UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The subcellular localization of human immunodeficiency virus type 1 (HIV-1) viral protein R (Vpr) was examined by subcellular fractionation. In HIV-1-infected peripheral blood mononuclear cells, Vpr was found in the nuclear and membrane fractions as well as the conditioned medium. Expression of Vpr without other HIV-1 proteins, in two different eukaryotic expression systems, demonstrated a predominant localization of Vpr in the nuclear matrix and chromatin extract fractions. Deletion of the carboxyl-terminal 19-amino-acid arginine-rich sequence impaired Vpr nuclear localization. Indirect immunofluorescence confirmed the nuclear localization of Vpr and also indicated a perinuclear location. Expression of Vpr alone did not result in export of the protein from the cell, but when coexpressed with the Gag protein, Vpr was exported and found in virus-like particles. A truncated Gag protein, missing the p6 sequence and a portion of the p9 sequence, was incapable of exporting Vpr from the cell. Regulation of Vpr localization may be important in the influence of this protein on virus replication.
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PMID:Human immunodeficiency virus type 1 viral protein R localization in infected cells and virions. 841 57

Transition state mimetic tripeptide human immunodeficiency virus (HIV) protease inhibitors containing allophenylnorstatine [(2S,3S)-3-amino-2-hydroxy-4-phenylbutyric acid] were synthesized and tested for activity against HIV in vitro. Two compounds, KNI-227 and KNI-272, which were highly potent against HIV protease with little inhibition of other aspartic proteases, showed the most potent activity against the infectivity and cytopathic effect of a wide spectrum of HIV strains. As tested in target CD4+ ATH8 cells, the 50% inhibitory concentrations of KNI-227 against HIV type 1 LAI (HIV-1LAI), HIV-1RF, HIV-1MN, and HIV-2ROD were 0.1, 0.02, 0.03, and 0.1 microM, respectively, while those of KNI-272 were 0.1, 0.02, 0.04, and 0.1 microM, respectively. Both agents completely blocked the replication of 3'-azido-2',3'-dideoxythymidine-sensitive and -insensitive clinical HIV-1 isolates at 0.08 microM as tested in target phytohemagglutinin-activated peripheral blood mononuclear cells. The ratios of 50% cytotoxic concentrations to 50% inhibitory concentrations for KNI-227 and KNI-272 were approximately 2,500 and > 4,000, respectively, as assessed in peripheral blood mononuclear cells. Both compounds blocked the posttranslational cleavage of the p55 precursor protein to generate the mature p24 Gag protein in stably HIV-1-infected cells. The n-octanol-water partition coefficients of KNI-227 and KNI-272 were high, with log Po/w values of 3.79 and 3.56, respectively. Degradation of KNI-227 and KNI-272 in the presence of pepsin (1 mg/ml, pH 2.2) at 37 degrees C for 24 h was negligible. Current data warrant further careful investigations toward possible clinical application of these two novel compounds.
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PMID:In vitro anti-human immunodeficiency virus (HIV) activities of transition state mimetic HIV protease inhibitors containing allophenylnorstatine. 849 79

The expression of the pol gene of human immunodeficiency virus type 1 (HIV-1) occurs by a ribosomal frameshift between the gag and the pol genes. The Gag-Pol polyprotein is produced at levels of 5 to 10% of that of the Gag protein, and is incorporated into virions to provide the viral protease, reverse transcriptase, and integrase which are essential for replication. The mechanism(s) by which the Gag-Pol polyprotein are targeted to the HIV virion is unknown, although it is believed to be via an interaction with the Gag protein. To further explore the mechanism by which the Gag-Pol polyprotein is incorporated into virions, we have constructed a mutation which changes an aspartic acid in the protease active site to asparagine (pHXB2pro-); a four-amino-acid insertion into the protease gene (pHXB2Smal); and insertion of translational termination codons in the protease gene following the gag gene (pHXB55). Transfection of these proviral genomes into COS-1 cells resulted in intracellular expression of only Pr55gag, demonstrating the inactivation of the viral protease. The expression of Pr55gag was evident in cells transfected with pHXB2pro- during a short pulse and first 3 hr of chase period, whereas at later times the intracellular levels of Pr55gag were greatly reduced. In contrast, the intracellular Pr55gag expressed from transfection of pHXB2Smal or pHXB55 were evident even after 6- or 12-hr chase times. To ascertain the effects of the mutations on the assembly and release of viruslike particles, the supernatants from the transfected cells were analyzed for the presence of Pr55gag. The release of Pr55gag from cells transfected with pHXB2pro- occurred as early as 1 hr following chase period, and increased for up to 3 hr. In contrast, reduced levels of Pr55gag were detected in the medium from cells transfected with pHXB2Smal or pHXB55. Subcellular fractionation studies demonstrated that the Pr55gag expressed from transfection of pHXB2pro- was rapidly targeted to intracellular membranes, while the majority of the Pr55gag expressed from transfection of pHXB2Smal or pHXB55 was distributed evenly between the cytoplasm and membrane fractions. Finally, the released viruslike particles obtained from the transfection of proviral genome pHXB2pro- were stable to mild detergent treatment, whereas particles obtained from transfection of pHXB2Smal and pHXB55 were relatively unstable. These results demonstrate that subtle changes in the Gag-Pol polyprotein of HIV-1 can have significant effects on the assembly and physical stability of the released virus.
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PMID:Mutations in the protease gene of human immunodeficiency virus type 1 affect release and stability of virus particles. 850 89

