Multiple forms of polyoma virus tumor antigens from infected and transformed cells

Abstract

At least three distinct forms of polyoma virus tumor antigens were isolated from productively infected and transformed hamster cells by immunoprecipitation with anti-T serum. These proteins had approximate molecular weights of 105,000 (large T antigen), 63,000 (middle T antigen), and 20,000 (small T antigen) as estimated by acrylamide gel electrophoresis. An examination of the appearance of these antigens in polyoma-infected mouse cells showed that all three polypeptides were synthesized maximally at approximately the same time after infection. Analysis of the methionine-containing tryptic peptides of these proteins indicated that the large, middle, and small forms of polyoma T antigens contained five similar or identical peptides. In addition, the 63,000- and 20,000-dalton antigens contained two other methionine peptides absent from the large T-antigen species. Other methionine peptides were found only in the large or middle T-antigen forms. These results and results obtained previously suggested that the three T-antigen species have the same NH2-terminal end regions but different COOH termini. A model is presented describing the synthesis of these polypeptides from different regions of the polyoma virus genome.