An Aquareovirus Exploits Membrane-Anchored HSP70 To Promote Viral Entry
Guoli Hou, Qiushi Zhang, Chun Li, Geye Ding, Lingling Hu, Xiaoying Chen, Zhao Lv, Yuding Fan, Jun Zou, Tiaoyi Xiao, Yong‐An Zhang, Junhua Li
Abstract
The seasonality of viral diseases in ectotherms is a prevailing phenomenon in the aquatic environment, which causes huge economic losses every year worldwide and hinders sustainable development of the aquaculture industry. Nevertheless, our understanding of the molecular mechanism of how temperature determines the pathogenesis of aquatic viruses remains largely unexplored. In this study, by deploying grass carp reovirus (GCRV) infection as a model system, we demonstrated that temperature-dependent, primarily membrane-localized HSP70 interacts with major outer capsid protein VP7 of GCRV to bridge the virus-host interaction, reshape the host's behaviors, and concomitantly facilitate viral entry. Our work unveils a central role of HSP70 in the temperature-dependent pathogenesis of aquatic viruses and provides a theoretical basis for the formulation of prevention and control strategies for aquatic viral diseases.