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)

vpr is an accessory gene of human immunodeficiency virus I (HIV-I). Although unnecessary for viral replication in T cell lines, growing evidence suggests that it is essential for virus replication in monocytes/macrophages and for replication in vivo. We expressed HIV-I vpr in Escherichia coli and purified Vpr by affinity chromatography. In a coprecipitation assay, the purified Vpr interacted specifically with a cellular protein designated as Vpr-interacting protein, or RIP. Mutational analysis suggested that this interaction required a domain rich in leucine/isoleucine residues and highly conserved between HIV-I and SIVmac Vprs. During transient expression in mammalian cells, HIV-I Vpr was localized in the nucleus. However, mutational analysis failed to identify in Vpr a typical nuclear localization signal rich in basic amino acid residues. Instead, Vpr nuclear localization seemed to correlate with Vpr interaction with RIP. Mutations in the C-terminal 20-amino acid region containing a cryptic nuclear localization signal did not abolish Vpr nuclear localization or interaction with RIP, whereas point mutations in the leucine/isoleucine-rich domain abolished Vpr interaction with RIP and rendered Vpr unstable during transient expression. These results suggest that RIP may be involved in Vpr function.
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PMID:Biochemical mechanism of HIV-I Vpr function. Specific interaction with a cellular protein. 819 3

Human immunodeficiency virus (HIV) dementia is a common clinical syndrome of uncertain pathogenesis in patients with AIDS. In several animal models of retrovirus-induced brain disease, specific viral envelope sequences have been found to influence the occurrence of central nervous system disease. Therefore, to search for unique envelope sequences correlated with HIV dementia, we studied 22 HIV-infected patients who were neurologically assessed premortem and classified into demented (HIVD) (n = 14) and nondemented (ND) (n = 8) groups. Using DNA from autopsied brain and spleen, we amplified, cloned, and sequenced a 430-nucleotide region including the V3 loop and flanking regions. All brain-derived clones in both clinical groups showed marked homology to the macrophage-tropic consensus sequence within the V3 loop. Two amino acid positions within (position 305) and outside (position 329) the V3 region showed significant divergence between the two clinical groups. At position 305, a histidine was predominant in the HIVD group and was not observed in the ND group, but a proline was predominant in the ND group and was not observed in the HIVD group. Similarly, at position 329, a leucine was predominant in the HIVD group but rarely observed in the ND group, whereas an isoleucine was predominant in the ND group at this position. In addition, the HIVD group had 21 amino acid residues at specific positions that were unique relative to the ND group, whereas only 2 residues at specific positions were unique to the ND group. These data suggest that distinct HIV envelope sequences are associated with the clinical expression of HIV dementia.
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PMID:Demented and nondemented patients with AIDS differ in brain-derived human immunodeficiency virus type 1 envelope sequences. 820 38

A synthetic peptide, RPI 312, that specifically inhibits the protease of the human immunodeficiency virus type 1 (HIV-1) showed a potent inhibition on virus production, maturation, and infectivity. Treatment with this agent prevented the cleavage of Gag protein at the site between p17 and p24 in HIV-1 chronically infected MOLT-4 cells as well as in the released virus. Passage of HIV-1 in the presence of gradually increasing concentrations of this protease inhibitor resulted in emergence of a variant that could evade the drug effects. In the resistant variant the maturation of Gag proteins appeared normal, but its infectivity was reduced compared with that of the parent virus. The nucleotides coding the amino acids at and around the cleavage site between Gag proteins p17 and p24 were not changed. One point mutation (A-->G) at site 2082 of the pol gene that resulted in one amino acid change at site 84 of the protease from isoleucine to valine (I-84-->V) could be detected in the resistant variant. An HIV-1 infectious DNA clone with the I-84-->V mutation also showed reduced sensitivity to this protease inhibitor. The findings that the resistant variant had lower infectivity and was still affected by higher doses of the drug support the speculation that resistance to protease inhibitors may not be as problematic as other drug resistance.
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PMID:Generation and characterization of a human immunodeficiency virus type 1 (HIV-1) mutant resistant to an HIV-1 protease inhibitor. 825 33

