The Japanese Encephalitis Virus NS1' Protein Inhibits Type I IFN Production by Targeting MAVS.

Japanese encephalitis virus (JEV) is a mosquito-borne Flavivirus that causes severe neurologic disease in humans. NS1' is a NS1-related protein only reported in the Japanese encephalitis serogroup members of Flavivirus It is produced through programmed -1 ribosomal frameshift in NS2A. Our previous study demonstrated that JEV NS1' could antagonize type I IFN (IFN-I) production, but the mechanism is still unclear. In the current study, we found that JEV NS1' inhibits the expression of MAVS, and knockdown of MAVS hampers inhibition of IFN-β induction by NS1', suggesting that JEV NS1' inhibits IFN-I production by targeting MAVS. This finding is further supported by the result of the in vivo assay that showed the similar mortality caused by NS1'-deficient virus and its wild type virus in MAVS-deficient mice. Based on our previous sequencing results of noncoding RNA in JEV-infected cells, microRNA-22 (miR-22) was identified to be a key regulator for MAVS expression during JEV infection. Furthermore, we demonstrated that JEV NS1' could induce the expression of miR-22 by increasing the binding of transcriptional factors, CREB and c-Rel, to the promoter elements of miR-22. Taken together, our results reveal a novel mechanism by which JEV NS1' antagonizes host MAVS by regulating miR-22, thereby inhibiting the IFN-I production and facilitating viral replication.

Zhou D ，Li Q ，Jia F ，Zhang L ，Wan S ，Li Y ，Song Y ，Chen H ，Cao S ，Ye J ... -  《-》

Japanese Encephalitis Virus NS1' Protein Interacts with Host CDK1 Protein to Regulate Antiviral Response.

Li Q ，Zhou D ，Jia F ，Zhang L ，Ashraf U ，Li Y ，Duan H ，Song Y ，Chen H ，Cao S ，Ye J ... -  《Microbiology Spectrum》

Japanese Encephalitis Virus NS1' Protein Antagonizes Interferon Beta Production.

Zhou D ，Jia F ，Li Q ，Zhang L ，Chen Z ，Zhao Z ，Cui M ，Song Y ，Chen H ，Cao S ，Ye J ... -  《-》

The A66G back mutation in NS2A of JEV SA14-14-2 strain contributes to production of NS1' protein and the secreted NS1' can be used for diagnostic biomarker for virulent virus infection.

Japanese encephalitis virus (JEV) is the most common cause of the prevalent encephalitis in Asia-Pacific region and poses a serious risk to public health. Here, we developed a reliable reverse genetics system based on the JEV SA14-14-2 strain to further explore the mechanism for the synthesis of NS1' protein and to investigate the function of NS1' protein during virus infection. NS1' is an additional form of NS1 protein with 52 amino acid carboxy-terminal extension and is expressed by the members of the Japanese encephalitis (JE) serogroup due to the translation frameshift. A66G substitution in NS2A gene of JEV SA14-14-2 strain contributed to recover the GC-rich pseudoknot and resulted in the formation of the NS1'. The NS1' protein has no significant effect on the virus replication properties in BHK-21 cells. Animal experiments demonstrated that the NS1' protein had a rather minor effect on neurovirulence of JEV SA14-14-2 strain. But the NS1'-expressing virus (rA66G) could induce a higher humoral immune response than the NS1'-non-expressing virus (rSA14-14-2). NS1' protein can be detected in the serum of JEV rA66G infected animal and in the cultural media of that infected mammalian cells. Interesting, only the dimer of NS1' can be detected in the cultural media of the infected BHK-21 cells and the amount of the secreted NS1' was in agreement with that of the secreted virion. In comparison with the live-attenuated JE vaccine strain which is incapable of formation of NS1', most of the virulent JEV strains produce the NS1' protein. And the secreted NS1' may serve as an early surrogate biomarker for viremia to distinguish the field infection from the vaccine inoculation. In total, in the present study, we identified the nt 66 in the viral NS2A gene as one of the critical site for the -1 programmed ribosomal frameshift to produce the NS1' protein and demonstrated the secreted NS1' could be used for diagnostic biomarker during JEV infection.

Wang J ，Li X ，Gu J ，Fan Y ，Zhao P ，Cao R ，Chen P ... -  《-》

C19orf66 Inhibits Japanese Encephalitis Virus Replication by Targeting -1 PRF and the NS3 Protein.

The Japanese encephalitis serogroup of the neurogenic Flavivirus has a specific feature that expresses a non-structural protein NS1' produced through a programmed -1 ribosomal frameshifting (-1 PRF). Herein, C19orf66, a novel member of interferon-stimulated gene (ISG) products, exhibited significant activity of antagonizing Japanese encephalitis virus (JEV) infection. Overexpression of C19orf66 in 293T cells significantly inhibited JEV replication, while knock-down of endogenous C19orf66 in HeLa cells and A549 cells significantly increased virus replication. Notably, C19orf66 had an inhibitory effect on frameshift production of JEV NS1'. The inhibition was more significant when C19orf66 and JEV NS1-NS2A were co-expressed in the 293T cells. Both C19orf66-209 and C19orf66-Zincmut did not significantly change the NS1' to NS1 ratio and had weaker antiviral effects than C19orf66. Similarly, C19orf66-209 and C19orf66-Zincmut had no significant effect on the expression of the JEV NS3 protein, whose expression was down-regulated by C19orf66 via the lysosome-dependent pathway. These findings suggest that C19orf66 may possess at least two different mechanisms of antagonizing JEV infection. This study identified C19orf66 as a novel interferon-stimulated gene product that can inhibit JEV replication by targeting -1 PRF and the NS3 protein. The study provides baseline information for the future development of broad-spectrum antiviral agents against JEV.

Yu D ，Zhao Y ，Pan J ，Yang X ，Liang Z ，Xie S ，Cao R ... -  《-》