Abstract
A cellular protein, non-POU-domain-containing octamer binding protein (NONO), bound to the replication complex of Japanese encephalitis virus (JEV) by directly interacting with the viral 3' UTR RNA and NS3 protein. These interactions were also identified in West Nile virus (WNV) and Zika virus (ZIKV). The infection of JEV or the expression of JEV NS3 protein in cells could induce relocation of NONO protein from the nucleus to the cytoplasm. In JEV-infected cells, the NS3, NS5, and viral RNA could be concurrently detected in the immunoprecipitation by the NONO-specific antibody, suggesting that NONO could integrate into the replication complex of JEV. Further results of co-immunoprecipitation assays showed that NONO protein interacted with NS3 helicase domains 1 and 2 by its two RNA recognize motifs (RRMs). The knockdown and knockout of NONO in cells could significantly reduce the replication of JEV and ZIKV but had no effect on the replication of vesicular stomatitis virus (VSV). The effect of NONO protein on JEV proliferation occurred during the replication stage, rather than the attachment and entry stages. The level of viral positive-strand RNA in NONO knockout cells was significantly reduced than that in wild-type cells at 12-48 h post-JEV infection. However, the level of negative-strand virus RNA had no difference between NONO knockout and wild-type cells at 12-24 h post-infection. In summary, our study identified a cellular protein that bound to the replication complex of flavivirus and facilitated the synthesis of positive-strand RNA.IMPORTANCEOver half of the world's population is at risk of flaviviruses infection, posing a serious global health concern. To date, there are no antiviral drugs or treatments for the severe symptoms caused by the infection of flaviviruses. Some cellular proteins could participate in the replication of virus, and these cellular proteins were also ideal targets in antiviral strategy. Here, we identified cellular NONO protein was recruited by flavivirus NS3 protein to the cytoplasm, serving as a "scaffold" for viral replication complex. Our findings also revealed that NONO protein was critical for flavivirus positive-strand RNA synthesis. Specific areas where NONO interacted with flavivirus NS3 proteins and viral UTRs have also been identified. These results propose a new mechanism for cellular protein to participate in flavivirus replication and also raise a new potential anti-flavivirus strategy.
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