Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) contains a 966 bp ORF that encodes a papain type cysteine proteinase with cathepsin L-like characteristics. Using Western blot analysis of infected cell extracts we showed that v-cath proteinase has 35.5 kDa and 32 kDa precursor forms which are processed to a 27.5kDa mature form in a manner characteristic of papain and cathepsin L. V-cath proteinase activity was greatest under acidic conditions (pH 5.0) and was reduced in the presence of the cysteine proteinase inhibitors, leupeptin and E64. Urea, a known enhancer of cathepsin L activity, also enhanced v-cath proteinase activity. AcMNPV v-cath proteinase was detected post-mortem in tissues of insects infected with wild-type (wt) virus. Insects infected with a v-cath deletion mutant did not become flaccid after death as is normally observed with wt AcMNPV infections. These findings indicate a link between v-cath activity and degradation of host tissues during virus pathogenesis.
In nature, nuclear polyhedrosis viruses (NPV) are transmitted when susceptible insect larvae ingest viral occlusion bodies (OB). These dissociate in the alkaline environment of the midgut and release encapsulated virions (PDV) which bind to midgut epithelial cells and initiate an infection. A previous study showed that expression of the Autographa californica NPV (AcMNPV) p74 gene during replication is essential for the production of infectious OB. A set of p74 deletion and overexpression recombinants was used for the production and screening of monoclonal antibodies, and for an investigation of gross cytopathology and localization of p74. No differences in virus structure or morphogenesis were observed in infected cells when the p74 gene of AcMNPV was deleted, even though the infectivity of OB harvested from the cells was abolished when they were fed to Trichoplusia ni
SUMMARYThe role of the Autographa cali]brniea nuclear polyhedrosis virus pl0 gene in viral cytopathology and morphogenesis was examined using classes of pl 0 deletion mutants with and without lacZ (fl-galactosidase) gene fusion. Mutant-infected cells did not form the fibrillar cytoplasmic and nuclear structures normally observed late in infection with wild-type (wt) virus, and the cells failed to lyse even at 2 weeks post-infection. Based on wt and mutant cytopathology, we suggest lysis may be facilitated by stepwise exhaustion of the host nuclear membrane, and may require a function resident in the carboxy region of p 10; this portion of the molecule is also essential for formation of the p 10-rich fibrillar bodies. Additional changes in cytopathology were correlated with the level of p 10/LacZ fusion protein expression. The insertional mutant designated Ac229, which encodes 51 N-terminal amino acids of pl0 fused to LacZ, caused intranuclear accumulation of granular structures at sites corresponding to the fibrillar bodies of wt viral infections. Occlusion body membranes, which associate with the fibrillar bodies in wt infections, were also formed in mutant virus-infected cells. However, membranes did not associate with occlusion bodies in Ac229 infections, and were aberrantly attached to occlusion bodies in cells infected with mutants having simple p 10 deletions (represented by Ac231). Loss of the outer membrane increased sensitivity of the occlusion bodies to disruption by physical stress; a partially attached membrane afforded some protection from disruption.
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