Susceptibility of human cells to killing by the parvoviruses H-1 and minute virus of mice correlates with viral transcription

Human fibroblasts and epithelial cells differing in their susceptibility to killing by the autonomous parvoviruses H-1 and minute virus of mice were compared for their capacity to express viral mRNAs and proteins. The transition from a parvovirus-resistant to a parvovirus-sensitive phenotype correlated with a proportional increase in the production of the three major viral transcripts and of structural and nonstructural proteins. In contrast, cell sensitization to parvovirus could not be correlated with detectable changes in virus uptake, intracellular localization of gene products, stability of viral mRNAs, or phosphorylation of viral nonstructural polypeptides. Moreover, the H-1 virus-sensitive keratinocyte line studied did not sustain a greater level of viral DNA amplification than its resistant derivative. Therefore, the differential susceptibility of the human cells tested to parvovirus infection appears to be mainly controlled at the level of transcription of the viral genome. Parvoviral gene expression could not be elevated by increasing the input multiplicity of infection in either of the cell systems analyzed. Together, these data suggest that a cellular factor(s) regulating parvoviral transcription may be modulated by oncogenic transformation or by differentiation, as both features have been shown to affect cell susceptibility to parvoviruses.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Sensitiztion of transformed rat fibroblasts to killing by parvovirus minute virus of mice correlates with an increase in viral gene expression

Cultures of established rat fibroblasts transformed by the avian erythroblastosis virus were more susceptible to the cytopathic effect of the autonomous parvovirus minute virus of mice, prototype strain (MVMp), than were their untransformed homologs. This effect could be ascribed to the presence of a greater fraction of cells that were sensitive to the killing action of MVMp in transformed cultures than in their normal parents. Yet, transformed and normal lines were similarly efficient in virus uptake, DNA amplification, and capsid protein synthesis. In contrast, transformants accumulated 2.5- to 3-fold greater amounts of all three major MVM mRNA species and nonstructural protein than did their normal progenitors. Thus, in this system transformation-associated sensitization of cells to MVMp appears to correlate primarily with an increase in their capacity for the expression of the viral transcription unit which encodes nonstructural proteins and is controlled by the P4 promoter. Consistently, a report gene was expressed at a higher level by transformed versus normal cultures, when placed under the control of the MVM P4 promoter. As infectious MVMp was produced in larger amounts by transformed cultures, a late step of the parvoviral cycle, such as synthesis, encapsidation of progeny DNA, or both, was also stimulated in the transformed cells.SCOPUS: NotDefined.jinfo:eu-repo/semantics/publishe

Limitations to the expression of parvoviral nonstructural proteins may determine the extent of sensitization of EJ-ras-transformed rat cells to minute virus of mice

The FR3T3 and NRK rat cell lines and their human EJ Ha-ras-1 oncogene-transformed derivatives, termed FREJ and NREJ, were compared for their susceptibility to the parvovirus MVMp. For a similar production of p21ras protein, FREJ clones are markedly sensitized to killing by MVMp, whereas the NREJ cells are not. Such a contrasting effect of ras transformation on the sensitivity of cells of different origins to MVMp can be traced back to their respective abilities to support the parvoviral life cycle. The FR3T3 line produces a substantial amount of viral DNA whose expression in the form of the nonstructural protein NS-1 is stimulated in its transformed derivatives. Conversely, NRK cells offer an early block to parvoviral DNA replication and expression that appears to persist in the ras-transformed clones. Thus, at least two intracellular restrictions can protect normal rat cells against MVMp infection, and transformation by ras relieves one of them at the level of parvoviral gene expression. A fair correlation was also found between the degree of sensitivity of the various lines to MVMp-induced killing and their capacity to synthesize the nonstructural viral proteins, suggesting a possible role of parvoviral nonstructural proteins in cytotoxicity. © 1989.SCOPUS: ar.jinfo:eu-repo/semantics/publishe