Cellular alterations dependent upon the polyoma virus Hr-t function: separation of mitogenic from transforming capacities.

Hr-t mutants of polyoma virus are restricted in their growth properties (host range) and defective in cell transformation and tumor induction. The present study indicates that these mutants have lost the ability to induce morphological transformation, but have retained a mitogenic function. Thus an early and dramatic difference between wild-type virus and hr-t mutant-infected cultures of rat fibroblasts is the morphological change in individual cells observed by light, fluorescence and scanning electron microscopy. Viruses containing an intact hr-t function (wild-type virus and ts-a mutants) induce a transformed phenotype consisting of stellate cell shape, loss of defined cytoplasmic actin architecture, cellular "underlapping," and increased nuclear and nucleolar sizes. These prominent alterations constitute an abortive transformation, peaking 24-48 hr post-infection, and subsequently resolving in most or all of the cells. In contrast, cells infected with hr-t mutants do not develop the above structural changes, but rather retain their preinfection appearance. Both wild-type virus and hr-t mutants induce cellular DNA synthesis in confluent monolayers of rat cells beginning 12-14 hr post-infection. Flow microfluorometric (FMF) analysis confirms the viral mediated transit of cells from the G1 to the S and G2 phases of the cell cycle, as well as an increase in the proportion of cells with an 8N (octaploid) DNA content. Approximately 50% of the clones isolated from wild-type-infected cultures are polyploid. Stable transformants are found among these polyploid clones, but the majority of the latter resemble the parental cells in their morphology and growth properties. Polyploid clones are derived from hr-t mutant-infected cultures at a much lower frequency, similar to that of mock-infected cultures. Data obtained by sequential labeling of infected cultures with 3 H-thymidine and 5-bromo-deoxyuridine, together with cell number quantitation, indicate that hr-t mutants promote only a single round of cell division, while the wild-type virus and ts-a mutants promote multiple rounds. Loss of the hr-t function in polyoma virus therefore reveals a residual viral mitogenic activity, but prevents the virus from effecting morphological transformation of cells with concomitant loss of defined actin cables, polyploidization and multiple cycles of cell division in confluent cultures.