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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Several viruses encode ion channels that both modulate the trafficking of envelope glycoprotein(s) and stimulate the release of virions from cells.
HIV
-1 Vpu enhances virion release and inhibits the endosomal accumulation of the viral structural protein Gag. We investigated whether Vpu affects the subcellular distribution of Env as well as Gag. Env and Vpu colocalized with each other, in part within the trans-Golgi network. In the absence of Vpu, Env accumulated more extensively within clathrin-coated endosomal structures. These structures had several features consistent with an endosomal viral assembly domain: they contained Gag, including proteolytically processed viral matrix protein; the tetraspanins CD63 and CD81; the adaptor protein complex AP-3; and AIP1/
ALIX
, a cellular cofactor for viral budding. These endosomes labelled incompletely with Env derived from the cell surface, suggesting that some Env reaches this compartment without transiting the plasma membrane. Consistent with this, endosomal accumulation of Env was not blocked by dominant-negative Eps15, an inhibitor of AP-2-mediated endocytosis. Although these data are potentially explained by greater endocytosis of mature virions in the absence of Vpu, they also raise the possibility that Vpu inhibits the transport of Env and Gag to late endosomes, leading to viral assembly at the plasma membrane.
...
PMID:HIV-1 Vpu inhibits accumulation of the envelope glycoprotein within clathrin-coated, Gag-containing endosomes. 1807 69
The cellular ESCRT pathway functions in membrane remodeling events that accompany endosomal protein sorting, cytokinesis, and enveloped RNA virus budding. In the last case, short sequence motifs (termed late domains) within human immunodeficiency virus type 1 (HIV-1) p6(Gag) bind and recruit two ESCRT pathway proteins, TSG101 and
ALIX
, to facilitate virus budding. We now report that overexpression of the HECT ubiquitin E3 ligase, NEDD4L/NEDD4-2, stimulated the release of
HIV
-1 constructs that lacked TSG101- and
ALIX
-binding late domains, increasing infectious titers >20-fold. Furthermore, depletion of endogenous NEDD4L inhibited the release of these crippled viruses and led to cytokinesis defects. Stimulation of virus budding was dependent upon the ubiquitin ligase activity of NEDD4L and required only the minimal
HIV
-1 Gag assembly regions, demonstrating that Gag has ubiquitin-dependent, cis-acting late domain activities located outside of the p6 region. NEDD4L stimulation also required TSG101 and resulted in ubiquitylation of several ESCRT-I subunits, including TSG101. Finally, we found that TSG101/ESCRT-I was required for efficient release of Mason-Pfizer monkey virus, which buds primarily by using a PPXY late domain to recruit NEDD4-like proteins. These observations suggest that NEDD4L and possibly other NEDD4-like proteins can ubiquitylate and activate ESCRT-I to function in virus budding.
...
PMID:NEDD4L overexpression rescues the release and infectivity of human immunodeficiency virus type 1 constructs lacking PTAP and YPXL late domains. 1832 68
To exit infected cells, human immunodeficiency virus type 1 (HIV-1) exploits the vacuolar protein-sorting pathway by engaging Tsg101 and
ALIX
through PTAP and LYPx(n)L late assembly (L) domains. In contrast, less-complex retroviruses often use PPxY L domains to recruit Nedd4 family ubiquitin ligases. Although
HIV
-1 Gag lacks PPxY motifs, we now show that the budding of various
HIV
-1 L-domain mutants is dramatically enhanced by ectopic Nedd4-2s, a native isoform with a truncated C2 domain. The effect of Nedd4-2s on
HIV
-1 budding required a catalytically active HECT domain and was specific, since other Nedd4 family proteins showed little activity and an unrelated retrovirus was not rescued. The residual C2 domain of Nedd4-2s was critical for the enhancement of
HIV
-1 budding and for the association of Nedd4-2s with Gag, as reflected by its incorporation into virus-like particles. Interestingly, the incorporation of Nedd4-2s also depended on its active site, indicating that the ability to form a thioester with ubiquitin was required. These data suggest a novel mechanism by which
HIV
-1 Gag can connect to cellular budding machinery.
...
