Tumor antigens induced by nontransforming mutants of polyoma virus.

We have studied the tumor (T) antigens induced by wild-type polyoma virus and several nontransforming mutants using immunoprecipitation with antisera from animals bearing polyomya-induced tumors followed by sodium dodecylsulfate (SDS)-polyacrylamide gel electrophoresis. In a variety of mouse cells, wild-type virus induces a major T antigen species with apparent molecular weight of 100,000 daltons, and four minor T antigen species with apparent molecular weights of 63,000, 56,000, 36,000 and 22,000 daltons. Hr-t mutants, which have an absolute defect in transformation, induce a normal 100,000 dalton T antigen but are altered in the minor T antigen species. Hr-t deletion mutants induce none of the minor T antigen species seen in wild-type virus. In their place, these mutants induce T antigen species with molecular weights in the range of 6,000--9,000 daltons. The size of the very small T antigen products does not correlate in any simple way with the size or location of the deletions in the viral DNA. Point hr-t mutants induce two of the four minor T antigen species; they make apparently normal amounts of the 56,000 dalton product and reduced amounts of the 22,000 dalton product, but none of the 63,000 or 36,000 dalton species. Ts-a mutants, which have a temperature-sensitive defect in the ability to induce stable transformation, and which complement hr-t mutants, induce T antigens with the same mobility as wild-type; however, the 100,000 dalton T antigen of ts-a mutants is thermolabile compared to wild-type. A double mutant virus carrying both a ts-a mutation and a deletion hr-t mutation induces a thermolabile 100,000 dalton product and none of the minor T antigen species. Cell fractionation studies with productively infected cells have been carried out to localize the T antigen species.