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)

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 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

Noncoded D-amino acids have been designed to replace the quinaldic amide-asparaginyl moiety (P2/P3 ligand) found in several potent human immunodeficiency virus (HIV) protease inhibitors such as LY289612. The substituted nitrogen, optimally an N-methanesulfonyl moiety, served as a CH2CONH2 (asparagine side chain mimic), while the amino acid side chain became the backbone and P3 ligand of these novel inhibitors. Compounds derived from S-aryl-D-cysteine proved to be potent HIV protease inhibitors which also exhibited potent whole cell antiviral activity. Oxidation of the cysteines to the sulfoxide or sulfone oxidation states resulted in significant improvements in potency. For example, the compound derived from N-(methyl-sulfonyl)-2-S-naphthylcysteine sulfone, 17c, was a 3.5 nM inhibitor of HIV protease which inhibited the spread of virus in MT4 cells with an IC50 = 4.3 nM. Compounds 17c,g,i were found to be orally bioavailable in a rat model.
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PMID:Potent human immunodeficiency virus type 1 protease inhibitors that utilize noncoded D-amino acids as P2/P3 ligands. 856 31

The solution structure of a human immunodeficiency virus type-1 (HIV-1) Rev peptide bound to stem-loop IIB of the Rev response element (RRE) RNA was solved by nuclear magnetic resonance spectroscopy. The Rev peptide has an alpha-helical conformation and binds in the major groove of the RNA near a purine-rich internal loop. Several arginine side chains make base-specific contacts, and an asparagine residue contacts a G.A base pair. The phosphate backbone adjacent to a G.G base pair adopts an unusual structure that allows the peptide to access a widened major groove. The structure formed by the two purine-purine base pairs of the RRE creates a distinctive binding pocket that the peptide can use for specific recognition.
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PMID:Alpha helix-RNA major groove recognition in an HIV-1 rev peptide-RRE RNA complex. 870 16

Two primary cell targets for human immunodeficiency virus type 1 (HIV-1) infection in vivo are CD4+ T lymphocytes and monocyte-derived macrophages (MDM). HIV-1 encodes envelope glycoproteins which mediate virus entry into these cells. We have utilized infected and radiolabelled primary peripheral blood mononuclear cell (PBMC) and MDM cultures to examine the biochemical and antigenic properties of the HIV-1 envelope produced in these two cell types. The gp120 produced in MDM migrates as a broad, diffuse band in sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels compared with that of the more homogeneous gp120 released from PBMCs. Glycosidase analyses indicated that the diffuse appearance of the MDM gp120 is due to the presence of asparagine-linked carbohydrates containing lactosaminoglycans, a modification not observed with the gp120 produced in PBMCs. Neutralization experiments, using isogeneic PBMC and MDM-derived macrophage-tropic HIV-1 isolates, indicate that 8- to 10-fold more neutralizing antibody, directed against the viral envelope, is required to block virus produced from MDM. These results demonstrate that HIV-1 released from infected PBMC and MDM cultures differs in its biochemical and antigenic properties.
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PMID:Differential glycosylation, virion incorporation, and sensitivity to neutralizing antibodies of human immunodeficiency virus type 1 envelope produced from infected primary T-lymphocyte and macrophage cultures. 870 76

The hydroxyethylurea human immunodeficiency virus type 1 (HIV-1) protease inhibitors SC-55389A and SC-52151 were used to select drug-resistant variants in vitro. One clinical HIV-1 strain (89-959) and one laboratory HIV-1 strain (LAI) were passaged in peripheral blood mononuclear cells or CEMT4 cells in the presence of SC-55389A. Resistant isolates from both strains consistently had a mutation to serine for asparagine at amino acid 88 (N88S) in the protease gene either alone or in combination with a change to phenylalanine at position 10. The N88S mutation, recreated by oligonucleotide-mediated site-directed mutagenesis in HXB2, was sufficient to confer resistance to SC-55389A. In contrast, SC-52151-resistant variants selected from the monocytotropic strain SF162 had multiple substitutions in the protease gene (I11V, M461, F53L, A71V, and N88D), and the N88D mutation, re-created by oligonucleotide-mediated site-directed mutagenesis in HXB2, did not confer resistance to SC-52151. The potencies of L735,524 and Ro31-8959 were not reduced when these compounds were assayed against variants with either the N88S or N88D substitution. Position 88 is in a helix that lies behind the substrate binding pocket and may indirectly influence inhibitor binding through interactions with the amino acid at position 31. The selected mutations were persistent in the viral populations after more than 20 passages in the absence of drugs. Passaging of virus first in SC-55389A alone and then in combination with SC-52151 resulted in the accumulation of more mutations in the protease gene (L10F, D35E, D37M, I47V, 154L, A71V, V82I, and S88D) and in the selection of a variant that was cross-resistant to multiple protease inhibitors. These results indicate that a mutation in the HIV-1 protease at a position that is located outside of the substrate binding pocket confers resistance to a protease inhibitor and that mutations in the protease gene accumulate with increasing selection pressure and can persist in the absence of selection pressure.
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PMID:A mutation in human immunodeficiency virus type 1 protease at position 88, located outside the active site, confers resistance to the hydroxyethylurea inhibitor SC-55389A. 905 85

