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)

We have previously shown that during human immunodeficiency virus type 1 (HIV-1) infection in vitro continued reverse transcription is required for stable HIV-1 production, but entry by progeny virus is not. To determine the source of the viral RNA reverse-transcribed late in infection, we employed inhibitors of HIV-1 transmission, reverse transcription, and proteolysis of the Gag-Pol polyprotein to interrupt HIV-1 infection in vitro. The kinetics of synthesis of viral DNA, RNA, and proteins was examined. During single-cycle infection, inhibition of reverse transcription 24-72 hr after infection delayed production of viral RNA and protein 10 days. Although viral DNA was detected in Southern blots, inhibition of Gag-Pol processing or transient inhibition of reverse transcription blocked its expression. We propose that after initial reverse transcription of input virion RNA is complete, newly synthesized HIV-1 RNA is reverse-transcribed before its export in virions to yield the viral DNA required for stable HIV-1 production.
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PMID:Human immunodeficiency virus type 1 infection requires reverse transcription of nascent viral RNA. 769 Oct 74

We constructed a human immunodeficiency virus (HIV) matrix (MA) deletion mutant by deletion of about 80% of the HIV type 1 Gag MA domain but retaining myristylation and proteolytic processing signals. The effects of this deletion matrix (dl.MA) mutant on HIV particle assembly, processing, and infectivity were analyzed. Surprisingly, the dl.MA mutant still could assemble and process virus particles, had a wild-type (wt) retrovirus particle density, and possessed wt reverse transcriptase activity. RNase protection experiments showed that dl.MA mutant particles preferentially packaged viral genomic RNA. When both mutant and wt particles were pseudotyped with an amphotropic murine leukemia virus envelope protein, mutant infectivity was about 10% of wt level. In contrast, infectivity of the dl.MA mutant was 1,000-fold less than that of wild-type when mutant and wt particles were pseudotyped with the HIV envelope protein. Protein analyses of pseudotyped virions indicated that there were no major differences between mutant and wt viruses in the efficiency of amphotropic murine leukemia virus envelope protein incorporation. In contrast, there was a reduction in the amount of mutant particle-associated HIV envelope protein gp120. Our results suggest that an intact HIV matrix domain is not absolutely required for reverse transcription, nuclear localization, or integration but is necessary for appropriate HIV envelope protein function.
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PMID:Conditional infectivity of a human immunodeficiency virus matrix domain deletion mutant. 769 66

The structural proteins and enzymes of the human immunodeficiency virus type 1 core are translated as part of two polyprotein precursors, Gag and Gag-Pol, which are cleaved by a virally encoded protease. Viruses grown in the presence of inhibitors of the protease contain core particles that are aberrantly assembled, and upon infection of susceptible cells, they do not synthesize viral DNA. Through the use of a proteinase inhibitor (A77003), we determined that the viral reverse transcriptase can efficiently synthesize viral DNA as part of the unprocessed Gag-Pol precursor. We also found that the stabilities of core particles composed of unprocessed precursors were considerably enhanced. These observations suggest that for viruses composed of unprocessed precursors, replication is interrupted before the reverse transcription step.
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PMID:Human immunodeficiency virus type 1 virions composed of unprocessed Gag and Gag-Pol precursors are capable of reverse transcribing viral genomic RNA. 769 87

The vpr gene of human immunodeficiency virus type 1 (HIV-1) encodes a virion-associated regulatory protein. Mutagenesis has shown that the virion association of Vpr requires sequences near the C terminus of the HIV-1 Gag polyprotein Pr55gag. To investigate whether Vpr incorporation is mediated by a specific domain of Pr55gag, we examined the ability of chimeric HIV-1/Moloney murine leukemia virus (MLV) Gag polyproteins to direct the incorporation of Vpr. Vpr expressed in trans did not associate with particles formed by the authentic MLV Gag polyprotein or with particles formed by chimeric Gag polyproteins that had the matrix (MA) or capsid (CA) domain of MLV precisely replaced by the corresponding domain of HIV-1HXB2. By contrast, Vpr was efficiently incorporated upon replacement of the C-terminal nucleocapsid (NC) domain of the MLV Gag polyprotein with HIV-1 p15 sequences. Vpr was also efficiently incorporated into particles formed by a MLV Gag polyprotein that had the HIV-1 p6 domain fused to its C terminus. Furthermore, a deletion analysis revealed that a conserved region near the C terminus of the p6 domain is essential for Vpr incorporation, whereas sequences downstream of the conserved region are dispensable. These results show that a virion association motif for Vpr is located within residues 1 to 46 of p6.
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PMID:The p6gag domain of human immunodeficiency virus type 1 is sufficient for the incorporation of Vpr into heterologous viral particles. 770 98

