Identification and characterization of loop7 motif and its role in regulating biological function of human APOBEC3G through molecular modeling and biological assay

Human APOBEC3G (hA3G) is a cytidine deaminase which inhibits HIV-1 replication. The HIV-1 accessory protein viral infectivity factor (Vif) counteracts with hA3G by targeting it for proteasomal degradation. In this work, we constructed and optimized molecular models of the hA3G dimer and the hA3G-Vif complex. The molecular modeling study revealed that the loop7 motif of hA3G appears on the interfaces of both the hA3G-Vif complex and the hA3G dimer. Biochemical analysis provided evidence suggesting that binding of Vif to hA3G results in steric blocking of hA3G dimerization, implying that monomeric hA3G serves as a substrate for Vif-mediated degradation. Furthermore, we presented evidence for the important roles of the loop7 motif, especially the central residues within the region, in hA3G dimerization, hA3G--Vif interaction, Vif-mediated hA3G degradation as well as subcellular localization of hA3G. This work highlights a multiple-task interface formed by loop7 motif, which regulates biological function of hA3G, thus providing the feasibility of the strategy of blocking Vif-mediated A3G degradation by targeting the putative site around loop7.

Mechanism Underlying Increased Expression of a Member of the Serine/Threonine Kinase Family (Citron kinase) Induced by HIV-1 Infection / 病毒学报

Human immunodeficiency virus (HIV)-1 infection changes transcriptional profiles and regulates. the factors and machinery of the host that facilitate viral replication. Our previous study suggested that the serine/threonine kinase citron kinase (citK) promotes HIV-1 egress. To ascertain if HIV-1 infection affects citK expression in primary cells, peripheral blood mononuclear cells were infected with vesicular stomatitis virus G protein (VSV-G)-pseudotyped HIV-1 vector NL4-3-luc viruses, which resulted in remarkably increased expression of citK. citK overexpression led to a more than two-fold increase in HIV-1 production, whereas a significant decrease was observed when citK was depleted in CD4+ T cells. Infection with HIV-1 pseudoviruses induced increases in the mRNA and protein levels of citK by 2. 5- and 2. 7-fold in HEK293T cells, respectively. By cloning the 5-kb promoter of citK into a luciferase reporter system and transfecting the construct into HEK293T cells, enhanced luciferase activity was observed during HIV-1 infection. Taken together, these data demonstrate that HIV-1 infection upregulates citK expression at the transcriptional level, and thereby renders the host more susceptible to invasion by HIV-1.

Hrs inhibits citron kinase-mediated HIV-1 budding via its FYVE domain

Hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs) is a key component of the endosomal sorting complexes required for transport and has been demonstrated to play a regulatory role in endocytosis/exocytosis and the accumulation of internal vesicles in multivesicular bodies. Citron kinase is a Ser/The kinase that we previously reported to enhance human immunodeficiency virus type 1 (HIV-1) virion production. However, the relationship between Hrs and citron kinase in HIV-1 production remains elusive. Here, we report that Hrs interacts with citron kinase via its FYVE domain. Overexpression of Hrs or the FYVE domain resulted in a significant decrease in HIV-1 virion production. Depletion of Hrs by RNA interference in HEK293T cells increased HIV-1 virion production and enhanced the activity of citron kinase. These data suggest that Hrs inhibits HIV-1 production by inhibiting citron kinase-mediated exocytosis.