The third variable region (V3) of the human immunodeficiency virus type 1 (HIV-1) envelope gp120 subunit participates in determination of viral infection coreceptor tropism and host humoral immune responses. Positive charge of the V3 plays a key role in determining viral coreceptor tropism. Here, we examined by bioinformatics, experimental, and protein modelling approaches whether the net positive charge of V3 sequence regulates viral sensitivity to humoral immunity. We chose HIV-1 CRF01_AE strain as a model virus to address the question. Diversity analyses using CRF01_AE V3 sequences from 37 countries during 1984 and 2005 (n = 1361) revealed that reduction in the V3's net positive charge makes V3 less variable due to limited positive selection. Consistently, neutralization assay using CRF01_AE V3 recombinant viruses (n = 30) showed that the reduction in the V3's net positive charge rendered HIV-1 less sensitive to neutralization by the blood anti-V3 antibodies. The especially neutralization resistant V3 sequences were the particular subset of the CCR5-tropic V3 sequences with net positive charges of +2 to +4. Molecular dynamics simulation of the gp120 monomers showed that the V3's net positive charge regulates the V3 configuration. This and reported gp120 structural data predict a less-exposed V3 with a reduced net positive charge in the native gp120 trimer context. Taken together, these data suggest a key role of the V3's net positive charge in the immunological escape and coreceptor tropism evolution of HIV-1 CRF01_AE in vivo. The findings have molecular implications for the adaptive evolution and vaccine design of HIV-1.
ARMc8 (armadillo-repeat-containing protein 8) is a key component of the CTLH (C-terminal to lissencephaly type-1-like homology motif) complex in mammalian cells. This complex is well conserved in Saccharomyces cerevisiae and has been characterized as a FBPase (fructose-1, 6-bisphosphatase)-degrading complex. The yeast homologue of ARMc8, Gid (glucose-induced degradation) 5p, plays an essential role in the ubiquitin- and proteasome-dependent degradation of FBPase. To elucidate the function of ARMc8, we used a yeast two-hybrid system to screen a human skeletal muscle cDNA library. alpha-Catenin was isolated as a binding protein of ARMc8alpha. This association was confirmed by co-immunoprecipitation assay using MDCK (Madin-Darby canine kidney) cells in which exogenous alpha-catenin and ARMc8alpha were overexpressed. The association was also confirmed by co-immunoprecipitation assay using endogenous proteins in untransfected MDCK cells. We then used immunofluorescence microscopy of MDCK cells and C2C12 cells to investigate the intracellular distribution of ARMc8. Exogenously expressed ARMc8 was co-localized with alpha-catenin and beta-catenin along the cell membrane, suggesting an association between alpha-catenin and ARMc8 in the cells. To compare the binding domain of alpha-catenin with ARMc8alpha with that of beta-catenin, we performed a co-immunoprecipitation assay, again using 5'- and 3'-deletion constructs of alpha-catenin. The N-terminal sequence (amino acids 82-148) of alpha-catenin was sufficient to bind to both ARMc8alpha and beta-catenin. Next, we investigated the proteasome-dependent degradation of alpha-catenin by immunoblotting using proteasome inhibitors. Co-expression of ARMc8alpha with alpha-catenin resulted in rapid degradation of the exogenous alpha-catenin. Furthermore, ARMc8 knockdown inhibited alpha-catenin degradation and prolonged the half-life of alpha-catenin. We conclude that ARMc8alpha associates with alpha-catenin and up-regulates its degradation.
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