Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The organization of envelope projections (knobs) of four different isolates of the human immunodeficiency virus types 1 and 2 (HIV-1 and -2) was studied using surface replica and thin section electron microscopy (EM) in combination with rotational image enhancement. All HIV strains show an identical organization of knobs on the virus envelope. The surface of an "ideal", well-preserved HIV particle is studded with 72 knobs arranged in a T = 7 laevo symmetry. The role of the p 17 protein, which is coating the inner leaflet of the viral envelope, is discussed as a matrix protein functioning as a scaffold for the envelope and its projections during morphogenesis as well as with mature virions.
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PMID:The organization of the envelope projections on the surface of HIV. 340 Nov 18

The vif gene of human and simian immunodeficiency viruses (HIV and SIV) encodes a late gene product that is essential for viral infectivity in natural target cells. Virions produced in the absence of Vif are abnormal in their ultrastructural morphology and are severely impaired in the ability to complete proviral DNA synthesis upon entry into new target cells. Because previous studies failed to detect Vif protein in virus particles, Vif is believed to influence virus infectivity indirectly, by affecting virion assembly, release, and/or maturation. In this report, we reexamined the possibility that Vif is a virion-associated protein. Utilizing high-titer Vif-specific antibodies, a sensitive immunoblot technique, and highly concentrated virus preparations, we detected a 23-kDa Vif-reactive protein in wild-type HIV type 1 (HIV-1) and a 27-kDa Vif-reactive protein in wild-type SIVSM virions. Neither protein was present in virions derived from vif-deficient HIV-1 and SIVSM proviral constructs. Vif protein content was similar among different strains of HIV-1 and was independent of the cell type (permissive or nonpermissive) used to produce the virus. To determine the subvirion localization of Vif, HIV-1 virions were treated with proteinase K or Triton X-100 to remove virion surface proteins and the viral membrane, respectively, purified through sucrose, and analyzed by immunoblot analysis. Vif protein content was not affected by the removal of external surface proteins or by the removal of the viral membrane and submembrane p17Gag matrix protein. Instead, Vif colocalized with viral core structures which sedimented at a density of 1.25 g/ml on linear sucrose gradients (enveloped HIV-1 particles sediment at a density of 1.17 g/ml). Finally, the amount of Vif protein packaged into virions was estimated to be on the order of 1 molecule of Vif for every 20 to 30 molecules of p24Gag, or between 60 and 100 molecules of Vif per particle. These results indicate that Vif represents an integral component of HIV and SIV particles and raise the possibility that it plays a direct role in early replication events.
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PMID:The Vif protein of human and simian immunodeficiency viruses is packaged into virions and associates with viral core structures. 749 71

Human immunodeficiency virus type 1 Vpr is a virion-associated, regulatory protein that is required for efficient viral replication in monocytes/macrophages. The protein is believed to act in conjunction with the Gag matrix protein to allow import of the viral preintegration complex in nondividing cells. In cells, Vpr localizes to the nucleus. Recently, we showed that Vpr prevents the activation of p34cdc2-cyclin B. This results in arrest of Vpr-expressing cells in the G2/M phase of the cell cycle. Here, we use a panel of expression vectors encoding Vpr molecules mutated in the amino-terminal alpha-helical region, the central hydrophobic region, or the carboxy-terminal basic region to define the functional domains of the protein. The results showed cell cycle arrest was largely controlled by the carboxy-terminal basic domain of the protein. In contrast, the amino-terminal alpha-helical region of Vpr was required for nuclear localization and packaging into virions. The carboxy terminus appeared to be unnecessary for nuclear localization. In the alpha-helical region, mutation of Ala-30 to Pro resulted in a protein that localized to the cytoplasm. Surprisingly, fusion of Vpr to luciferase resulted in a molecule that failed to localize to the nucleus. In addition, we show that simian immunodeficiency virus Vpr, but not Vpx, induces G2 arrest. We speculate that Vpr has two sites for interaction with cellular factors: one in the alpha-helical region that specifies nuclear localization and one in the carboxy-terminal domain that is required for Cdc2 inhibition.
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PMID:Mutational analysis of cell cycle arrest, nuclear localization and virion packaging of human immunodeficiency virus type 1 Vpr. 749 3

