Transformation of hamster embryo cells by chymotrypsin-treated and untreated polyoma virus: characterization of transformants.

The ability of chymotrypsin-treated (chymo+) and untreated (chymo-) polyoma virus to transform cultured hamster embryo fibroblasts was examined. The data show that exposure to this protease reduces the ability of the virus to transform non-permissive cells to essentially the same extent as it reduces its ability to replicate in permissive cells. Twenty-five lines of transformed cells were established from colonies growing in soft agar, and after 20 in vitro passages, cells of all lines were characterized with respect to their ability to form colonies in soft agar and their tumorigenicity in hamsters. While the studies showed that there are striking differences among the lines with respect to colony-forming ability, and real, though less striking differences in tumorigenicity, they failed to reveal any obvious differences between the groups of cell lines transformed by chymo- and chymo+ polyoma virus. Of 13 lines examined, all were found to express both middle and small polyoma T antigens, none express significant levels of large T antigen, and 11 express some form of what is probably a truncated large T antigen, the most common species having a molecular weight of 67000.