The fourth conserved region (C4) of human immunodeficiency virus type 1 (HIV-1) surface glycoprotein has been shown to participate in CD4 binding and to influence viral tropism (A. Cordonnier, L. Montagnier, and M. Emerman, Nature [London] 340:571-574, 1989). To define the role of the corresponding region of HIV-2, we introduce single amino acid changes into the C4 sequence of HIV-2ROD. The effects of these mutations on glycoprotein function and on virus infectivity have been examined. We have shown that the tryptophan residue at position 428 is necessary primarily for CD4 binding. The isoleucine residue at position 421 is necessary for the establishment of productive infection in the promonocytic cell line U937, while it is dispensable to some extent for infection of primary T lymphocytes or the lymphocytic cell line SUP-T1. This replication defect correlated with the failure of the Ile-421-to-Thr (Ile-421-->Thr) mutant glycoprotein to form syncytia in U937 cells. DNA analysis of revertant viruses revealed that a strong selective pressure was exerted on residue 421 of the surface glycoprotein to allow HIV-2 infection of U937 cells. These results demonstrate that this region of HIV-2 plays an important role in determining fusion efficiency in a cell-dependent manner and consequently can influence viral tropism.
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PMID:Amino acid changes in the fourth conserved region of human immunodeficiency virus type 2 strain HIV-2ROD envelope glycoprotein modulate fusion. 837 58

The N-terminal region of the envelope (env) transmembrane protein of human immunodeficiency virus type 1 (HIV-1) has a leucine zipper-like motif. This highly conserved zipper motif, which consists of a heptad repeat of leucine or isoleucine residues, has been suggested to play a role in HIV-1 env glycoprotein oligomerization. This hypothesis was tested by replacing the highly conserved leucine or isoleucine residues in the zipper motif with a strong alpha-helix breaker, proline. We report here that such substitutions did not abolish the ability of env protein to form oligomers, indicating that this highly conserved zipper motif does not have a crucial role in env protein oligomerization. However, the mutant viruses all showed impaired infectivity, suggesting that this conserved zipper motif can have an important role in the virus life cycle.
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PMID:Mutational analysis of the leucine zipper-like motif of the human immunodeficiency virus type 1 envelope transmembrane glycoprotein. 849 69

Many regions within the envelope of human immunodeficiency virus type 1 (HIV-1) that affect its structure and function have been identified. We have previously reported that the interaction of the second conserved (C2) and third variable (V3) regions of gp120 influences the ability of HIV-1 to establish a productive infection in susceptible cells. To better understand the basis for this interaction, we have conducted structure-function analyses of envelope expressed from molecular proviral clones of HIV-1 containing defined mutations in C2 and V3 that individually and in combination differentially affect envelope function. The substitution of a glutamine for an asparagine residue (Q-267) at a potential asparagine-linked glycosylation site in C2, which severely impairs virus infectivity, reduces intracellular processing of gp160 into gp120, the association of gp120 with virions, and the ability of gp120 to bind to the HIV-1 cell surface receptor protein, CD4. The change of an arginine to an isoleucine codon in V3 (I-308), in the presence of the Q-267 mutation, restores virus infectivity to near wild-type levels by increasing the amount of gp120 associated with virions as compared with the Q-267 mutant but does not compensate for the Q-267-induced processing defect. The I-308 change in the context of the wild-type HIV-1 has no affect on processing, association, or CD4 binding. These results indicate that the impaired infectivity of the Q-267 mutant virus is due to a marked reduction in the amount of virion gp120 and suggest that the interaction of C2 and V3 stabilizes the association of gp120 with gp41.
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PMID:Association of human immunodeficiency virus type 1 envelope glycoprotein with particles depends on interactions between the third variable and conserved regions of gp120. 849 72

The second major cysteine loop of human immunodeficiency virus type 1 envelope glycoprotein gp120 contains 5 to 11 consensus N-linked glycosylation sites, which is disproportionately higher than the number of such sites found in other regions of gp120. Amino acid substitutions introduced at three of six N-linked glycosylation sites in this region of an infectious molecular clone, HXB2, resulted in severe impairment of virus infectivity. Isolation and genetic characterization of a revertant of this mutant revealed an isoleucine-for-valine substitution at position 84 in constant region 1 and an isoleucine-for-methionine substitution at position 434 in constant region 4. Further mutational analysis indicated that either isoleucine substitution was sufficient to confer the revertant phenotype. These findings demonstrate that V1/V2 not only functionally interacts with C4, as previously reported, but also interacts with C1. The observation that compensatory changes do not involve regeneration of N-linked glycosylation sites in the second major cysteine loop suggests that replication of human immunodeficiency virus type 1 in vitro is independent of the presence of a disproportionate number of N-linked glycosylation sites within this loop.
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PMID:Single amino acid substitution in constant region 1 or 4 of gp120 causes the phenotype of a human immunodeficiency virus type 1 variant with mutations in hypervariable regions 1 and 2 to revert. 852 79