PMID:Efficient and specific rescue of human immunodeficiency virus type 1 budding defects by a Nedd4-like ubiquitin ligase. 1832 69
The assembly of human immunodeficiency virus type 1 (HIV-1) particles is driven by viral Gag protein. This function of Gag not only benefits from its self-multimerization property but also depends on its interaction with a number of cellular factors such as TSG101 and
ALIX
/AIP1 that promote virus budding and release from cell surfaces. However, interaction with Gag also allows some cellular factors such as APOBEC3G and Trim5alpha to access viral replication machinery and block viral replication. In this study, we report a new
HIV
-1 Gag-binding factor named insulin-like growth factor II mRNA binding protein 1 (IMP1). Gag-IMP1 interaction requires the second zinc finger of the nucleocapsid (NC) domain of Gag and the KH3 and KH4 domains of IMP1. A fourfold reduction of
HIV
-1 infectivity was seen with overexpression of the wild-type IMP1 and its mutant that is able to interact with Gag but not with overexpression of IMP1 mutants exhibiting Gag-binding deficiency. The decreased viral infectivity was further shown as a result of diminished viral RNA packaging, abrogated Gag processing on the cellular membranes, and impeded maturation of virus particles. Together, these results demonstrate that IMP1 interacts with
HIV
-1 Gag protein and is able to block the formation of infectious
HIV
-1 particles.
...
PMID:Insulin-like growth factor II mRNA binding protein 1 associates with Gag protein of human immunodeficiency virus type 1, and its overexpression affects virus assembly. 1838 35
The interaction between the
HIV
-1 p6 late budding domain and
ALIX
, a class E vacuolar protein sorting factor, was explored by using the yeast two-hybrid approach. We refined the
ALIX
binding site of p6 as being the leucine triplet repeat sequence (Lxx)4 (LYPLTSLRSLFG). Intriguingly, the deletion of the C-terminal proline-rich region of
ALIX
prevented detectable binding to p6. In contrast, a four-amino acid deletion in the central hinge region of p6 increased its association with
ALIX
as shown by its ability to bind to
ALIX
lacking the proline rich domain. Finally, by using a random screening approach, the minimal ALIX391-510 fragment was found to specifically interact with this p6 deletion mutant. A parallel analysis of
ALIX
binding to the late domain p9 from EIAV revealed that p6 and p9, which exhibit distinct
ALIX
binding motives, likely bind differently to
ALIX
. Altogether, our data support a model where the C-terminal proline-rich domain of
ALIX
allows the access of its binding site to p6 by alleviating a conformational constraint resulting from the presence of the central p6 hinge.
...
PMID:Refined study of the interaction between HIV-1 p6 late domain and ALIX. 1847 95
The ESCRT pathway facilitates membrane fission events during enveloped virus budding, multivesicular body formation, and cytokinesis. To promote
HIV
budding and cytokinesis, the
ALIX
protein must bind and recruit CHMP4 subunits of the ESCRT-III complex, which in turn participate in essential membrane remodeling functions. Here, we report that the Bro1 domain of
ALIX
binds specifically to C-terminal residues of the human CHMP4 proteins (CHMP4A-C). Crystal structures of the complexes reveal that the CHMP4 C-terminal peptides form amphipathic helices that bind across the conserved concave surface of
ALIX
(Bro1).
ALIX
-dependent
HIV
-1 budding is blocked by mutations in exposed
ALIX
(Bro1) residues that help contribute to the binding sites for three essential hydrophobic residues that are displayed on one side of the CHMP4 recognition helix (M/L/IxxLxxW). The homologous CHMP1-3 classes of ESCRT-III proteins also have C-terminal amphipathic helices, but, in those cases, the three hydrophobic residues are arrayed with L/I/MxxxLxxL spacing. Thus, the distinct patterns of hydrophobic residues provide a "code" that allows the different ESCRT-III subunits to bind different ESCRT pathway partners, with CHMP1-3 proteins binding MIT domain-containing proteins, such as VPS4 and Vta1/LIP5, and CHMP4 proteins binding Bro1 domain-containing proteins, such as
ALIX
.
...
PMID:ALIX-CHMP4 interactions in the human ESCRT pathway. 1851 62
The ESCRT (endosomal sorting complex required for transport) machinery is required for the scission of membrane necks in processes including the budding of
HIV
-1 and cytokinesis. An essential step in cytokinesis is recruitment of the ESCRT-I complex and the ESCRT-associated protein
ALIX
to the midbody (the structure that tethers two daughter cells) by the protein CEP55. Biochemical experiments show that peptides from
ALIX
and the ESCRT-I subunit TSG101 compete for binding to the ESCRT and
ALIX
-binding region (EABR) of CEP55. We solved the crystal structure of EABR bound to an
ALIX
peptide at a resolution of 2.0 angstroms. The structure shows that EABR forms an aberrant dimeric parallel coiled coil. Bulky and charged residues at the interface of the two central heptad repeats create asymmetry and a single binding site for an
ALIX
or TSG101 peptide. Both
ALIX
and ESCRT-I are required for cytokinesis, which suggests that multiple CEP55 dimers are required for function.
