Characterization of a progressive tumor from C3H fibroblasts transformed in vitro with SV40 virus. Immunoresistance in vivo correlates with phenotypic loss of H-2Kk.

Cultured SV40-transformed fibroblasts from C3H mice (SV-C3H) were "adapted" to in vivo growth by serial passage through sublethally irradiated, syngeneic recipients. After four in vivo passages, a population of cells was obtained (V4) that was weakly oncogenic in nonirradiated mice. Cells isolated from large V4 tumors (V5) were found to be highly oncogenic, producing lethal tumors at doses of less than 10(3) cells. V5 is insensitive to SV40-specific transplantation immunity in syngeneic animals but can be rejected completely by H-2 allogeneic mice. In vitro studies revealed that although V4 and the parent SV-C3H cells can induce SV40-specific cytotoxic T cells (CTL) in vitro and are lysed by these CTL, V5 does neither. The failure of V5 to interact with CTL was traced to the loss of H-2Kk antigen expression on these cells. The correlation between H-2Kk loss and immunoresistance in vivo suggests a central role for the cytotoxic T cell in in vivo tumor elimination in this system.