The molecular interaction of the Fab fragment of the human monoclonal antibody 3D6, directed against the transmembrane protein gp41 of human immunodeficiency virus (HIV) 1, with its peptide epitope is characterized by a panel of overlapping peptides, a peptide epitope library and molecular modeling techniques. The sequence CSGKLICTTAVPW, corresponding to amino acids 605-617 of gp41, was identified as the best binding peptide (KD = 1 x 10(-8) mol/l). This peptide served as a starting point to prepare a cellulose-bound peptide epitope library in which each residue of the epitope is substituted by all L- and D-amino acids, resulting in 494 epitope peptide variants which were subsequently analyzed for binding 3D6. The library was synthesized to identify residues critical for binding and to obtain information about the molecular environment of the epitope peptide bound to 3D6. Both cysteine residues, as well as isoleucine 6, threonine 8 and proline 12, of the epitope were highly sensitive to substitution. Using the data obtained from the epitope characterization, as well as a low-resolution electron density map of a 3D6 Fab-peptide complex, a 3-D model of the Fab-peptide complex was generated by molecular modeling. The modeling experiments predict binding of the peptide, which is cyclized via the two cysteine residues, to a pocket formed dominantly by the hypervariable loops complementarity determining regions CDR3L, CDR2H and CDR3H.
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PMID:Interaction between a Fab fragment against gp41 of human immunodeficiency virus 1 and its peptide epitope: characterization using a peptide epitope library and molecular modeling. 853 69

Envelope oligomerization is thought to serve several crucial functions during the life cycle of human immunodeficiency virus type 1 (HIV-1). We recently reported that virus entry requires coiled-coil formation of the leucine zipper-like domain of the HIV-1 transmembrane envelope glycoprotein gp41 (C. Wild, T. Oas, C. McDanal, D. Bolognesi, and T. Matthews, Proc. Natl. Acad. Sci. USA 89:10537-10541, 1992; C. Wild, J. W. Dubay, T. Greenwell, T. Baird, Jr., T. G. Oas, C. McDanal, E. Hunter, and T. Matthews, Proc. Natl. Acad. Sci. USA 91:12676-12680, 1994). To determine the oligomeric state mediated by this region of the envelope, we have expressed the zipper motif as a fusion partner with the monomeric maltose-binding protein of Escherichia coli. The biophysical properties of this protein were characterized by velocity and equilibrium sedimentation, size exclusion chromatography, light scattering, and chemical cross-linking analyses. Results indicate that the leucine zipper sequence from HIV-1 is capable of multimerizing much larger and otherwise monomeric proteins into extremely stable tetramers. Recombinant proteins containing an alanine or a serine substitution at a critical isoleucine residue within the zipper region were also generated and similarly analyzed. The alanine- and serine-substituted proteins behaved as tetrameric and monomeric species, respectively, consistent with the influence of these same substitutions on the helical coiled-coil structure of synthetic peptide models. On the basis of these findings, we propose that the fusogenic gp4l structure involves tetramerization of the leucine zipper domain which is situated approximately 30 residues from the N-terminal fusion peptide sequence.
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PMID:Biophysical characterization of recombinant proteins expressing the leucine zipper-like domain of the human immunodeficiency virus type 1 transmembrane protein gp41. 862 74

We describe mutations in the hepatitis B virus (HBV) polymerase gene in viruses which reactivated in two patients during therapy with -2'-deoxy-3'-thiacytidine, or lamivudine (3TC), and following orthotopic liver transplantation for chronic hepatitis B. Virus resistance to 3TC is associated with mutations which lead to amino acid substitutions in the highly conserved tyr-met-asp-asp (YMDD) motif, part of the active site of the polymerase, and which parallel those seen in resistant human immunodeficiency virus (HIV). Substitutions of valine and isoleucine for methionine were found in the two cases. The significance of single secondary mutations, which differ between viruses from the two patients, remains to be determined. Thus, viral resistance to lamivudine of hepatitis B virus mimics that of HIV and can occur in the setting of immunosuppression after liver transplantations.
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PMID:Selection of mutations in the hepatitis B virus polymerase during therapy of transplant recipients with lamivudine. 878 47


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