Monoclonal antibodies (MAbs) were raised against the gag protein of human immunodeficiency virus type 1 (HIV-1). The reactivity of the selected Mabs with the matrix protein p17 of HIV-1 were investigated in several tests, i.e. ELISA, immunostaining of Western blots, and alkaline phosphatase anti-alkaline phosphatase immunocytochemistry (APAAP). All three Mabs reacted exclusively with HIV-1 and showed specific binding to the virus surface in pre-embedding immuno-electron-microscopy and useful as diagnostic agents. In an "in vitro" cultivation experiment the MAbs showed antiviral activity in concentrations in the range of 25-100 micrograms/ml. No binding region could be defined using overlapping peptides consisting of the p17 protein sequence of HIV-1 in an epitope mapping system and therefore we concluded, that the MAbs recognize a conformational epitope.
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PMID:Characterization of murine monoclonal antibodies directed against the submembrane protein p17 of HIV-1. 750 41

The matrix protein (MA) of human and simian immunodeficiency viruses (HIV and SIV) is encoded by the amino-terminal region of the Gag precursor and has been suggested to be involved in different processes during the early and late stages of the virus life cycle. The MA protein of SIV contains three cysteine residues at positions 57, 83, and 87, which are also highly conserved among HIV-2 isolates. In order to study the functional significance of these residues in virus morphogenesis, a series of mutations affecting the cysteines of SIV MA were introduced into a gag-protease construct and expressed in the vaccinia vector system. The MA mutants were assayed for their ability to synthesize and process the Gag polyprotein precursor as well as to release particles into the culture medium. In addition, the incorporation of the envelope glycoprotein (Env) into the Gag-made particles was investigated. Substitution of alanine for cysteine 87 had little effect on particle release and Env glycoprotein association. By contrast, the individual replacement of cysteines 57 or 83 by alanine, as well as the simultaneous mutation of cysteines 83 and 87, significantly reduced the ability of Gag polypeptides to produce extracellular particles. Assembly into particles appeared to be also affected, albeit to a lesser extent, when both cysteines 57 and 83 were replaced by alanine. Furthermore, substitution of cysteine 83 in the SIV MA domain was found to be detrimental to Gag polyprotein processing. Analysis of the Env glycoprotein association with recombinant particles revealed that this process was moderately affected in the case of the double mutants lacking cysteines 57 and 83, or cysteines 57 and 87, and the cysteine-minus triple mutant. Our results suggest that the conserved cysteines 57 and 83 in the MA domain are important for efficient SIV Gag particle production.
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PMID:Mutational analysis of the conserved cysteine residues in the simian immunodeficiency virus matrix protein. 761 87

We report single-point mutations that are located in the matrix protein domain of the gag gene of human immunodeficiency virus type 1 and that prevent Gag particle formation. We show that mutations of p17 that abolish human immunodeficiency virus particle assembly also prevent the dimerization of p17 protein, as measured directly by a protein-protein binding assay. In the three-dimensional structure of p17, mutations that abolish dimerization are located in a single alpha helix that forms part of a fingerlike projection from one side of the molecule. Peptides derived from this region of p17 also reduce the level of p17 dimer when they are added to p17-expressing cells and compete for p17 self-association when present in protein-protein binding assays. We propose that the dimerization of the Gag precursor that occurs by the interdigitation of alpha helices on adjacent matrix molecules is a key stage in virion assembly and that the prevention of such an interaction is the molecular basis of particle misassembly.
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PMID:A molecular determinant of human immunodeficiency virus particle assembly located in matrix antigen p17. 776 15

Phenotypic characterization of subtype B strains of human immunodeficiency virus type 1 (HIV-1) indicates that the major determinants of their cytopathogenicity and tropism are contained in the gene coding for the envelope glycoprotein gp120, namely in its variable regions V1, V2, and V3. Recombinant viruses derived from HIV-1 LAV, the subtype B prototype virus, and HIV-1 NDK, the Zairian subtype D virus highly cytopathic for CD4-positive lymphocytes, were used to elucidate genetic control of fusogenic functions in subtype D viruses. Our data demonstrate that multigenic determination of fusogenic properties is more complex in the subtype D than in clade B viruses. Variability in three regions of HIV-1 NDK genome correlated with formation of large syncytia. These regions consisted of the matrix protein, the C-terminal portion of vpr up to the C1 region of gp120, and the V1-V3 regions of gp120. Variability in the envelope glycoprotein but not in other regions of the HIV-1 genome was related to enhanced resistance of HIV-1 NDK to treatment of target cells with OKT4-A anti-CD4 MAb. Therefore, a different genetic control affects two aspects of HIV-1 fusogenicity: (i) variability in the envelope glycoprotein itself is sufficient to influence a virus-to-cell fusion at the virus/cell entry, and (ii) a more complex genetic function including genes of matrix protein and envelope glycoprotein is related to variability of cell-to-cell fusion during formation of syncytium.
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PMID:Fusogenic determinants of highly cytopathic subtype D Zairian isolate HIV-1 NDK. 777 97

