Transformation by hamster polyomavirus: identification and functional analysis of the early genes

Abstract

A strategy involving polymerase chain reaction amplification of cDNAs was designed to study the expression of the hamster polyomavirus (HaPV) early region in HaPV-transformed rat fibroblasts, productively HaPV-infected cells, and HaPV-induced lymphoma. We identified three mRNAs resulting from alternative splicing of open reading frames leading to coding capacities for three polypeptides with molecular weights similar to those of the murine polyomavirus large T, middle T (MT), and small T (ST) antigens. The corresponding intronless cDNAs direct the in vitro synthesis of polypeptides with the expected electrophoretic mobilities. The biological activities carried by the HaPV early genes were assayed by transfection of appropriate cell systems. The fragment of genomic viral DNA that encodes the three early antigens contains all of the genetic information necessary for immortalization of primary rat embryo fibroblasts and transformation of F111 rat cells. The large T antigen is sufficient for immortalization, although the MT and ST antigens stimulate the growth and modify the phenotype of immortal cell lines. A stringent cooperative effect was observed in the transformation of F111 cells, which requires the simultaneous presence of the MT and ST antigens, as opposed to the transformation by murine polyomavirus, which can be carried out by the MT antigen alone.