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)

The differences in substrate specificity between Moloney murine leukemia virus protease (MuLV PR) and human immunodeficiency virus (HIV) PR were investigated by site-directed mutagenesis. Various amino acids, which are predicted to form the substrate binding site of MuLV PR, were replaced by the equivalent ones in HIV-1 and HIV-2 PRs. The expressed mutants were assayed with the substrate Val-Ser-Gln-Asn-Tyr decreases Pro-Ile-Val-Gln-NH2 (decreases indicates the cleavage site) and a series of analogs containing single amino acid substitutions in positions P4(Ser) to P3'(Val). Mutations at the predicted S2/S2' subsites of MuLV PR have a strong influence on the substrate specificity of this enzyme, as observed with mutants H37D, V39I, V54I, A57I, and L92I. On the other hand, substitutions at the flap region of MuLV PR often rendered enzymes with low activity (e.g. W53I/Q55G). Three amino acids (His-37, Val-39, and Ala-57) were identified as the major determinants of the differences in substrate specificity between MuLV and HIV PRs.
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PMID:Mutational analysis of the substrate binding pocket of murine leukemia virus protease and comparison with human immunodeficiency virus proteases. 749 42

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

The third hypervariable region, or V3 loop, represents the principal neutralizing domain of the gp120 envelope glycoprotein of human immunodeficiency virus type 1 (HIV-1). Sequential viral isolates from a laboratory worker (LW) accidentally infected with HIV-1IIIB in 1985 were analyzed using type-specific neutralizing monoclonal antibodies directed to the V3 loop. A single amino acid substitution, Ala-->Thr at position 21 in the V3 loop of HIV-1LW isolated in 1987, was shown to determine the loss of the neutralizing epitope recognized by one of the monoclonal antibodies (M77). However, this antibody efficiently recognized linear V3 loop peptides containing either the Ala or Thr residue at position 21, indicating that a local change in conformation was responsible for the epitope loss in the native gp120. Molecular modeling studies, experimentally supported by different amino acid replacements at position 21, indicated that the Ala-->Thr substitution leads to a drastic change in the domain of the V3 loop, which contains the complementary surface for antibody binding. These results provide evidence for the first time that a conformation-dependent epitope within the V3 loop of HIV-1 is involved in the generation of neutralization escape mutants in vivo.
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PMID:Loss of a neutralizing epitope by a spontaneous point mutation in the V3 loop of HIV-1 isolated from an infected laboratory worker. 750 90

A recombinant clone of human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) with reduced sensitivity to 3'-azido-3'-deoxythymidine 5'-triphosphate (AZTTP) and phosphonoformate (PFA), a pyrophosphate analog, has been obtained from the RNA of HTLV-IIIB infected cells using the polymerase chain reaction. The mutant HIV-1 RT retained polymerase activity and was cross-resistant to triphosphate forms of other nucleoside analogs including 2',3'-dideoxycytidine 5'-triphosphate, 2',3'-dideoxyadenosine 5'-triphosphate, and 3'-deoxy-2',3'-didehydrothymidine 5'-triphosphate (D4TTP), but remained sensitive to the non-nucleoside HIV-1 RT inhibitors, such as nevirapine and TIBO R82150. Sequence analysis of the mutant HIV-1 RT revealed a single amino acid substitution (Val-->Ala) at amino acid 90. The substitution of amino acid 90 by the closely related amino acids, such as Thr and Gly, also showed decreased sensitivity to AZTTP, D4TTP, and PFA. All these mutations at amino acid 90 also caused an alteration of Km for thymidine triphosphate. These results suggest that Val at this site plays a role in determining the interaction of the HIV-1 RT enzyme with the pyrophosphate group of deoxynucleoside triphosphate (dNTP) and that the hydrophobicity of the amino acid at this position was the most important determinant in the binding of HIV-1 RT to dNTP.
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PMID:Identification of the amino acid in the human immunodeficiency virus type 1 reverse transcriptase involved in the pyrophosphate binding of antiviral nucleoside triphosphate analogs and phosphonoformate. Implications for multiple drug resistance. 750 27

