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)

A study has been made of the susceptibility of recombinant constructs of reverse transcriptase (RT) and ribonuclease H (RNase H) from human immunodeficiency virus type 1 (HIV-1) to digestion by the HIV-1 protease. At neutral pH, the protease attacks a single peptide bond, Phe440-Tyr441, in one of the protomers of the folded, active RT/RNase H (p66/p66) homodimer to give a stable, active heterodimer (p66/p51) that is resistant to further hydrolysis (Chattopadhyay, D., et al., 1992, J. Biol. Chem. 267, 14227-14232). The COOH-terminal p15 fragment released in the process, however, is rapidly degraded by the protease by cleavage at Tyr483-Leu484 and Tyr532-Leu533. In marked contrast to this p15 segment, both p66/p51 and a folded RNase H construct are stable to breakdown by the protease at neutral pH. It is only at pH values around 4 that these latter proteins appear to unfold and, under these conditions, the heterodimer undergoes extensive proteolysis. RNase H is also hydrolyzed at low pH, but cleavage takes place primarily at Gly436-Ala437 and at Phe440-Tyr441, and only much more slowly at residues 483, 494, and 532. This observation can be reconciled by inspection of crystallographic models of RNase H, which show that residues 483, 494, and 532 are relatively inaccessible in comparison to Gly436 and Phe440. Our results fit a model in which the p66/p66 homodimer exists in a conformation that mirrors that of the heterodimer, but with a p15 segment on one of the protomers that is structurally disordered to the extent that all of its potential HIV protease cleavage sites are accessible for hydrolysis.
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PMID:Human immunodeficiency virus type-1 reverse transcriptase and ribonuclease H as substrates of the viral protease. 750 54

An active p15 RNase H domain, consisting of amino acids 427-560 of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) and a genetically engineered penta-histidine N-terminal affinity tag, was expressed in Escherichia coli and purified to apparent homogeneity by immobilized metal affinity chromatography. The purified p15 RNase H domain exhibited no substrate preference for [3H]poly(rG).poly(dC) compared to [3H]poly(rA).poly(dT), in contrast with the HIV-1 RT-associated RNase H, which showed a 30-fold preference for the former substrate. Unlike the HIV-1 RT-associated RNase H, when challenged with unlabeled substrate, the recombinant p15 RNase H domain was relatively nonprocessive in RNA degradative activity of the [3H]poly(rA).poly(dT) duplex. Kinetic studies using p15 RNase H showed substrate inhibition with an apparent K(i) value of 0.12 micron for the [3H]poly(rA).poly(dT) hybrid. Substrate inhibition was not observed for the HIV-1 RT-associated RNase H. The results show that the isolated p15 HIV-1 RNase H domain is functionally distinct from the recombinant HIV-1 RT-associated RNase H.
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PMID:An active recombinant p15 RNase H domain is functionally distinct from the RNase H domain associated with human immunodeficiency virus type 1 reverse transcriptase. 752 Apr 42

A number of studies have suggested that topoisomerase I (topo I) activity may be important in human immunodeficiency virus type 1 (HIV-1) replication. Specifically it has been reported that purified virus particles have topo I activity and that inhibitors of this enzyme can inhibit virus replication in vitro. We have investigated a possible association of HIV-1 gag proteins with topo I activity. We found that whereas the gag-encoded proteins by themselves do not have activity, the nucleocapsid protein p15 can interact with and enhance the activity of cellular topo I. Furthermore it could be demonstrated that topo I markedly enhanced HIV-1 reverse transcriptase activity in vitro and that this could be inhibited by the topo I-specific inhibitor camptothecin. The findings suggest that cellular topo I plays an important role in the reverse transcription of HIV-1 RNA and that the recruitment of this enzyme may be an important step in virus replication.
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PMID:Human immunodeficiency virus type 1 reverse transcriptase: enhancement of activity by interaction with cellular topoisomerase I. 753 24

The polymerase domain of the human immunodeficiency virus type 1 (HIV-1) reverse transcriptase, called the p51 reverse transcriptase (p51 RT), was expressed in Escherichia coli. The recombinant protein also contained an N-terminal affinity tag designed to facilitate its purification by immobilized metal affinity chromatography. The purified p51 RT is a predominantly monomeric protein and it catalyses RNA-dependent DNA polymerization with poly(rA).oligo(dT) as the template.primer. Recently we have also reported the isolation of the recombinant RNAase H domain of HIV-1 RT that is enzymically active (Evans, Brawn, Deibel, Tarpley and Sharma [1991] J. Biol. Chem. 266, 20583-20585). The latter directly inhibits the RNA-dependent DNA polymerase activity of p51 RT. Kinetic experiments show that the p15 RNAase H-mediated inhibition of p51 RT is competitive with respect to the poly(rA).oligo(dT) template.primer (Ki = 320 +/- 50 nM), and it does not interfere directly with the binding of dTTP to the enzyme. Thus the kinetic behaviour is consistent with the binding of p15 RNAase H at or near the template.primer-binding site in this replicase. If the binding of the p15 RNAase H involves only a small segment of this protein, then identification of that segment may open up new opportunities towards the design of novel inhibitors of RNA-dependent DNA polymerase activity.
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PMID:Inhibition of the RNA-directed DNA polymerase activity of a recombinant HIV-1 p51 reverse transcriptase by a p15 ribonuclease H domain. 767 7

