Shanshan Ning scite author profile

The HIV-1 reservoir is a major obstacle to complete eradication of the virus. Although many proteins and RNAs have been characterized as regulators in HIV-1/AIDS pathogenesis and latency, only a few long noncoding RNAs (lncRNAs) have been shown to be closely associated with HIV-1 replication and latency. In this study, we demonstrated that lncRNA uc002yug.2 plays a key role in HIV-1 replication and latency. uc002yug.2 potentially enhances HIV-1 replication, long terminal repeat (LTR) activity, and the activation of latent HIV-1 in both cell lines and CD4 T cells from patients. Further investigation revealed that uc002yug.2 activates latent HIV-1 through downregulating RUNX1b and -1c and upregulating Tat protein expression. The accumulated evidence supports our model that the Tat protein has the key role in the uc002yug.2-mediated regulatory effect on HIV-1 reactivation. Moreover, uc002yug.2 showed an ability to activate HIV-1 similar to that of suberoylanilide hydroxamic acid or phorbol 12-myristate 13-acetate using latently infected cell models. These findings improve our understanding of lncRNA regulation of HIV-1 replication and latency, providing new insights into potential targeted therapeutic interventions. The latent viral reservoir is the primary obstacle to curing HIV-1 disease. To date, only a few lncRNAs, which play major roles in various biological processes, including viral infection, have been identified as regulators in HIV-1 latency. In this study, we demonstrated that lncRNA uc002yug.2 is important for both HIV-1 replication and activation of latent viruses. Moreover, uc002yug.2 was shown to activate latent HIV-1 through regulating alternative splicing of RUNX1 and increasing the expression of Tat protein. These findings highlight the potential merit of targeting lncRNA uc002yug.2 as an activating agent for latent HIV-1.

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Enterovirus 71 antagonizes the inhibition of the host intrinsic antiviral factor A3G

Ning

et al. 2018

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Although the host restriction factor APOBEC3G (A3G) has broad spectrum antiviral activity, whether A3G inhibits enterovirus 71 (EV71) has been unclear until now. In this study, we demonstrated for the first time that A3G could inhibit EV71 virus replication. Silencing A3G in H9 cells enhanced EV71 replication, and EV71 replication was lower in H9 cells expressing A3G than in Jurkat cells without A3G expression, indicating that the EV71 inhibition was A3G-specific. Further investigation revealed that A3G inhibited the 5′UTR activity of EV71 by competitively binding to the 5′UTR through its nucleic acid binding activity. This binding impaired the interaction between the 5′UTR and the host protein poly(C)-binding protein 1 (PCBP1), which is required for the synthesis of EV71 viral proteins and RNA. On the other hand, we found that EV71 overcame A3G suppression through its non-structural protein 2C, which induced A3G degradation through the autophagy–lysosome pathway. Our research provides new insights into the interplay mechanisms of A3G and single-stranded positive RNA viruses.

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ATP1B3 cooperates with BST‐2 to promote hepatitis B virus restriction

Zheng

Zhang

Zheng

et al. 2019

Journal of Medical Virology

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Increasing evidence indicates ATP1B3, one of the regulatory subunits of Na+/K+‐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 factor‐κB (NF‐κB) pathway by inducing the expression, phosphorylation, and nuclear import of P65 for the first time. And NF‐κB inhibitor (Bay11) impaired the restraint of ATP1B3 on HBV replication. This counteraction effect of Bay11 proved that ATP1B3‐induced NF‐κB activation was crucial for HBV restriction. Accordingly, we observed that anti‐HBV factors interferon‐α (IFN‐α) and interleukin‐6 (IL‐6) production were increased in HepG2 cells after the NF‐κB activation. It suggested that ATP1B3 suppressed HBsAg and HBeAg by NF‐κB/IFN‐α and NF‐κB/IL‐6 axis. Further experiments proved that ATP1B3 overexpression induced anti‐HBV factor BST‐2 expression by NF‐κB/IFN‐α axis in HepG2 cells but not HEK293T cells, and ATP1B3 silencing downregulated BST‐2 messenger RNA level in HepG2 cells. As an HBV restriction factor, BST‐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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Shanshan Ning

Long Noncoding RNA uc002yug.2 Activates HIV-1 Latency through Regulation of mRNA Levels of Various RUNX1 Isoforms and Increased Tat Expression

Enterovirus 71 antagonizes the inhibition of the host intrinsic antiviral factor A3G

ATP1B3 cooperates with BST‐2 to promote hepatitis B virus restriction

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