Zika virus NS3 drives the assembly of a viroplasm-like structure
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Zika virus (ZIKV) is a mosquito-transmitted flavivirus that caused an epidemic in 2015-2016 in the Americas and raised serious global health concerns due to its association with congenital brain developmental defects in infected pregnancies. Upon infection, ZIKV assembles virus particles in a virus-generated toroidal compartment next to the nucleus called the replication factory, or viroplasm, which forms by remodeling the host cell endoplasmic reticulum (ER). How the viral proteins control viroplasm assembly remains unknown. Here we show that the ZIKV non-structural protein 3 (NS3) is sufficient to drive the assembly of a viroplasm-like structure (VLS) in human cells. NS3 encodes a dual-function protease and RNA helicase. The VLS is similar to the ZIKV viroplasm in its assembly near centrosomes at the nuclear periphery, its deformation of the nuclear membrane, its recruitment of ER, Golgi, and dsRNA, and its association with microtubules at its surface. While sufficient to generate a VLS, NS3 is less efficient in several aspects compared to viroplasm formation upon ZIKV infection. We further show that the helicase domain and not the protease domain is required for optimal VLS assembly and dsRNA recruitment. Overall, this work advances our understanding of the mechanism of viroplasm assembly by ZIKV and likely will extend to other flaviviruses.
Importance
The Zika virus replicates its genome and assembles virus particles in the cytoplasm within the replication organelle, a large virus-induced compartment also called the viroplasm. It does this in part by remodeling the endoplasmic reticulum. However, how the virus directs the host cell to assemble the viroplasm is mostly unknown. This study shows that Zika virus non-structural protein 3 (NS3) is sufficient to assemble a viroplasm-like structures, and indicates that NS3 has a central role in assembling the viroplasm. Understanding how the virus assembles the viroplasm compartment and NS3’s role in it should significantly advance our understanding of the cellular mechanisms of virus infection. This study aims to gain more understanding of the Zika virus and its viroplasm along with the molecular mechanisms for viroplasm assembly which might be shared by other viruses.