We have exploited the sole tryptophan residue (Trp535) in the ribonuclease H (RNase H) domain of human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) to study features of the isolated polypeptide (p15 RNase H) by fluorescence spectroscopy. Incubation of purified p15 RNase H with a synthetic RNA/DNA hybrid was accompanied by an alteration in Trp535 fluorescence intensity. This property was used to determine an apparent binding constant (Kapp) of 3.5 x 10(6) M-1 for p15 RNase H complexed with poly(rA)/oligo(dT)12-18 and an occluded site size of 4 nucleotides. A cooperativity coefficient (omega) of 910 was also determined which indicated that nearly three logs of the Kapp were due to cooperativity effects. Recombinant p15 RNase H preparations containing mutations at position 478 (Glu478-->Gln478) or 539 (His539 -->Phe539), which are highly conserved between bacterial and retroviral RNases H, were also analyzed. Under the same conditions, these mutants failed to bind the RNA/DNA hybrid, although they were structurally similar to the wild type polypeptide. Fluorescence spectroscopy thus appears to be an alternative and sensitive means of analyzing functional properties of the purified RNase H domain of HIV-1 RT under a variety of conditions.
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PMID:Fluorimetric analysis of recombinant p15 HIV-1 ribonuclease H. 768 4

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

Mutual activation of reproduction of type 1 HIV and herpes simplex types 1 and 2 viruses (HSV) was observed in simultaneous infection of continuous T-cellular lymphoblastoid lines (CEM, 119, Hut-78, MT-4, Jurkat-tat) and U-937 monocytic line. Syncytium formation and cytodestructive pattern of reproduction of viruses of both families in these cell lines necessitated the use of enzyme immunoassay (EIA) to detect the antigens of these viruses in order to assess the level of reproduction. The concentration of HIV antigens in EIA increased in mixed infection by 1.4 to 2.1 times in different cultures in comparison with the culture infected with HIV-1 alone, and concentrations of HSV-1 and HSV-2 increased by 1.3-1.8 times in mixed infection, in comparison with reproduction in lymphoblastoid cultures infected with HSV alone. EIA was alone used to examine the production of IgG and IgM antibodies to Epstein-Barr virus, another representative of Herpesviridae family, in the blood sera of patients with immunodeficiency states in whose sera antibodies to proteins produced by gag HIV gene (p15/17, p24, p55) were detected. Increased concentration of IgG antibodies were revealed in 36% of these patients, whereas in healthy donors the sera with elevated concentrations of IgG to Epstein-Barr virus were far less incident (12%). A hypothesis about mutual activation of HIV and herpes viruses is put forward.
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PMID:[Activation of viral reproduction in a mixed infection with human immunodeficiency virus and herpes viruses]. 771 8

The selective encapsidation of retroviral RNA requires sequences in the Gag protein, as well as a cis-acting RNA packaging signal (psi site) near the 5' end of the genomic transcript. Gag protein of human immunodeficiency virus type 1 (HIV-1) has recently been found to bind specifically to the HIV-1 psi element in vitro. Here we report studies aimed at mapping features within the genetically defined psi locus that are required for binding of HIV-1 Gag or of its processed nucleocapsid derivative. The full-length HIV-1 Gag (p55) and nucleocapsid (p15) sequences were expressed as glutathione S-transferase (GST) fusion proteins in Escherichia coli. In a gel shift assay containing excess competitor tRNA, affinity-purified GST-p15 and GST-p55 proteins bound to a 206-nucleotide psi RNA element spanning the major splice donor and gag start codons but did not bind to antisense psi transcripts. Quantitative filter-binding assays revealed that both GST-p55 and GST-p15 bound to this RNA sequence with identical affinities (apparent Kd congruent to 5 x 10(-8) M), indicating that all major determinants of psi binding affinity reside within the nucleocapsid portion of Gag. Chemical and RNase accessibility mapping, coupled with computerized sequence analysis, suggested a model for psi RNA structure comprising four independent stem-loops. Filter-binding studies revealed that RNAs corresponding to three of these hypothetical stem-loops can each function as a independent Gag binding site and that each is bound with approximately fourfold-lower apparent affinity than the full-length psi locus. Interaction of Gag with these regions is likely to play a major role in directing HIV-1 RNA encapsidation in vivo.
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PMID:RNA secondary structure and binding sites for gag gene products in the 5' packaging signal of human immunodeficiency virus type 1. 788 56

