Cell-type-specific growth restriction of vesicular stomatitis virus polR mutants is linked to defective viral polymerase function.

Vesicular stomatitis virus polR mutants synthesize defective RNA replication products in vitro and display growth restriction in some cultured cells (J. L. Chuang, R. L. Jackson, and J. Perrault, Virology 229:57-67, 1997). We show here that a recombinant virus carrying the polR N protein mutation (R179H) yielded approximately 100-fold- and approximately 40-fold-lower amounts of infectious virus than the wild type in mouse L-929 and rat 3Y1 cells, respectively, but only approximately 3-fold less in hamster BHK cells. Virus genome accumulation was inhibited 6- to 10-fold in restricting cells, but transcription was not affected. No defect in encapsidation of replication products was detected, but virus protein accumulation was reduced two- to threefold in both restricting and nonrestricting cells. polR virus particles released from the latter were 5- to 10-fold less infectious than the wild type but showed no difference in protein composition. Phosphorylation of the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2alpha) was enhanced approximately 3-fold in polR versus wild-type virus-infected L-929 cells, but neither inhibition of host gene transcription nor inhibition of double-stranded RNA (dsRNA)-activated protein kinase showed significant effects on restriction. Conditioned medium studies revealed no evidence for secretion of antiviral factors from restricting cells. We conclude that the block in polR growth is due to the combined effect of reduced genome replication and lower infectivity of released virus particles and may be due to overproduction of dsRNA. An accompanying paper (D. Ostertag, T. M. Hoblitzell-Ostertag, and J. Perrault, J. Virol. 81:503-513, 2007) provides compelling evidence for the role of dsRNA in this unique restriction phenomenon.