The hr-t gene of polyoma virus

Malignant transformation of cells by polyoma virus results from the continual expression of a viral gene (hr-t) the normal function of which is to facilitate productive viral infection. The series of investigations described here on the polyoma hr-t gene originated with attempts to understand polyoma virus-cell interactions along lines suggested by temperate bacteriophage. Nucleic acid hybridization experiments indicated clearly that viral DNA persists in transformed cells and continues to be expressed. Radiobiological and other experiments, however, suggested a function for the expressed gene(s) which was not expected of a prophage: the promotion, rather than repression, of lytic virus growth. The hr-t gene acts pleiotropically to alter the physiological state of the host in a manner which facilitates virus production and induces a transformed cellular phenotype. The cellular alterations are manifested transiently during productive infection or abortive transformation, but permanently when the viral genome is integrated in stably transformed cells. hr-t mutants are defective in their growth in mice and in most cultured mouse cell lines. They are also unable to induce tumors or any of the morphological, structural, or growth-related changes which accompany cells transformation by the wild-type virus.The 22 kDa and 56 kDa proteins encoded in the early region of the viral DNA constitute dual products of the hr-t gene. hr-t mutants are localized in a narrow segment of the early region that specifies an amino acid sequence shared by these two overlapping proteins. Current efforts to link structural (i.e., mutational) changes with functional changes in these proteins center around the 56 kDa middle T antigen and its associated protein kinase activity. Assayed in vitro, this activity leads to phosphorylation of the 56 kDa protein itself, predominantly at a specific tyrosine residue in the C-terminal portion of the molecule. The middle T protein is anchored in cellular membranes by a hydrophobic tail close to the C-terminus. Membrane association is essential for transformation, as well as for the kinase activity. The common region of the 22 kDa/56 kDa proteins where hr-t mutants map has local regions of homology with highly conserved sequences in the pituitary glycoprotein hormones. The integrity of this region is also essential for transformation and for kinase activity. In vivo, the 56 kDa protein is a substrate for cellular kinase(s) and undergoes multiple phosphorylations (serine and/or threonine) that may affect the tyrosine-specific activity. These kinase reactions, originating in cellular membrane but potentially affecting pathways into the cytoplasm and nucleus, currently provide the most plausible biochemical mechanism underlying the pleiotropic effects of the hr-t gene.