Hsp90 Is Required for Snakehead Vesiculovirus Replication via Stabilization of the Viral L Protein.

Snakehead vesiculovirus (SHVV), a kind of fish rhabdovirus isolated from diseased hybrid snakehead fish, has caused great economic losses in snakehead fish culture in China. The large (L) protein, together with its cofactor phosphoprotein (P), forms a P/L polymerase complex and catalyzes the transcription and replication of viral genomic RNA. In this study, the cellular heat shock protein 90 (Hsp90) was identified as an interacting partner of SHVV L protein. Hsp90 activity was required for the stability of SHVV L because Hsp90 dysfunction caused by using its inhibitor destabilized SHVV L and thereby suppressed SHVV replication via reducing viral RNA synthesis. SHVV L expressed alone was detected mainly in the insoluble fraction, and the insoluble L was degraded by Hsp90 dysfunction through the proteasomal pathway, while the presence of SHVV P promoted the solubility of SHVV L and the soluble L was degraded by Hsp90 dysfunction through the autophagy pathway. Collectively, our data suggest that Hsp90 contributes to the maturation of SHVV L and ensures the effective replication of SHVV, which exhibits an important anti-SHVV target. This study will help us to understand the role of Hsp90 in stabilizing the L protein and regulating the replication of negative-stranded RNA viruses. IMPORTANCE It has long been proposed that cellular proteins are involved in viral RNA synthesis via interacting with the viral polymerase protein. This study focused on identifying cellular proteins interacting with the SHVV L protein, studying the effects of their interactions on SHVV replication, and revealing the underlying mechanisms. We identified Hsp90 as an interacting partner of SHVV L and found that Hsp90 activity was required for SHVV replication. Hsp90 functioned in maintaining the stability of SHVV L. Inhibition of Hsp90 activity with its inhibitor degraded SHVV L through different pathways based on the solubility of SHVV L due to the presence or absence of SHVV P. Our data provide important insights into the role of Hsp90 in SHVV polymerase maturation, which will help us to understand the polymerase function of negative-stranded RNA viruses.