Abstract
For a positive-strand RNA virus, the encoded viral RNA-dependent RNA polymerase (oRdRP) synthesizes complementary antigenome strand and uses it as a template for amplifying the viral genome, generating various replication intermediates. Structural proteins and viral genome are packaged into virions, but the fate of replication intermediates is underexplored. Here, we investigate Orsay Virus (OV) replication intermediates, including antigenome, oRdRP and double stranded RNA (dsRNA), using PCR and fluorescence-based imaging in C. elegans intestines. As for other positive-strand RNA viruses, we find that genome is in vast excess of antigenome. Antigenome is only visualized in cells when using denaturation protocols, indicating basepaired intermediates. OV antigenome is observed with distinct cytoplasmic and perinuclear localization patterns that depend on factors required for generation of primary, but not secondary, siRNAs. In both wildtype and RNA interference (RNAi) mutants, viral dsRNA is observed in the cytoplasm associated with oRdRP, suggesting cytoplasmic virus replication hubs. Additionally, using antibodies to oRdRP, we observed spherical structures of ~1μm in diameter defined by oRdRP at their surface; over 75% of infected wildtype animals show these structures, which associate with mitochondria and autophagosomes in an antiviral RNAi- and autophagy-dependent manner, respectively. Our study defines new features of OV replication intermediates in wildtype animals, setting the stage for understanding their connection to the viral life cycle and host antiviral pathways.