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)

Plasma membrane fluidity of intact peripheral blood lymphocytes (PBL) of phenytoin-treated nonepileptic patients and phenytoin-treated CD4+ lymphoid cells H9 and K37 was determined by fluorescence anisotropy measurements. Anisotropy values of the membrane probe 6-(9-anthroyloxy) stearic acid were decreased in all cell types as compared with controls, indicating increased plasma membrane fluidity of phenytoin-treated cells. Specific binding of 125I-labeled vasoactive intestinal peptide (VIP) to its cellular receptor CD4 on PBL was decreased in PBL of phenytoin-treated patients as compared with untreated, healthy subjects. Adsorption of a different ligand to the CD4 receptor on PBL, the human immunodeficiency virus type 1 (HIV-1), was likewise abolished to PBL of phenytoin-treated patients and phenytoin-treated CD4+ H9 and K37 cells, as assessed by indirect immunofluorescence. Subsequent HIV-1 infection of phenytoin-treated H9 and K37 cells was reduced as measured by indirect immunofluorescence and p24 antigen production. These data indicate that CD4 receptor availability for VIP and HIV-1 was reduced in phenytoin-treated cells. Using the DNA-specific dye Hoechst 33258, we examined cell cycle phase distributions of HIV-1 adsorbing and nonadsorbing H9 cells, as separated by flow cytometry. The majority of HIV-1 adsorbing cells were found to be in the G2/M phase, while nonadsorbing cells were mainly in the G0/G1 phase, during which plasma membrane fluidity is supposed to be increased. This study indicates that plasma membrane fluidization by phenytoin may serve to disrupt CD4 receptor function and emphasizes the impact of plasma membrane properties on HIV-1 adsorption and infection.
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PMID:Decreased binding of HIV-1 and vasoactive intestinal peptide following plasma membrane fluidization of CD4+ cells by phenytoin. 197 37

We studied the ability of several polyionic compounds, previously shown to have activity in vitro against human immunodeficiency virus (anti-HIV) to block binding of anti-CD4 and recombinant HIV gp120 to the CD4 receptor on human lymphocytes. We found that Evans blue and aurin tricarboxylic acid could completely inhibit binding of anti-CD4 (Leu3a) and rgp120 and have selectivity for the CD4 receptor. A number of other compounds, including dextran sulfate and heparin had no effect on binding of rgp120 and were shown to be nonspecific for inhibition of binding of monoclonal antibodies to different T-cell receptors. Studies using a number of membrane-active drugs showed that changes in membrane potential or ion fluxes were not involved in the inhibition of binding of rgp120 by Evans blue or aurin tricarboxylic acid.
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PMID:Polyionic compounds selectively alter availability of CD4 receptors for HIV coat protein rgp120. 197 10

The V3 loop, located near the middle of the surface envelope glycoprotein gp120, is the major neutralizing domain of human immunodeficiency virus type 1 (HIV-1). Although the majority of the V3 loop is highly variable between different strains of HIV-1, a Gly-Pro-Gly-Arg motif at the tip of the loop is highly conserved. To determine whether this region plays a role in fusion mediated by the HIV-1 envelope glycoproteins, we introduced seven single-amino-acid changes in the V3 loop. The mutant envelope glycoproteins were expressed from an HIV-1 envelope expression vector and analyzed for their ability to induce cell fusion in the absence of virus replication. Our results indicated that single-amino-acid changes in the V3 loop were capable of completely abolishing or greatly reducing the ability of the HIV-1 envelope glycoproteins to induce cell fusion, thereby identifying the V3 loop as a fusion domain of HIV-1. Mutations in the highly conserved tip of the loop or in a nonconserved region flanking the highly conserved tip had no effect on envelope glycoprotein synthesis, processing, transport, or binding to the CD4 receptor molecule. Mutation of the putative disulfide bridge-forming Cys at residue 336 blocked gp160 cleavage and CD4 binding.
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PMID:Identification of the principal neutralizing determinant of human immunodeficiency virus type 1 as a fusion domain. 198 97

