  9. Embleton M, Heidelberger C (1975) Neoantigens on chemically transformed cloned C3H mouse embryo cells. Cancer Res 35:2049

    Google Scholar 

  10. Forbes J, Nakao Y, Smith R (1975) Tumor-specific immunity to chemically induced tumors. Evidence for immunologic specificity and shared antigenicity in lymphocyte responses to soluble tumor antigens. J Exp Med 141:1181

    Google Scholar 

  11. Fulton A, Levy J (1980) Inhibition of murine tumor growth and prostaglandin synthesis by indomethacin. Int J Cancer 26:669

    Google Scholar 

  12. Goodwin J, Hubsy G, Williams R (1980) Prostaglandin E and cancer growth. Cancer Immunol Immunother 8:3

    Google Scholar 

  13. Herberman R (1974) Cell-mediated immunity to tumor cells. Adv Cancer Res 19:207

    Google Scholar 

  14. Kamo I, Friedman H (1977) Immunosuppression and the role of suppressive factors in cancer. Adv Cancer Res 25:271

    Google Scholar 

  15. Limberkoff MS, Thorbecke GJ, Thomas L (1969) Studies of PPLO infection. V. Inhibition of lymphocyte mitosis and antibody formation by mycoplasmal extracts. J Exp Med 129:1163

    Google Scholar 

  16. Mizel SB, DeLarco JE, Todaro GJ, Farrar WL, Hilfiker ML (1980) In vitro production of immunosuppressive factors by murine sarcoma virus-transformed mouse fibroblasts. Proc Natl Acad Sci USA 77:2205

    Google Scholar 

  17. Mondal S, Iype P, Griesbach L, Heidelberger C (1970) Antigenicity of cells after malignant transformation in vitro by carcinogenic hydrocarbons. Cancer Res 30:1593

    Google Scholar 

  18. Mondal S, Embleton M, Marquardt H, Heidelberger C (1971) Production of variants of decreased malignancy and antigenicity from clones transformed in vitro by methylcholanthrene. Int J Cancer 8:410

    Google Scholar 

  19. Notkins AL, Mergenhagen SE, Howard RJ (1970) Effect of virus infections on the function of the immune system. Annu Rev Microbiol 24:525

    Google Scholar 

  20. Plescia O, Smith A, Grinwich K (1975) Subversion of immune system by tumor cells and role of prostaglandins. Proc Natl Acad Sci 72:1848

    Google Scholar 

  21. Ponzio N, Lerman S, Chapman J, Thorbecke G (1977) Properties of reticulum cell sarcomas in SJL/J mice. IV. Minimal development of cytotoxic cells despite marked proliferation to syngeneic RCS in vivo and in vitro. Cell Immunol 32:10

    Google Scholar 

  22. Ponzio N (1980) Lymphocyte responses to syngeneic antigens. I. Enhancement of the murine autologous mixed lymphocyte response by polyethylene glycol. Cell Immunol 49:266

    Google Scholar 

  23. Rapp UR, Nowinski RC, Reznikoff CA, Heidelberger C (1975) Endogenous oncornaviruses in chemically induced transformation. I. Transformation independent of virus production. Virology 65:392

    Google Scholar 

  24. Reznikoff C, Brankow D, Heidelberger C (1973) Establishment and characterization of a cloned line of C3H mouse embryo cells sensitive to postconfluence inhibition of division. Cancer Res 33:3231

    Google Scholar 

  25. Reznikoff C, Bertram J, Brankow D, Heidelberger C (1973) Quantitative and qualitative studies of chemical transformation of cloned C3H mouse embryo cells sensitive to postconfluence inhibition of cell division. Cancer Res 33:3239

    Google Scholar 

  26. Stutman O (1975) Immunodepression and malignancy. Adv Cancer Res 22:261

    Google Scholar 

  27. Ting C, Rodrigues D, Ting R, Wivel N, Collins M (1979) Suppression of T cell-mediated immunity by tumor cells: immunogenicity versus immunosuppression and preliminary characterization of the suppressive factors. Int J Cancer 24:644

    Google Scholar 

  28. Vande Stowe R, Kunkel H, Hapler J, Weksler M (1977) Autologous mixed lymphocyte culture reactions and generation of cytotoxic T cells. J Exp Med 146:1809

    Google Scholar 

  29. Wagner H, Röllinghoff M (1978) T-T cell interactions during in vitro cytotoxic allograft responses. I. Soluble products from activated Ly 1+ T cells trigger autonomously antigen-primed Ly 23+ T cells to cell proliferation and cytolytic activity. J Exp Med 148:1523

    Google Scholar 

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Authors and Affiliations

  1. Department of Molecular and Cellular Biology, Division of Research, The Cleveland Clinic Foundation, 44106, Cleveland, Ohio

    Terry L. Bowlin & Max R. Proffitt

  2. Department of Biology, Cleveland State University, 44115, Cleveland, Ohio, USA

    Terry L. Bowlin & Max R. Proffitt

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  1. Terry L. Bowlin
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  2. Max R. Proffitt
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Bowlin, T.L., Proffitt, M.R. The immune response to a chemically induced fibrosarcoma. Cancer Immunol Immunother 13, 30–37 (1982). https://doi.org/10.1007/BF00200197

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  • DOI: https://doi.org/10.1007/BF00200197

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