Histone deacetylase 3 promotes innate antiviral immunity through deacetylation of TBK1.

TANK-binding kinase 1 (TBK1), a core kinase of antiviral pathways, activates the production of interferons (IFNs). It has been reported that deacetylation activates TBK1; however, the precise mechanism still remains to be uncovered. We show here that during the early stage of viral infection, the acetylation of TBK1 was increased, and the acetylation of TBK1 at Lys241 enhanced the recruitment of IRF3 to TBK1. HDAC3 directly deacetylated TBK1 at Lys241 and Lys692, which resulted in the activation of TBK1. Deacetylation at Lys241 and Lys692 was critical for the kinase activity and dimerization of TBK1 respectively. Using knockout cell lines and transgenic mice, we confirmed that a HDAC3 null mutant exhibited enhanced susceptibility to viral challenge via impaired production of type I IFNs. Furthermore, activated TBK1 phosphorylated HDAC3, which promoted the deacetylation activity of HDAC3 and formed a feedback loop. In this study, we illustrated the roles the acetylated and deacetylated forms of TBK1 play in antiviral innate responses and clarified the post-translational modulations involved in the interaction between TBK1 and HDAC3.

NKG2A is a NK cell exhaustion checkpoint for HCV persistence.

Exhaustion of cytotoxic effector natural killer (NK) and CD8+ T cells have important functions in the establishment of persistent viral infections, but how exhaustion is induced during chronic hepatitis C virus (HCV) infection remains poorly defined. Here we show, using the humanized C/OTg mice permissive for persistent HCV infection, that NK and CD8+ T cells become sequentially exhausted shortly after their transient hepatic infiltration and activation in acute HCV infection. HCV infection upregulates Qa-1 expression in hepatocytes, which ligates NKG2A to induce NK cell exhaustion. Antibodies targeting NKG2A or Qa-1 prevents NK exhaustion and promotes NK-dependent HCV clearance. Moreover, reactivated NK cells provide sufficient IFN-γ that helps rejuvenate polyclonal HCV CD8+ T cell response and clearance of HCV. Our data thus show that NKG2A serves as a critical checkpoint for HCV-induced NK exhaustion, and that NKG2A blockade sequentially boosts interdependent NK and CD8+ T cell functions to prevent persistent HCV infection.

[Localization of AcMNPV NLA genes in Sf9 cells].

Nuclear actin which plays a key role in many nucleic processes has become a research hotspot. Baculovirus is the only reported pathogen using nuclear actin to replicate and proliferate. However, little is known about the mechanism of monomeric G-actin accumulation within nuclei of baculovirus-infected cells. It has been reported that AcMNPV ie-1, pe38, ac4, he65, ac102, and ac152 could be required for mediating nuclear localization of G-actin from transiently transfected results in TN-368 cells. In this paper, we found that IE1, AC152, PE38, AC102 localized in the whole cell and PE38, AC102 localized in the nuclear mainly, while both AC4 and HE65 localized in cytoplasm and could be mediated into the nucleus by AC102 and IE1 respectively for the first time. And ie-1 or pe38, ac4, he65 could mediate nuclear G-actin to accumulate partly, while these four genes were sufficient for recruiting G-actin accumulation within the nucleus when driven by promoter OpIE2. Determining the functions of each of these AcMNPV NLA gene products will advance our understanding of baculovirus biology and function of nuclear actin.