Strains of human immunodeficiency virus type 1 (HIV-1) display a high degree of biological heterogeneity which may be linked to certain clinical manifestation of AIDS. They vary in their ability to infect different cell types, to replicate rapidly and to high titre in culture, to down-modulate the CD4 receptor, and to cause cytopathic changes in infected cells. Some of these in vitro properties correlate with pathogenicity of the virus in vivo. To map the viral determinants of the cellular host range of HIV-1, recombinant viruses were generated between biologically active molecular clones of HIV-1 isolates showing differences in infection of primary peripheral blood macrophages and established T-cell lines. We report here that a specific region of the envelope gp120 gene representing 159 amino-acid residues of glycoprotein gp120 seems to determine macrophage tropism, whereas an overlapping region representing 321 amino-acid residues determines T cell-line tropism. These studies provide a basis for relating functional domains of the HIV-1 env gene to pathogenic potential.
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PMID:Macrophage and T cell-line tropisms of HIV-1 are determined by specific regions of the envelope gp120 gene. 198 8

The highly glycosylated envelope glycoprotein (gp 160) of human immunodeficiency virus (HIV) interacts with the CD4 molecule present on the membrane of CD4+ cells and is involved in the pathobiology of HIV infection. Lectins bind glycoproteins through non-covalent interactions with specific hexose residues. The mammalian C-type lectin bovine conglutinin was examined for its ability to interact with recombinant gp160 (rgp160) produced in vaccinia virus-infected BHK21 cells. Specific binding of conglutinin to rgp160 was demonstrated by ELISA. The interaction of bovine conglutinin with rgp160 was calcium-dependent, which is characteristic of the binding of a C-type lectin to its ligand, and the binding was inhibited in a dose-dependent manner with N-acetyl-D-glucosamine. Deglycosylation of rgp160 abrogated the conglutinin binding. In addition, conglutinin exerted a dose-dependent inhibition of the binding of rgp160 to the CD4 receptor on CEM 13 cells, as demonstrated by FACS analyses. These results indicate that conglutinin may inhibit the infection with HIV-1 through its interaction with the viral envelope glycoprotein.
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PMID:Conglutinin binds the HIV-1 envelope glycoprotein gp 160 and inhibits its interaction with cell membrane CD4. 199 9

This paper reviews functionally important insights into the pathogenesis of human immunodeficiency virus (HIV) infection. The major sequela of this infection is early and progressive involvement of the immune system, with widespread immune dysfunction. This pathogenetic feature has a major impact on strategies for control of the infection. The immunosuppression caused by the virus leads to higher levels of viral replication and enhanced potential for development or selection of variant viruses, including forms that are more virulent or even drug resistant. Therefore, control of HIV infection and disease may require antiviral agents and CD4 receptor competitors as well as recombinant DNA-derived lymphokines and subunit vaccine immunotherapies. To be successful, such therapies must work to counter infection in monocytes and nonlymphoid cells as well as in T4 lymphocytes. Because many limbs of the immune system are affected by HIV infection, the complexities of this pathogen can be unraveled only by the careful study of immune functions during the disease and of effective interventions to control infection and disease and to restore immune functions.
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PMID:Relation of the pathogenesis of human immunodeficiency virus infection to various strategies for its control. 204 62

Primary cultures of essentially pure human term trophoblasts were studied to determine their ability to support the expression of complete proviral clones of human immunodeficiency virus (HIV) and their permissiveness to this virus. Transient expression of molecular clones derived from two biologically distinct strains, BRU and NDK, resulted in the release of comparable amounts of infectious virions, which were rescued by cocultivation with permissive CEM-SS cells. Trophoblasts were inoculated with three HIV-1 isolates, RF, 3B and NDK, which differ in their cytopathogenicity on T lymphoblastoid cells. Infection of cells by all three strains was demonstrated by the presence of virus-specific proteins in the trophoblasts and the detection of virus gag gene-related DNA sequences by the polymerase chain reaction (PCR), but cells were more susceptible to infection with the RF and NDK strains than with the 3B strain. The virus was readily transmitted to the CEM-SS cells with simultaneous formation of syncytia between the two cell types. Flow cytometry and direct radioimmunoassay revealed no trace of the CD4 receptor on the surface of the cultured trophoblasts and CD4 mRNA could not be detected by Northern blot hybridization, although a minimal amount of CD4-associated mRNA was detected by PCR. Our data suggest that infection of trophoblasts occurs independently of the pathway mediated by CD4.
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PMID:Susceptibility of cultured human trophoblasts to infection with human immunodeficiency virus type 1. 204 91

