Author: Zheng, Baisong; Zhang, Jun; Zheng, Tianhang; Wang, Hong; Li, Zhaolong; Huan, Chen; Ning, Shanshan; Wang, Yingchao; Zhang, Wenyan
Title: ATP1B3 cooperates with BSTâ€2 to promote hepatitis B virus restriction Cord-id: 20f2hv2g Document date: 2019_10_16
ID: 20f2hv2g
Snippet: Increasing evidence indicates ATP1B3, one of the regulatory subunits of Na(+)/K(+)â€ATPase, is involved in numerous viral propagations, such as HIV and EV71. However, the function and mechanism of ATP1B3 on hepatitis B virus (HBV) propagation is unknown. Here, we demonstrated that ATP1B3 overexpression reduced the quantity of hepatitis B surface antigen (HBsAg) and hepatitis B e antigen (HBeAg) in supernatants of HBV expression plasmids cotransfected HepG2 cells. Correspondingly, small interfer
Document: Increasing evidence indicates ATP1B3, one of the regulatory subunits of Na(+)/K(+)â€ATPase, is involved in numerous viral propagations, such as HIV and EV71. However, the function and mechanism of ATP1B3 on hepatitis B virus (HBV) propagation is unknown. Here, we demonstrated that ATP1B3 overexpression reduced the quantity of hepatitis B surface antigen (HBsAg) and hepatitis B e antigen (HBeAg) in supernatants of HBV expression plasmids cotransfected HepG2 cells. Correspondingly, small interfering RNA and short hairpin RNA mediated ATP1B3 silencing promoted HBsAg and HBeAg expression in the supernatants of HBV expression plasmids transfected HepG2 cells. Mechanically, we reported that ATP1B3 expression could activate nuclear factorâ€ÎºB (NFâ€ÎºB) pathway by inducing the expression, phosphorylation, and nuclear import of P65 for the first time. And NFâ€ÎºB inhibitor (Bay11) impaired the restraint of ATP1B3 on HBV replication. This counteraction effect of Bay11 proved that ATP1B3â€induced NFâ€ÎºB activation was crucial for HBV restriction. Accordingly, we observed that antiâ€HBV factors interferonâ€Î± (IFNâ€Î±) and interleukinâ€6 (ILâ€6) production were increased in HepG2 cells after the NFâ€ÎºB activation. It suggested that ATP1B3 suppressed HBsAg and HBeAg by NFâ€ÎºB/IFNâ€Î± and NFâ€ÎºB/ILâ€6 axis. Further experiments proved that ATP1B3 overexpression induced antiâ€HBV factor BSTâ€2 expression by NFâ€ÎºB/IFNâ€Î± axis in HepG2 cells but not HEK293T cells, and ATP1B3 silencing downregulated BSTâ€2 messenger RNA level in HepG2 cells. As an HBV restriction factor, BSTâ€2 cooperated with ATP1B3 to antagonize HBsAg but not HBeAg in HepG2 cells. Our work identified ATP1B3 as a novel candidate of HBV restrictor with unrevealed mechanism and we highlighted it might serve as a potential therapeutic molecule for HBV infection.
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