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HIV‐1 Vpu modulates cellular transmembrane proteins to optimize viral replication and provide immune‐evasion, triggering ubiquitin‐mediated degradation of some targets but also modulating endosomal trafficking to deplete them from the plasma membrane. Interactions between Vpu and the heterotetrameric clathrin adaptor protein (AP) complexes AP‐1 and AP‐2 have been described, yet the molecular basis...
Recent evidence suggests that transmembrane domain (TMD) interactions are essential for HIV-1 Vpu-mediated antagonism of the restriction factor BST-2/tetherin. We made Vpu TMD mutants to study the mechanism of BST-2 antagonism. Vpu-I17A, -A18F, -W22L, and -S23L co-localized with BST-2 within endosomal membranes while effectively enhancing virion release and down-regulating surface BST-2. However,...
Previously, we showed that the Vpu protein from HIV-1 subtype C is more efficiently transported to the cell surface than the well studied subtype B Vpu (Pacyniak et al., 2005) and that a SHIV expressing the subtype C Vpu exhibited a decreased rate of CD4 + T cell loss following inoculation in macaques (Hill et al., 2008). In this study, we examined the role of overlapping tyrosine-based (YXXΦ)...
The HIV-1 accessory protein Vpu counteracts a host factor that restricts virion release from infected cells. Here we show that the interferon-induced cellular protein BST-2/HM1.24/CD317 is such a factor. BST-2 is downregulated from the cell surface by Vpu, and BST-2 is specifically expressed in cells that support the vpu phenotype. Exogenous expression of BST-2 inhibits HIV-1 virion release, while...
The infectivity of HIV-1 virions can be enhanced by inhibition of the proteasome in target cells, leading to the hypothesis that the proteasome degrades incoming virions as part of the intracellular antiviral defense. Here, several lines of evidence suggest instead that proteasome inhibition renders target cells more susceptible to infection via an indirect effect on the cellular environment: (1)...
The HIV-1 Nef protein is present within the virion and is processed there by the viral protease. Mutational analysis indicated that residues 54–60 in HIV-1 Nef were required for intravirion cleavage. When viruses were produced using T cell lines or primary lymphoblasts, these residues were also required for optimal viral infectivity. However, substitution of native Nef residues with those of a functional...
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