A series of neoglycoproteins was synthesized by coupling of thiophosgene-activated p-aminophenyl derivatives [Biol. Cell. 47:95-110 (1983); J. Histochem. Cytochem. 32:1091-1094 (1984)] of various sugars to human serum albumin. The compounds were evaluated for their in vitro activity against human immunodeficiency virus (HIV). Neoglycoproteins with the highest sugar content were found to be the most potent inhibitors of HIV-1-induced cytopathogenicity. However, this was not due to the nature of the sugar used but, rather, was related to the extra negative charge of the neoglycoproteins. To investigate whether the antiviral activity of the neoglycoproteins exhibited sugar specificity, increased with increasing negative charge, or depended on both sugar specificity and negative charge, we synthesized albumins and neoglycoproteins with an enhanced negative charge, by treatment with formaldehyde or succinic anhydride. Succinylated human serum albumin had the most pronounced net negative charge and had an IC50 of about 1 microgram/ml. No cytotoxicity was observed at concentrations up to 1 mg/ml, implicating a selectivity index (CC50/IC50) of at least 10(3). To elucidate the mechanism of action of these anionic albumins, we investigated whether they interfered with HIV-1 adsorption to the cells, binding of anti-OKT4A monoclonal antibody (mAb) to the CD4 receptor, binding of anti-gp120 mAb to gp120, or inhibition of syncytium formation in co-cultures of HIV-1-infected HUT-78 cells with MOLT-4 cells. From these experiments, we conclude that albumins with an increased negative charge (a) are potent and nontoxic anti-HIV-1 agents, (b) cause a 50% reduction of syncytium formation in the same concentration range as their IC50 in the antiviral assay, and (c) do not bind to the OKT4A epitope of the CD4 receptor and only partly inhibit anti-gp120 mAb-gp120 interaction and virus-cell binding at concentrations that are 100 times higher than their IC50 in the antiviral assay. Therefore, we conclude that the modified albumins interfere with a post-binding event, of which one of the potential mechanisms is an interaction with the gp41 fusion protein, which is necessary for syncytium formation but is not involved in initial virus binding.
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PMID:Potent in vitro anti-human immunodeficiency virus-1 activity of modified human serum albumins. 205 94

The binding of human immunodeficiency virus type 1 (HIV-1) gp120env to CD4 is the first event leading to infection and represents an important target for possible therapeutic intervention. To provide a tool for screening and quantitation of the effects of drugs inhibiting the Env-CD4 interaction, we developed a simple, fast and quantitative bioassay measuring the fusion between two cell lines generated by stable transfection: one expressing high levels of HIV-1 proteins but no infectious virus (HL2/3), and the other expressing the CD4 receptor and containing an inducible chloramphenicol acetyltransferase (CAT) gene linked to the HIV-1 long terminal repeat (HLCD4-CAT). Upon cocultivation of HL2/3 and HLCD4-CAT cells, efficient cell fusion is observed within 8 h. The efficiency of fusion can be evaluated visually and quantitated by measuring CAT enzyme. This novel bioassay allows testing for drugs capable of interfering with the CD4-Env interaction. HL2/3 cell line secretes gp120env in the medium and can be used for the production of Env protein.
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PMID:A bioassay for HIV-1 based on Env-CD4 interaction. 207 9

Infection by the human immunodeficiency virus type 1 (HIV-1) is initiated through interaction of its exterior envelope glycoprotein gp120 with the CD4 receptor on target cells. To address the possible role of N-glycosylation of HIV-1 gp120 in binding CD4, we mutated different conserved N-glycosylation site Asn-residues in the vicinity of the putative CD4 binding site, as single mutations or in combinations. Authentic and mutant gp120 proteins were produced using the baculovirus expression system. All mutant proteins were produced and secreted at similar levels and could be immunoprecipitated with an HIV(+)-serum. Furthermore, all glycosylation mutants retained the full capacity to bind CD4 except for a triple mutant which showed reduced binding. Different gp120 mutant genes were then introduced in an infectious proviral DNA clone. Upon transfection of MT-2 cells, the authentic HIV-1 clone induced maximal virus production after 6 days. In the case of the triple glycosylation mutant, comparable virus production was first reached after a delay of about 12 days. Moreover, in contrast to native HIV, the mutant virus induced no typical multinucleated giant cells. These results suggest that the attached carbohydrates around the CD4-binding site of gp120, may contribute to the generation of this protein domain required for high affinity receptor interaction.
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PMID:Mutation of conserved N-glycosylation sites around the CD4-binding site of human immunodeficiency virus type 1 GP120 affects viral infectivity. 208 20


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