Two commercially available expression vectors were modified to generate plasmids pGEXcPk and pQ9cPk. Proteins expressed from pGEXcPk and pQ9cPk had a short oligopeptide tag termed Pk at their carboxy termini and either glutathione S-transferase (GST) or a small histidine (His) tag, respectively, at their N termini. GST fusion proteins can be purified on immobilized glutathione and proteins coupled to the His tag selectively bind to Ni(2+)-NTA columns. The Pk tag is recognized by monoclonal antibody (MAb) SV5-P-k, previously produced in our laboratory. Thus proteins expressed from the pGEXcPk and pQ9cPk vectors can be purified in a two-step procedure, first via the N-terminal tag and second via the C-terminal tag. The combination of two affinity purification steps significantly improves the antigen purity and selects for full-size proteins. Moreover, by using the MAbSV5-P-k in the second purification step, Pk-linked antigens can be assembled directly into solid matrix-antibody-antigen (SMAA) complexes for use as vaccines. The genes for nef, endonuclease, p15, p17, p27, protease, Rev, reverse transcriptase (rt), tat, vif, vpr, and vpx of simian immunodeficiency virus (SIV mac 251) were cloned and expressed as both GST-SIV-Pk and His-SIV-Pk proteins. Multivalent SMAA complexes were made that contained His-p17-Pk, His-p27-Pk, His-rt-Pk, His-vpx-Pk, and His-vpr-Pk. Following two immunizations of mice with this mixture, antibodies could be detected to all five SIV antigens. When compared to single-protein immunizations, the immunogenicity of some of the proteins in this cocktail was either enhanced or decreased. Mice were also immunized with His-p17-Pk or His-p17-Pk-antibody complexes in the presence or absence of alum. The antibody-antigen complexes induced two- to four-fold higher antibody levels than antigen alone but did not appear to be more immunogenic in inducing lymphoproliferative responses. Sera from SIV-infected macaques were tested for the presence of antibodies reacting with the recombinant proteins by Western blot analysis. Antibodies to endonuclease, p15, p17, p27, rt, and vif were readily detected, antibodies against protease and vpx were present at much lower levels, but no antibodies were detected to nef, rev, tat, or vpr. Thus, we have developed a comprehensive range of reagents (available on request) that can be used to examine immune responses to SIV in both mice and monkeys.
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PMID:Expression and purification of nonglycosylated SIV proteins, and their use in induction and detection of SIV-specific immune responses. 807 30

Viral protein X (Vpx) is a human immunodeficiency virus type 2 (HIV-2) and simian immunodeficiency virus accessory protein that is packaged into virions in molar amounts equivalent to Gag proteins. To delineate the processes of virus assembly that mediate Vpx packaging, we used a recombinant vaccinia virus-T7 RNA polymerase system to facilitate Gag protein expression, particle assembly, and extracellular release. HIV genes were placed under control of the bacteriophage T7 promoter and transfected into HeLa cells expressing T7 RNA polymerase. Western immunoblot analysis detected p55gag and its cleavage products p39 and p27 in purified particles derived by expression of gag and gag-pol, respectively. In trans expression of vpx with either HIV-2 gag or gag-pol gave rise to virus-like particles that contained Vpx in amounts similar to that detected in HIV-2 virus produced from productively infected T cells. Using C-terminal deletion and truncation mutants of HIV-2 Gag, we mapped the p15 coding sequence for determinants of Vpx packaging. This analysis revealed a region (residues 439 to 497) downstream of the nucleocapsid protein (NC) required for incorporation of Vpx into virions. HIV-1/HIV-2 gag chimeras were constructed to further characterize the requirements for incorporation of Vpx into virions. Chimeric HIV-1/HIV-2 Gag particles consisting of HIV-1 p17 and p24 fused in frame at the C terminus with HIV-2 p15 effectively incorporate Vpx, while chimeric HIV-2/HIV-1 Gag particles consisting of HIV-2 p17 and p27 fused in frame at the C terminus with HIV-1 p15 do not. Expression of a 68-amino-acid sequence of HIV-2 containing residues 439 to 497 fused to the coding regions of HIV-1 p17 and p24 also produced virus-like particles capable of packaging Vpx in amounts similar to that of full-length HIV-2 Gag. Sucrose gradient analysis confirmed particle association of Vpx and Gag proteins. These results demonstrate that the HIV-2 Gag precursor (p55) regulates incorporation of Vpx into virions and indicates that the packaging signal is located within residues 439 to 497.
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PMID:Localization of the Vpx packaging signal within the C terminus of the human immunodeficiency virus type 2 Gag precursor protein. 808 57


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