The human immunodeficiency virus type 1 (HIV-1) and HIV-2 Vpr and Vpx proteins are packaged into virions through virus type-specific interactions with the Gag polyprotein precursor. To examine whether HIV-1 Vpr (Vpr1) and HIV-2 Vpx (Vpx2) could be used to target foreign proteins to the HIV particle, their open reading frames were fused in frame with genes encoding the bacterial staphylococcal nuclease (SN), an enzymatically inactive mutant of SN (SN*), and chloramphenicol acetyltransferase (CAT). Transient expression in a T7-based vaccinia virus system demonstrated the synthesis of appropriately sized Vpr1-SN/SN* and Vpx2-SN/SN* fusion proteins which, when coexpressed with their cognate p55Gag protein, were efficiently incorporated into virus-like particles. Packaging of the fusion proteins was dependent on virus type-specific determinants, as previously seen with wild-type Vpr and Vpx proteins. Particle-associated Vpr1-SN and Vpx2-SN fusion proteins were enzymatically active, as determined by in vitro digestion of lambda phage DNA. To determine whether functional Vpr1 and Vpx2 fusion proteins could be targeted to HIV particles, the gene fusions were cloned into an HIV-2 long terminal repeat/Rev response element-regulated expression vector and cotransfected with wild-type HIV-1 and HIV-2 proviruses. Western blot (immunoblot) analysis of sucrose gradient-purified virions revealed that both Vpr1 and Vpx2 fusion proteins were efficiently packaged regardless of whether SN, SN*, or CAT was used as the C-terminal fusion partner. Moreover, the fusion proteins remained enzymatically active and were packaged in the presence of wild-type Vpr and Vpx proteins. Interestingly, virions also contained smaller proteins that reacted with antibodies specific for the accessory proteins as well as SN and CAT fusion partners. Since similar proteins were absent from Gag-derived virus-like particles and from virions propagated in the presence of an HIV protease inhibitor, they must represent cleavage products produced by the viral protease. Taken together, these results demonstrate that Vpr and Vpx can be used to target functional proteins, including potentially deleterious enzymes, to the human or simian immunodeficiency virus particle. These properties may be exploitable for studies of HIV particle assembly and maturation and for the development of novel antiviral strategies.
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PMID:Targeting foreign proteins to human immunodeficiency virus particles via fusion with Vpr and Vpx. 774 85

Morphogenesis of retroviruses involves ordered assembly of the structural Gag- and Gag-Pol polyproteins, with subsequent budding from the plasma membrane and proteolytic cleavage by the viral proteinase (PR). Two cleavage sites exist between the capsid (CA) and nucleocapsid (NC) domains of the human immunodeficiency virus (HIV) type 1 Gag polyprotein which are separated by a 14-amino-acid spacer peptide of unknown function. To analyze the role of the two cleavage sites and the spacer peptide, both sites were individually mutated and a deletion mutation that precisely removes the spacer peptide was constructed. Following transfection of proviral DNA carrying the point mutations, mutant polyproteins were synthesized and assembled like wild-type polyprotein, and release of particles was not significantly altered. Both mutations abolished cleavage at the respective site and reduced or abolished viral infectivity. Deletion of the spacer peptide severely affected ordered assembly and reduced particle release. The extracellular particles that were released exhibited normal density but were heterogeneous in size. Electron micrographs revealed large electron-dense plaques underneath the plasma membrane of transfected cells which appeared like confluent ribonucleoprotein complexes arrested early in the budding process. Extracellular particles exhibited very aberrant and heterogeneous morphology and were incapable of inducing viral spread. These particles may correspond to membrane vesicles sequestered by the rigid structures underneath the cell membrane and not released by a regular budding process.
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PMID:The spacer peptide between human immunodeficiency virus capsid and nucleocapsid proteins is essential for ordered assembly and viral infectivity. 774 87

