Apoptosis reduces both the in vitro replication and the in vivo infectivity of a baculovirus.

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J Virol. 1993 July; 67(7): 3730-3738

Apoptosis reduces both the in vitro replication and the in vivo infectivity of a baculovirus.

R J Clem and L K Miller

Department of Genetics, University of Georgia, Athens 30602-2603.

ABSTRACT

Apoptotic programmed cell death occurs when the insect cellline SF-21, derived from Spodoptera frugiperda, is infectedwith mutants of the baculovirus Autographa californica nuclearpolyhedrosis virus (AcMNPV) which lack a functional p35 gene.However, infection of the Trichoplusia ni TN-368 cell line withp35 mutants does not result in apoptosis (R. Clem, M. Fechheimer,and L. Miller, Science 254:1388-1390, 1991). We have examinedthe effect of apoptosis on AcMNPV infections in cell lines andlarvae of these two insect species. Production of viral progenywas significantly lower in SF-21 cells infected with p35 mutantsthan in cells infected with wild-type (wt) or revertant viruses.Viral gene expression was abnormal in SF-21 cells infected withp35 mutants; there was a delay in the transcription and translationof early and late viral genes, a lack of expression of verylate genes, and a total cessation of protein synthesis latein the apoptotic process. In vivo analysis revealed that thedose of budded virus required for 50% lethality in S. frugiperdalarvae was approximately 1,000-fold higher for p35 mutants thanfor wt or revertant viruses. In contrast, the replication andinfectivity of p35 mutant viruses was equivalent to that ofwt AcMNPV during infection of both TN-368 cells and T. ni larvae.Thus, the data indicate that a host apoptotic response providesprotection against viral infection at the organismal level andthat the p35 gene constitutes a host range determinant for AcMNPVinfection.

J Virol. 1993 July; 67(7): 3730-3738

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