Hsp90 Regulates GCRV-II Proliferation by Interacting with VP35 as Its Receptor and Chaperone

The frequent outbreak of grass carp hemorrhagic disease caused by grass carp reovirus (GCRV), especially the mainly prevalent type II GCRV (GCRV-II), has seriously affected the grass carp culture in China. However, its pathogenic mechanism is still far from clear. In this study, the GCRV-II outer capsid protein VP35 was used as bait to capture interacting partners from Ctenopharyngon idellus kidney (CIK) cells, and heat shock protein 90 (HSP90) was selected and confirmed interacting with VP35 through the C-terminal domain of HSP90. Knockdown of HSP90 or inhibition of HSP90 activity suppressed GCRV-II proliferation, demonstrating that HSP90 is an essential factor for GCRV-II proliferation. The confocal microscopy and flow cytometry showed that HSP90 localized at both membrane and cytoplasm of CIK cells. The entry of GCRV-II into CIK cells was efficiently blocked by incubating the cells with HSP90 antibody or by pretreating the virus with recombinant HSP90 protein. Whereas overexpression of HSP90 in CIK cells, grass carp ovary (GCO) cells, or 293T cells promoted GCRV-II entry, indicating that the membrane HSP90 functions as a receptor of GCRV-II. Furthermore, HSP90 interacted with clathrin and mediated GCRV-II entry into CIK cells through clathrin endocytosis pathway. In addition, we found that the cytoplasmic HSP90 acted as a chaperone of VP35 because inhibition of HSP90 activity enhanced VP35 polyubiquitination and degraded VP35 through the Proteasome pathway. Collectively, our data suggest that HSP90 functions both as a receptor for GCRV-II entry and a chaperone for the maturation of GCRV-II VP35, thus ensuring efficient proliferation of GCRV-II. IMPORTANCE Identification of viral receptors has always been the research hot spot in virus research field as receptor functions at the first stage of viral Infection, which can be designed as efficient Antiviral drug targets. GCRV-II, the causative agent of the grass carp epidemic hemorrhagic disease, has caused tremendous losses in grass carp culture in China. To date, the receptor of GCRV-II remains unknown. This study focused on identifying cellular receptor interacting with the GCRV-II outer capsid protein VP35, studying the effects of their interaction on GCRV-II proliferation, and revealing the underlying mechanisms. We demonstrated that HSP90 acts both as a receptor of GCRV-II by interacting with VP35 and as a chaperone for the maturation of VP35, thus ensuring efficient proliferation of GCRV-II. Our data provide important insights into the role of HSP90 in GCRV-II life cycle, which will help understand the mechanism of reovirus Infection.