Changes of the immunogenic properties of a radiation-induced mouse lymphoma following treatment with antitumor drugs.

Eight sublines of the radiation-induced lymphoma S-1033 of C57BL/10 (hereafter called B10) origin were established by exposing the cells in vivo to eight antineoplastic agents for a number of transplant generations. The parental and drug-treated sublines were tested for immunogenic properties, i.e., the ability to elicit allograft reactions in the host of origin and in congenic-resistant mice differing for the S-D or K-I-S regions of the H-2 complex. Lymphoma S-1033 and all drug-treated sublines except one were found to be essentially nonimmunogenic for B10 mice. The S-DIC subline, when exposed for 8 to 12 transplant generations to dimethyltriazenoimidazolecarboxamide, became immunogenic for syngeneic B10 mice, as judged from prolongation of survival time. Large i.v. inocula (10(7) cells) of S-1033 and of the drug-treated sublines, with the possible exception of the cyclophosphamide-treated and dimethyltriazenoimideazolecarboxamide-treated lymphomas, were more effectively rejected by K-I-S- than by S-D-incompatible mice. Dilution escape (i.e., tumor rejection after challenge with large inocula, and lethal tumor growth after injection of small inocula of lymphoma cells in allogeneic recipients) occurred in K-I-S-incompatible mice that were inoculated with S-1033 and three drug-treated (5-fluorouracil, cyclophosphamide, and pyrazocarboxamideamino) sublines. No dilution escape occurred with dimethyltriazenoimidazolecarboxamide or bischloroethylnitrosourea sublines. These data favor the hypothesis that various types of immunogenic changes of neoplastic cells may occur in tumor-bearing hosts following treatment with antineoplastic agents in vivo.