...
PMID:Midbody targeting of the ESCRT machinery by a noncanonical coiled coil in CEP55. 1894 38
To promote the release of infectious virions, human immunodeficiency virus type 1 (HIV-1) exploits the endosomal sorting complex required for transport (ESCRT) pathway by engaging Tsg101 and
ALIX
through late assembly (L) domains in p6 Gag. An LYPx(n)L motif in p6 serves as docking site for the central V domain of
ALIX
and is required for its ability to stimulate
HIV
-1 budding. Additionally, the nucleocapsid (NC) domain of Gag binds to the N-terminal Bro1 domain of
ALIX
, which connects
ALIX
to the membrane-deforming ESCRT-III complex via its CHMP4 subunits. Since the isolated Bro1 domain of
ALIX
is sufficient to markedly stimulate virus-like particle (VLP) production in a minimal Gag rescue assay, we examined whether the Bro1 domains of other human proteins possess a similar activity. We now show that the Bro1 domain-only protein Brox and the isolated Bro1 domains of HD-PTP and rhophilin all bind to
HIV
-1 NC. Furthermore, all shared the capacity to stimulate VLP production by a minimal
HIV
-1 Gag molecule, and Brox in particular was as potent as the Bro1 domain of
ALIX
in this assay. Unexpectedly, Brox retained significant activity even if its CHMP4 binding site was disrupted. Thus, the ability to assist in VLP production may be an intrinsic property of the boomerang-shaped Bro1 domain.
...
PMID:Divergent Bro1 domains share the capacity to bind human immunodeficiency virus type 1 nucleocapsid and to enhance virus-like particle production. 1940 73
ALIX
recruits ESCRT-III CHMP4 and is involved in membrane remodeling during endosomal receptor sorting, budding of some enveloped viruses, and cytokinesis. We show that
ALIX
dimerizes via the middle domain (
ALIX
(-V)) in solution. Structural modeling based on small angle X-ray scattering (SAXS) data reveals an elongated crescent-shaped conformation for dimeric
ALIX
lacking the proline-rich domain (
ALIX
(BRO1-V)). Mutations at the dimerization interface prevent dimerization and induce an open elongated monomeric conformation of
ALIX
(-V) as determined by SAXS modeling.
ALIX
dimerizes in vivo and dimeric
ALIX
colocalizes with CHMP4B upon coexpression. We show further that
ALIX
dimerization affects
HIV
-1 budding. C-terminally truncated activated CHMP4B retaining the
ALIX
binding site forms linear, circular, and helical filaments in vitro, which can be bridged by
ALIX
. Our data suggest that dimeric
ALIX
represents the active form that interacts with ESCRT-III CHMP4 polymers and functions as a scaffolding protein during membrane remodeling processes.
...
PMID:A crescent-shaped ALIX dimer targets ESCRT-III CHMP4 filaments. 1952 2
Among the integrative gene therapy vectors developed to date, human immunodeficiency virus type 1 (HIV-1)-derived lentiviral vectors (LV) are distinguished by their capacity to infect both dividing and non-dividing cells. Recombinant LV particles contain viral proteins necessary for their packaging, infectious and integrating functions. Like the parental
HIV
-1 virus they are able to acquire various cellular proteins, but the number and localisation of these proteins are poorly characterised. In the present study we used 2-DE followed by MALDI-TOF to quantify the protein content of several types of vesicular stomatitis virus G-pseudotyped LV including those that were extensively purified in the perspective of clinical gene therapy studies. A proteinase K treatment was used to distinguish between cellular proteins incorporated into virions (I-proteins) and those co-purified with vectors (C-proteins). We found 10 C-proteins and 18 I-proteins associated with LV. Copy numbers for these core I-proteins varied from 5 (AIP-1/
ALIX
) to 280 (Cyclophilin A) per vector particle. Three novel I-proteins, guanine nucleotide-binding protein 2, L-lactate dehydrogenase B chain and hnRNP core protein A1, were found. This study defines for the first time, the protein stoichiometry of infectious
HIV
-1-derived LV particles.
...
PMID:Quantitative proteomic analysis of lentiviral vectors using 2-DE. 1963 85
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