The wild-type and mutant derivatives of the integrase protein of feline immunodeficiency virus (FIV) were cloned and expressed in Escherichia coli. The purified proteins were examined using various model DNA substrates for their catalytic activities: 3'-end processing, 3'-end joining, and disintegration. The reactions required the presence of either Mn2+ or Mg2+ as a divalent cation. The N-terminal and C-subterminal domains (residues 1-52 and 189-235, respectively) were necessary for 3'-end processing and joining reactions but not for disintegration. Substitution of asparagine for the highly conserved aspartic acid at position 118 resulted in a complete loss of all three activities, confirming that the catalytic domain resides in the central core region (residues 53-188) of the protein. Deletion of the C-terminus (residues 236-281) resulted in a FIV integrase mutant that had efficient 3'-end processing and disintegration activities but weak 3'-end joining activity, a finding that has not been reported previously with other retroviral integrases. The result suggests that the C-terminus is the primary binding site for target DNA. Attachment of a histidine-tag at the N-terminus of the wild-type and deletion derivatives increased the binding affinity to the DNA substrate, resulting in altered levels of catalytic activities and selection of integration sites. Similar to other retroviral integrases, certain pairs of mutant derivatives of FIV integrase could complement each other to restitute 3'-end processing and joining activities, suggesting that formation of functional multimers is a general feature of proteins in the integrase family.
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PMID:Characterization of feline immunodeficiency virus integrase and analysis of functional domains. 912 57

The chemoenzymatic synthesis of a glycopeptide by chemical synthesis of N-acetylglucosaminyl peptide and enzymatic transfer of an oligosaccharide is described. We synthesized glycosylated Peptide T which blocks infection of human T cells by human immunodeficiency virus. The first step of the chemoenzymatic method is the solid-phase chemical synthesis of N-acetylglucosaminyl Peptide T (Ala-Ser-Thr-Thr-Thr-Asn(GlcNAc)-Tyr-Thr) with an N-acetylglucosamine moiety bound to the asparaginyl residue by a solid-phase method. This product was prepared in high yield by the dimethylphosphinothioic mixed anhydride method without protecting the hydroxyl functions of the sugar moiety using Fmoc-N-acetylglucosaminyl asparagine instead of Fmoc-asparagine. The second step was transglycosylation of complex type oligosaccharide to N-acetylglucosaminyl Peptide T by a microbial endoglycosidase. The endo-beta-N-acetylglucosaminidase of Mucor hiemalis transfer the oligosaccharide of human transferrin glycopeptide to N-acetylglucosaminyl Peptide T. The transglycosylation product was confirmed to be the glycosylated Peptide T with a sialo biantennary complex type oligosaccharide by mass spectrometry. The glycosylated Peptide T was highly stable against proteolysis in comparison to native Peptide T and N-acetylglucosaminyl Peptide T.
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PMID:Chemoenzymatic synthesis of a novel glycopeptide using a microbial endoglycosidase. 964 60

Nelfinavir mesylate (formerly AG1343) is a potent and selective inhibitor of human immunodeficiency virus (HIV) protease approved for the treatment of individuals infected with HIV. Nucleotide sequence analysis of protease genes from plasma HIV type 1 (HIV-1) RNA revealed a unique aspartic acid (D)-to-asparagine (N) substitution at residue 30 (D30N) in 25 of 55 patients treated with nelfinavir for a median of 13 weeks. Although the appearance of D30N was occasionally associated with concurrent or sequential emergence of other changes (e.g., at residues 35, 36, 46, 71, 77, and 88), genotypic changes associated with phenotypic resistance to other protease inhibitors were not observed (e.g., at residues 48, 50, 82, and 84) or were only rarely observed (e.g., at residue 90). In phenotypic assays, viral isolates with high-level resistance to nelfinavir remained susceptible to indinavir, saquinavir, ritonavir, and amprenavir (formerly VX-478/141W94). Similar results were observed in phenotypic assays utilizing HIV-1 NL4-3, which contained the D30N substitution alone or in combination with substitutions at other residues (e.g., residues 46, 71, and 88). These data indicate that the initial pathway of resistance to nelfinavir is unique and suggest that individuals failing short courses of nelfinavir-containing regimens may respond to regimens containing other protease inhibitors.
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PMID:Genotypic and phenotypic characterization of human immunodeficiency virus type 1 variants isolated from patients treated with the protease inhibitor nelfinavir. 975 69

A collaborative group for studying vertical transmission of human immunodeficiency virus (HIV)-1 in pregnant women and their babies was established in Japan in 1989. Forty-two infants, including 13 HIV-1-infected, 25 uninfected and four of undetermined status and 15 control children born to HIV-1 negative mothers were diagnosed and followed from birth to 1.5 years. All strains from HIV-positive infants were either clade E (eight infants, 61.5%) or B (five infants, 38.5%) according to DNA sequencing specific for the HIV-1 C2-V3 region. The 42 mothers with HIV-1 were women with sexual-risk behavior from all regions, but were concentrated in the Kanto District. In this group of HIV-infected children, there was no significant difference between the transmissibility of their mother's clade E and B viruses. Eight (61.5%) of the 13 virus-infected babies were Japanese and five (62.5%) of the eight were positive for HIV-1 clade E. The V3 loop region of the clade E virus of the babies was conserved but approximately 60% of the sequences which showed a substitution of aspartic acid by asparagine at position 29. The results suggest that HIV-1 clade E may be predominant in vertical transmissions and are phenotypically different from HIV-1 in persons with various other risk behaviors in Japan.
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PMID:Vertical transmission of human immunodeficiency virus type 1 in Japan, 1989-1997: presence of two subtypes B and E with subtype E predominance. National Cooperative Study Investigators on Vertical Transmission of HIV-1. 982 18


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