A neutralization-resistant variant of human immunodeficiency virus type 1 (HIV-1) that emerged during in vitro propagation of the virus in the presence of neutralizing serum from an infected individual has been described. A threonine-for-alanine substitution at position 582 in the gp41 transmembrane envelope glycoprotein of the variant virus was responsible for the neutralization-resistant phenotype (M.S. Reitz, Jr., C. Wilson, C. Naugle, R. C. Gallo, and M. Robert-Guroff, Cell 54:57-63, 1988). The mutant virus also exhibited reduced sensitivity to neutralization by 30% of HIV-1-positive sera that neutralized the parental virus, suggesting that a significant fraction of the neutralizing activity within these sera can be affected by the amino acid change in gp41 (C. Wilson, M. S. Reitz, Jr., K. Aldrich, P. J. Klasse, J. Blomberg, R. C. Gallo, and M. Robert-Guroff, J. Virol. 64:3240-3248, 1990). It is shown here that the change of alanine 582 to threonine specifically confers resistance to neutralizing by antibodies directed against both groups of discontinuous, conserved epitopes related to the CD4 binding site on the gp120 exterior envelope glycoprotein. Only minor differences in binding of these antibodies to wild-type and mutant envelope glycoproteins were observed. Thus, the antigenic structure of gp120 can be subtly affected by an amino acid change in gp41, with important consequences for sensitivity to neutralization.
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PMID:Resistance to neutralization by broadly reactive antibodies to the human immunodeficiency virus type 1 gp120 glycoprotein conferred by a gp41 amino acid change. 750 84

The crystal structure of a complex between a 24-amino acid peptide from the third variable (V3) loop of human immunodeficiency virus-type 1 (HIV-1) gp 120 and the Fab fragment of a broadly neutralizing antibody (59.1) was determined to 3 angstrom resolution. The tip of the V3 loop containing the Gly-Pro-Gly-Arg-Ala-Phe sequence adopts a double-turn conformation, which may be the basis of its conservation in many HIV-1 isolates. A complete map of the HIV-1 principal neutralizing determinant was constructed by stitching together structures of V3 loop peptides bound to 59.1 and to an isolate-specific (MN) neutralizing antibody (50.1). Structural conservation of the overlapping epitopes suggests that this biologically relevant conformation could be of use in the design of synthetic vaccines and drugs to inhibit HIV-1 entry and virus-related cellular fusion.
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PMID:Crystal structure of the principal neutralization site of HIV-1. 751 Dec 53

Mutation in the human immunodeficiency virus type 1 reverse transcriptase (RT) at codon 215 has been shown to play a significant role in resistance to zidovudine (AZT). Substitution of threonine with tyrosine or phenylalanine alone confers decreased susceptibility to the inhibitor. In this study we constructed a panel of 10 viruses with different amino acids at this codon, including 7 novel mutants, and assessed their susceptibilities to AZT. The majority of the new mutants were AZT sensitive, whereas the Thr-215-->Trp mutant was partially resistant (threefold less susceptible). A combination of the Thr-215-->Trp with the other AZT resistance mutations Lys-70-->Arg and Met-41-->Leu gave additive resistance. The Thr-215-->Phe virus was less AZT resistant than the Thr-215-->Tyr mutant, both on its own and when each was combined with the Met-41-->Leu mutant. These observations confirm the general hypothesis that increased bulk of the amino acid side chains at this position confers decreased AZT sensitivity. A leucine-to-valine substitution at codon 74 has previously been found to confer dideoxynucleoside resistance. We constructed mutants with five novel amino acid substitutions (Ala, Gly, Glu, Met, and Asp) at codon 74. Of these, only one (that with the Met substitution) retained enough RT activity to yield viable virus. It thus appears that there are severe structure-function constraints on the amino acid side chains at this position in the enzyme. The activities of the Leu-74-->Ala and Leu-74-->Met RT enzymes expressed in Escherichia coli appeared to have reduced susceptibility to ddGTP compared with the wild-type enzyme. The mutants described in this work may prove useful for correlation with structural studies of the human immunodeficiency virus type 1 RT.
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PMID:Mutagenic study of codons 74 and 215 of the human immunodeficiency virus type 1 reverse transcriptase, which are significant in nucleoside analog resistance. 751 65