The role of the matrix protein (MA) of human immunodeficiency virus type 1 in intracellular transport, assembly, and extracellular release of Gag polyprotein precursor (Pr55gag) was investigated by deletion mutagenesis of the MA domain of recombinant Gag precursor expressed in baculovirus-infected cells. In addition, three carboxy-terminally truncated forms of the Gag precursor, representing mainly the MA, were constructed. One corresponded to an MA with a deletion of its last 12 residues (amb120), while the others corresponded to the entire MA with an additional sequence from the N-terminal portion of the CA (amb143 and och180). Deletions within the MA central region (residues 41 to 78) appeared to be detrimental to Gag particle assembly and budding from the plasma membrane. A slightly narrower domain, between amino acids 41 and 68, was found to be critical for soluble Gag secretion. Mutations which totally or partially deleted one or the other of the two polybasic signals altered the transport of N-myristylated Gag precursor to the plasma membrane. In coexpression with wild-type Gag precursor, a discrete trans-dominant negative effect on wild-type Gag particle assembly and release was observed with deletion mutants located in the central MA region (residues 41 to 78). A more significant negative effect was obtained with the two recombinant proteins of amb120 and och180, which redirected the Gag particle assembly pathway from the plasma membrane compartment to intracellular vesicles (amb120) and to the nuclear compartment (och180).
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PMID:Human immunodeficiency virus type 1 MA deletion mutants expressed in baculovirus-infected cells: cis and trans effects on the Gag precursor assembly pathway. 798 31

The matrix protein of human immunodeficiency virus type 1 is encoded by the amino-terminal portion of the Gag precursor and is postulated to be involved in a variety of functions in the virus life cycle. To define domains and specific amino acid residues of the matrix protein that are involved in virus particle assembly, we introduced 35 amino acid substitution mutations in the human immunodeficiency virus type 1 matrix protein. Using reverse transcriptase and radioimmunoprecipitation analyses and transmission electron microscopy, we assessed the mutants for their ability to form virus particles and to function in the infection process. This study has identified several domains of the matrix protein in which single amino acid substitutions dramatically reduce the efficiency of virus particle production. These domains include the six amino-terminal residues of matrix, the region of matrix between amino acids 55 and 59, and the region between amino acids 84 and 95. Single amino acid substitutions in one of these domains (between matrix amino acids 84 and 88) result in a redirection of the majority of virus particle formation to sites within cytoplasmic vacuoles.
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PMID:Single amino acid changes in the human immunodeficiency virus type 1 matrix protein block virus particle production. 803 31

Lentiviruses, including human immunodeficiency virus type 1 (HIV-1), are unusual among retroviruses in their ability to infect nondividing cells. The matrix proteins of several lentiviruses contain a short stretch of amino acids reminiscent of known nuclear localization signals. In HIV-1, this motif has been shown to function as a nuclear targeting sequence when conjugated to a heterologous protein, and to permit the active nuclear import of the HIV-1 preintegration complex in growth-arrested cells. In the present work, mutations were introduced in the matrix nuclear localization region of T-cell- and macrophage-tropic HIV-1 clones. The resulting viral mutants replicated with normal or even accelerated kinetics in dividing cells, including activated peripheral blood lymphocytes. However, in sharp contrast with wild-type virus, the mutants could not grow efficiently in terminally differentiated macrophages or establish a stable and inducible infection intermediate in unstimulated peripheral blood lymphocytes. Because macrophages represent a major viral reservoir in vivo, and because at any given time most T cells in the body are quiescent, these results strongly suggest that the karyophilic properties of the matrix protein are critical for the spread of the virus in HIV-infected individuals, and consequently for AIDS pathogenesis.
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PMID:The nuclear localization signal of the matrix protein of human immunodeficiency virus type 1 allows the establishment of infection in macrophages and quiescent T lymphocytes. 804 34


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