Retroviral Gag protein is capable of directing the assembly of virion particles independent of other retroviral elements and plays an important role early in the infection of a cell. Using the GAL4 two hybrid system, we screened a cDNA expression library and identified two host proteins, cyclophillins (CyPs) A and B, which interact specifically with the human immunodeficiency virus type 1 (HIV-1) Gag polyprotein Pr55gag. Glutathione S-transferase-CyP fusion proteins bind tightly to Pr55gag in vitro, as well as to the HIV-1 capsid protein p24. Cyclosporin A efficiently disrupts the Gag-CyPA interaction and less efficiently disrupts the Gag-CyPB interaction. The Gag-CyP interaction may be important for the HIV-1 life cycle and may be relevant to the pathology caused by this immunosuppressive virus.
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PMID:Human immunodeficiency virus type 1 Gag protein binds to cyclophilins A and B. 851 93

The vpr gene product of human immunodeficiency virus type (HIV-1) is a virion-associated regulatory protein. A transferable virion association motif for Vpr is located in the p6 domain of the HIV-1 Gag polyprotein. To map the sequences in p6 that are involved in Vpr incorporation, we analyzed the ability of mutant forms of p6 to direct the incorporation of Vpr into chimeric viral particles. Our results show that the determinants which govern Vpr incorporation are largely confined to a C-terminal region of the p6 domain. Within this region, three hydrophobic residues in a highly conserved sequence motif (L-X-S-L-F-G) are absolutely required. Remarkably, the transfer of the conserved motif and of a single flanking residue to a heterologous Gag polyprotein was sufficient to transfer the ability to incorporate Vpr at moderate levels. The transfer of residues 32 to 46 of p6 led to Vpr incorporation levels that were comparable to those obtained with full-length HIV-1 Gag protein, indicating that this region contains essentially all the information required for efficient Vpr incorporation.
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PMID:A conserved LXXLF sequence is the major determinant in p6gag required for the incorporation of human immunodeficiency virus type 1 Vpr. 852 20

In human immunodeficiency virus type 1-infected cells, the efficient expression of viral proteins from unspliced and singly spliced RNAs is dependent on two factors: the presence in the cell of the viral protein Rev and the presence in the viral RNA of the Rev-responsive element (RRE). We show here that the HIV-1 Rev/RRE system can increase the expression of avian leukosis virus (ALV) structural proteins in mammalian cells (D-17 canine osteosarcoma) and promote the release of mature ALV virions from these cells. In this system, the Rev/RRE interaction appears to facilitate the export of full-length unspliced ALV RNA from the nucleus to the cytoplasm, allowing increased production of the ALV structural proteins. Gag protein is produced in the cytoplasm of the ALV-transfected cells even in the absence of a Rev/RRE interaction. However, a functional Rev/RRE interaction increases the amount of Gag present intracellularly and, more strikingly, results in the release of mature ALV particles into the supernatant. RCAS virus containing an RRE is replication-competent in chicken embryo fibroblasts; however, we have been unable to determine whether the particles produced in D-17 cells are as infectious as the particles produced in chicken embryo fibroblasts.
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PMID:Production of avian leukosis virus particles in mammalian cells can be mediated by the interaction of the human immunodeficiency virus protein Rev and the Rev-responsive element. 852 79

During retrovirus assembly, Gag proteins bind to the inner leaflet of the plasma membrane to initiate the budding process. The molecular basis of this protein-lipid interaction is poorly understood. For the human, immunodeficiency virus type 1 Gag protein, we recently reported that the membrane-binding domain resides within the N-terminal 31 amino acids and consists of two components: myristate and a cluster of basic residues, which together promote membrane binding in vitro and budding in vivo (W. Zhou, L. J. Parent, J. W. Wills, and M. D. Resh, J. Virol. 68:2556-2569, 1994). The positively charged residues associate electrostatically with acidic phospholipids to stabilize membrane binding, while myristate provides membrane-binding energy via hydrophobic interactions. Here we demonstrate that the human immunodeficiency virus type 1 Gag membrane-binding domain can fully replace the membrane-targeting function of the N-terminal 100 residues of the non-myristylated Rous sarcoma virus (RSV) Gag protein. To further explore the importance of myristate and basic residues in membrane binding, we developed a gain-of-function assay whereby budding was restored to defective mutants of RSV Gag. Detailed mutational analysis revealed that the position, number, and context of charged residues are crucial to budding. Myristate provides additional membrane-binding energy, which is critical when a Gag protein is near the threshold of stable membrane association. Finally, viruses with altered matrix (MA) proteins that are noninfectious, even though they produce particles with high efficiency, were identified. Thus, we present the first evidence that the RSV MA sequence plays two distinct roles, membrane binding during particle assembly and a second, as yet undefined function required for viral infectivity.
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PMID:Evidence for a second function of the MA sequence in the Rous sarcoma virus Gag protein. 855 59