Previously we identified the highly conserved amino acids Glu-Leu-Asp-Lys-Trp-Ala (ELDKWA) on the ecto-domain of gp41 as the epitope of a neutralizing monoclonal antibody (2F5) directed against human immunodeficiency virus type 1. In the present study, the sequence defining the epitope was introduced into the loop of antigenic site B of the influenza virus hemagglutinin. The resulting chimeric virus was able to elicit ELDKWA-specific immunoglobulins G and A in antisera of mice. Moreover, the distantly related human immunodeficiency virus type 1 isolates MN, RF, and IIIB were neutralized by these antisera. These data suggest that this conserved B-cell epitope is a promising candidate for inclusion in a vaccine against AIDS. The results also show that influenza virus can be used to effectively present the antigenic structure of this B-cell epitope.
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PMID:Cross-neutralizing activity against divergent human immunodeficiency virus type 1 isolates induced by the gp41 sequence ELDKWAS. 751 84

The human immunodeficiency virus type 1 (HIV-1)-specific reverse transcriptase (RT) inhibitor quinoxaline S-2720 showed a more-potent inhibitory effect on HIV-1-induced cytopathicity in CEM cells than either nevirapine, pyridinone L-697,661, bis-heteroarylpiperazine (BHAP) U-88204, TSAO ([2',5'-bis-O-(tert-butyldimethylsilyl)-beta-D-ribofuranosyl]-3'-spiro-5 "- (4-amino-1",2"-oxathiole-2",2"-dioxide)-N3-ethylthymine, or 4,5,6,7-tetrahydro-5-methylimidazo[4,5,1-jk][1,4-benzodiazepin-2(I H)-one (TIBO) R82913. The quinoxaline derivative was also markedly more inhibitory to the mutant HIV-1 strains containing in their RT Ile-100, Asn-103, Ala-106, Lys-138, Cys-181, or His-188 substitutions than were the other HIV-1-specific RT inhibitors. Moreover, quinoxaline S-2720 totally prevented HIV-1 infection and emergence of drug-resistant mutant virus strains in CEM cell cultures at concentrations (i.e., 0.35 microM) that are 10- to 25-fold lower than those required for BHAP U-88204 and nevirapine to knock out the virus. Also, the concentration-response curve for S-2720 was markedly steeper than for BHAP and nevirapine, as reflected by the ratio of the 95% to the 50% antivirally effective concentration. Lower concentrations of quinoxaline dominantly lead to the appearance of the Ala-106 RT mutation, causing low-level resistance to the compound. At higher quinoxaline concentrations, the Glu-190 RT and/or the Cys-181 RT mutation is added to the Ala-106 mutation, whereas at the highest quinoxaline concentrations, the Ala-106 mutation tends to disappear from the virus pool, leaving the Glu-190 RT and Cys-181 RT mutations as the only mutations conferring high-level resistance to the compound.
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PMID:Resistance pattern of human immunodeficiency virus type 1 reverse transcriptase to quinoxaline S-2720. 752 84

A set of mutations [Ala-62-->Val(A62V), V75I, F77L, F116Y, and Q151M] in the polymerase domain of reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1) confers on the virus a reduced sensitivity to multiple antiretroviral dideoxynucleosides and has been seen in HIV-1 variants isolated from patients receiving combination chemotherapy with 3'-azido-3'-deoxythymidine (AZT) plus 2',3'-dideoxycytidine (ddC) or 2',3'-dideoxyinosine (ddI). The IC50 values of AZT, ddC, ddI, 2',3'-dideoxyguanosine, and 2',3'-didehydro-3'-deoxythymidine against an infectious clone constructed to include the five mutations were significantly higher than those of a wild-type infectious clone. The K1 value for AZT 5'-triphosphate determined for the virus-associated RT from a posttherapy strain was 35-fold higher than that of RT from a pretherapy strain. Detailed analysis of HIV-1 strains isolated at various times during therapy showed that the Q151M mutation developed first in vivo, at the time when the viremia level suddenly increased, followed by the F116Y and F77L mutations. All five mutations ultimately developed, and the viremia level rose even further. Analyses based on the three-dimensional structure of HIV-1 RT suggest that the positions where at least several of the five mutations occur are located in close proximity to the proposed dNTP-binding site of RT and the first nucleotide position of the single-stranded template.
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PMID:Emergence of human immunodeficiency virus type 1 variants with resistance to multiple dideoxynucleosides in patients receiving therapy with dideoxynucleosides. 753 21

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