Cats were immunized three times with different recombinant feline immunodeficiency virus (FIV) candidate vaccines. Recombinant vaccinia virus (rVV)-expressed envelope glycoprotein with (vGR657) or without (vGR657 x 15) the cleavage site and an FIV envelope bacterial fusion protein (beta-Galactosidase-Env) were incorporated into immune-stimulating complexes or adjuvanted with Quil A. Although all immunized cats developed antibodies against the envelope protein, only the cats vaccinated with the rVV-expressed envelope glycoproteins developed antibodies which neutralized FIV infection of Crandell feline kidney cells. These antibodies failed to neutralize infection of thymocytes with a molecularly cloned homologous FIV. After the third immunization the cats were challenged with homologous FIV. Two weeks after challenge the cell-associated viral load proved to be significantly higher in the cats immunized with vGR657 and vGR657 x 15 than in the other cats. The cats immunized with vGR657 and vGR657 x 15 also developed antibodies against the Gag proteins more rapidly than the cats immunized with beta-Galactosidase-Env or the control cats. This suggested that immunization with rVV-expressed glycoprotein of FIV results in enhanced infectivity of FIV. It was shown that the observed enhancement could be transferred to naive cats with plasma collected at the day of challenge.
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PMID:Enhancement of feline immunodeficiency virus infection after immunization with envelope glycoprotein subunit vaccines. 774 19

A critical step in the formation of infectious retroviral particles is the activation of the virally encoded protease (PR) and its release from the Gag-Pol precursor polyprotein. To identify factors that influence this step, the maturation of human immunodeficiency virus type 1 PR from various Gag-PR polyproteins was assayed in vitro by a using rabbit reticulocyte lysate as a coupled transcription-translation-autoprocessing system. Highly efficient autoprocessing was detected with polyproteins containing the viral nucleocapsid (NC) domain. In contrast, polyproteins consisting of only p6 and PR domains or containing a truncated NC domain exhibited no autoprocessing activity. Experiments designed to test the dimerization capability of short PR polyproteins revealed that precursors containing the NC domain exhibited very efficient homotypic protein-protein interactions while PR precursors consisting of only p6 and PR did not interact efficiently. The strong correlation between autoprocessing activity and PR polyprotein precursor dimerization suggests that NC and p6* domains play a role in PR activation by influencing the dimerization of the PR domain in the precursor.
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PMID:Domains upstream of the protease (PR) in human immunodeficiency virus type 1 Gag-Pol influence PR autoprocessing. 774 38

The matrix domain of the human immunodeficiency virus type 1 (HIV-1) Gag protein contains a highly basic region near its amino terminus. It has been proposed that this basic domain, in conjunction with the HIV-1 accessory protein Vpr, is responsible for the localization of the HIV-1 preintegration complex to the nucleus in nondividing cells. It has also been postulated that the matrix basic domain assists in the targeting of the HIV-1 Gag precursor Pr55Gag to the plasma membrane during virus assembly. To evaluate the role of this highly basic sequence during infection of primary human monocyte-derived macrophages, single- and double-amino-acid-substitution mutations were introduced, and the effects on virus particle production, Gag protein processing, envelope glycoprotein incorporation into virus particles, and virus infectivity in the CEM(12D-7) T-cell line, peripheral blood mononuclear cells, and primary human monocyte-derived macrophages were analyzed. Although modest effects on virus particle production were observed with some of the mutants, none abolished infectivity in primary human monocyte-derived macrophages. In contrast with previously reported studies involving some of the same matrix basic domain mutants, infectivity in monocyte-derived macrophages was retained even when combined with a vpr mutation.
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PMID:Role of the basic domain of human immunodeficiency virus type 1 matrix in macrophage infection. 774 52

As part of an ongoing vaccine study using peptide immunogens designed to stimulate simian immunodeficiency virus (SIV)mac-specific cytotoxic T lymphocytes (CTL) it was necessary to identify rhesus macaques within our colony bearing the Mamu-A1 major histocompatibility complex (MHC) class I haplotype. Peripheral blood mononuclear cells (PBMC) from individual monkeys were analysed by immunoelectrofocusing for the presence of a band corresponding to the Mamu-A1 molecule. In addition, PBMC were pulsed with the SIVmac Gag peptide 11 (against which CTL are Mamu-A1 restricted) and analysed for susceptibility to lysis by peptide 11-specific CTL. PBMC from all of the rhesus macaques shown to be Mamu-A1 positive by immunoelectrofocusing were highly sensitive to lysis by the peptide 11-specific CTL. A total of 46% (16 from 35) of the rhesus macaques originating from India were found to be Mamu-A1 positive, whereas none of the Chinese rhesus (0 from 37) macaques possessed this haplotype. Once a peptide-specific CTL is established, screening by CTL assay offers a faster, reliable and more relevant alternative to immunoelectrofocusing for selecting monkeys for use in vaccination trials.
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PMID:Rapid screening for Mamu-A1-positive rhesus macaques using a SIVmac Gag peptide-specific cytotoxic T-lymphocyte assay. 775 Oct 33

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