Myristoylation of human immunodeficiency virus (HIV) Gag protein is essential for virus particle budding. Two reactions are involved; activation of free myristate to myristoyl-CoA and transfer of the myristoyl residue to the Gag N-terminal glycine. We have investigated the effects of triacsin C, an inhibitor of long chain acyl-CoA synthetase, on release of HIV Gag virus-like particle (VLP) produced using the recombinant baculovirus system. First, inhibition of acyl-CoA formation by triacsin C was confirmed using the membrane fractions of insect Sf9 cells as an enzyme source. Second, when HIV Gag protein was expressed in the presence of triacsin C (0-48 microM), Gag myristoylation was inhibited in a dose-dependent manner. Budding of Gag VLP, however, did not follow similar inhibition kinetics but appeared unaffected up to 24 microM, yet was completely abolished at 48 microM when the myristoylation of Gag protein was also completely inhibited. The "all-or-none" inhibition of Gag VLP budding suggests that although inhibition of acyl-CoA synthetase blocks the production of myristoylated Gag protein, only complete inhibition of Gag myristoylation prevents VLP budding. Thus, relatively few myristoylated Gag molecules are sufficient for plasma membrane targeting and VLP budding.
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PMID:Complete inhibition of human immunodeficiency virus Gag myristoylation is necessary for inhibition of particle budding. 857 68

Human immunodeficiency virus-type 1 (HIV-1) replicates actively in infected individuals, yet cells with intracellular depots of viral protein are observed only infrequently. Many cells expressing the HIV-1 Gag protein were detected at the surface of the nasopharyngeal tonsil or adenoid. This infected mucosal surface contained T cells and dendritic cells, two cell types that together support HIV-1 replication in culture. The infected cells were multinucleated syncytia and expressed the S100 and p55 dendritic cell markers. Eleven of the 13 specimens analyzed were from donors who did not have symptoms of acquired immunodeficiency syndrome (AIDS). The interaction of dendritic cells and T cells in mucosa may support HIV-1 replication, even in subclinical stages of infection.
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PMID:Replication of HIV-1 in dendritic cell-derived syncytia at the mucosal surface of the adenoid. 896 79

The human immunodeficiency virus type I (HIV-1) Vpr and HIV-2 Vpx proteins package into virions through interactions with their cognate Gag polyprotein precursor. The targeting properties of Vpr and Vpx have been exploited to incorporate foreign proteins into virions by expression as heterologous fusion molecules (X. Wu, H.-M. Liu, H. Xiao, J. Kim, P. Seshaiah, G. Natsoulis, J. D. Boeke, B. H. Hahn, and J. C. Kappes, J. Virol. 69:3389-3398, 1995). To explore the possibility of utilizing Vpx and Vpr to target dominant negative mutants of the HIV Pol proteins into virions, we fused HIV-2 Vpx with an enzymatically defective protease (PR) mutant. Using a vector system to facilitate transient coexpression with HIV provirus, Vpx-PR-mutant (VpxPR(M)) fusion protein was expressed and packaged efficiently into HIV-2 and simian immunodeficiency virus virions. Immunoblot analysis of purified virions demonstrated that the packaging of VpxPR(M) interfered with the processing of the Gag and Gag/Pol precursor proteins, similar to that of a well-characterized active-site PR inhibitor. The incomplete processing of Gag and Gag/Pol was consistent with a 25-fold reduction in virion infectivity. The coexpression of a packaging defective VpxPR(M) fusion protein with HIV-2 provirus produced virions with fully processed Gag protein, similar to wild-type virions. Importantly, virions trans complemented with a Vpx-chloramphenicol acetyltransferase fusion protein were normal with respect to the processing of Gag protein and the ability to infect and replicate in vitro. These results indicate that VpxPR(M) specifically inhibited the function of the viral protease and provide for the first time proof of principle that the incorporation of foreign proteins into virions via fusion with Vpx can inhibit HIV replication. The use of accessory proteins as vehicles to deliver deleterious proteins to virions, including dominant negative mutants of Pol proteins, may provide new opportunities for application of gene therapy-based antiretroviral strategies. The ability to package PR by expression in trans, independent of the Gag/Pol precursor, also represents a novel approach that may be exploited to study the function of the Pol proteins.
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PMID:Inhibition of human and simian immunodeficiency virus protease function by targeting Vpx-protease-mutant fusion protein into viral particles. 864 68

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