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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the possible involvement in the interaction between HIV gp110 and its CD4 receptor of epitopes different from the currently known binding site(s) of the molecule. Four monoclonal antibodies (MAbs) to gp110 were used (Genetic Systems Corporation, Seattle, Washington, USA): one (110-1) recognized a peptide corresponding to the C-terminal part of gp110 (494-517); the other three (110-3, 110-4, 110-5) recognized the same peptide located at position 308-328. HIV or purified gp110 obtained from a vaccinia recombinant (Transgene S.A., Strasbourg, France) were pre-incubated with the MAb prior to addition to CD4+ cells. Specific binding of viral particles or of the soluble molecule was then determined by flow cytometer analysis, compared with that of control preparations where the MAb was added after HIV or gp 110 had been allowed to bind CD4+ cells. Significant inhibition of HIV binding was noted with the three MAbs to peptide (308-328), but not with 110-1. At the molecular level, these same MAbs decreased the affinity of interaction between CD4 and soluble gp110, although they could still label the latter molecule after it had bound to CD4+ cells. Therefore, steric hindrance may account for neutralization of HIV binding by antibodies that are actually directed to epitopes topographically distinct from the site of binding of gp110 to CD4.
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PMID:A molecular mechanism of inhibition of HIV-1 binding to CD4+ cells by monoclonal antibodies to gp110. 245 85

The envelope glycoproteins of HIV, gp120 and gp41, contain epitopes recognized by neutralizing antibodies. Studies of human sera from infected individuals indicate that group-specific neutralization antigens common to most isolates of HIV-1 exist, and that some HIV-2 antisera cross-neutralize HIV-1. Neutralization epitopes for HIV-1 have been identified and mapped, including a group-specific antigen on gp41, and a type-specific antigen on gp120. Neutralization "escape" mutants have been selected in vitro with a neutralizing mab to the type-specific antigenic loop. The CD4 antigen binds HIV-1 gp120 with high affinity and acts as the receptor on human and simian T-lymphocytes and monocytes for all strains of HIV-1, HIV-2, and SIV tested. Following binding to the CD4 receptor, HIV becomes internalized by a pH-independent process. The principle binding domain for gp120 is located in the N-terminal V domain of CD4. Anti-idiotypic sera to CD4 mabs recognizing the same site weakly neutralize HIVs of many strains, and soluble, recombinant forms of CD4 strongly neutralize HIV. Neither anti-CD4 mabs nor sCD4 inhibit the low level of plating of HIV observed on tumour cells in culture of glial (brain) and muscle origin, indicating that CD4 is not essential for infection of these cell types.
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PMID:Human immunodeficiency viruses: neutralization and receptors. 246 1

The first step in the replicative cycle of human immunodeficiency virus type 1 (HIV-1) is binding of the virions to the cellular CD4 receptor. This process may be considered as an important target for chemotherapeutic agents against acquired immune deficiency syndrome (AIDS). A method has now been devised whereby virion binding to the cell membrane was visualized by an indirect immunofluorescence assay using human anti-HIV-1 serum, rabbit anti-human-IG-F(ab')2-fluorescein isothiocyanate, and flow cytometry. Heparin, dextran sulfate, and pentosan polysulfate suppressed HIV-1 binding to MT-4 cells at concentrations that protected the cells against HIV-1 cytopathogenicity. Dextran and dermatan sulfate, two compounds that are inactive against HIV-1, had no inhibitory effect on the binding of HIV-1 to the cells. The potent and selective HIV-1 inhibitor azidothymidine (AZT) did not affect virus binding to the cells, whereas suramin partially blocked HIV-1 binding to the cells at concentrations that fully protected MT-4 cells against destruction of HIV-1. Our immunofluorescence assay thus demonstrated that suramin not only acts as an inhibitor of reverse transcriptase but also interferes with virus-cell binding. Also, Evans blue, an anionic dye structurally related to suramin, partially inhibited HIV-1 attachment to the cells. The present method permits a quantitative determination of the inhibitory effect of anti-HIV-1 agents on virion-cell binding.
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PMID:Flow cytometric method to demonstrate whether anti-HIV-1 agents inhibit virion binding to T4+ cells. 246 2

The attachment of human immunodeficiency virus type 1 (HIV-1) to target cells is mediated by a specific interaction between the viral envelope glycoprotein (gp120) and the CD4 receptor. Here we report that approximately 10% of HIV-1-infected individuals produce antibodies that recognize the extracellular portion of the CD4 molecule. Carboxyl-terminal deletions of CD4 that do not affect HIV-1 gp120 binding eliminate recognition of CD4 by patient antisera. In contrast, mutations in the amino-terminal domain of CD4 that attenuate HIV-1 gp120 binding do not diminish CD4 recognition by patient antisera. These results suggest that HIV-1 infection can generate antibodies directed against a region of the viral receptor distinct from the virus-binding domain.
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PMID:Antibodies to CD4 in individuals infected with human immunodeficiency virus type 1. 254 42

The triphenylmethane derivative aurintricarboxylic acid (ATA), but not aurin, selectively prevented the binding of OKT4A/Leu-3a monoclonal antibody (mAb) and, to a lesser extent, OKT4 mAb to the CD4 cell receptor for human immunodeficiency virus type 1 (HIV-1). The effect was seen within 1 min at an ATA concentration of 10 microM in various T4+ cells (MT-4, U-937, peripheral blood lymphocytes, and monocytes). It was dose-dependent and reversible. ATA prevented the attachment of radiolabeled HIV-1 particles to MT-4 cells, which could be expected as the result of its specific binding to the HIV/CD4 receptor. Other HIV inhibitors such as suramin, fuchsin acid, azidothymidine, dextran sulfate, heparin, and pentosan polysulfate did not affect OKT4A/Leu-3a mAb binding to the CD4 receptor, although the sulfated polysaccharides suppressed HIV-1 adsorption to the cells at concentrations required for complete protection against HIV-1 cytopathogenicity. Thus, ATA is a selective marker molecule for the CD4 receptor. ATA also interfered with the staining of membrane-associated HIV-1 glycoprotein gp120 by a mAb against it. These unusual properties of a small molecule of nonimmunological origin may have important implications for the study of CD4/HIV/AIDS pathogenesis and possibly treatment.
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PMID:Specific interaction of aurintricarboxylic acid with the human immunodeficiency virus/CD4 cell receptor. 256 70

The HIV virus grows in lymphocytes, monocyte-macrophages and possibly a few other cells of the human body. This is an RNA virus that attaches at the CD4 receptor, enters the cell, and makes DNA by using a reverse transcriptase enzyme. The virus is about 100 nm in diameter and expresses several surface and core antigens. Growth of the virus in the helper (T4) lymphocytes results in destruction of these cells. This, in turn, results in loss of cellular immune functions that causes susceptibility to infections and malignancies. Monocyte-macrophage cells are also infected but these cells are not lysed. Antigen to HIV appears in blood a few weeks after infection but disappears as antibody begins to be present. Antibody can be detected by a variety of tests but ELISA and Western blot assays are used most frequently. New latex and other methods are being licensed for use under certain circumstances.
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PMID:HIV: biology and immunology. 267 92

The survey of the characteristics of HIV infection implicates the binding of HIV env to the CD4 receptor as the principal cause of the resulting immunodeficiency. There is evidence that such binding selectively impairs self-recognition. The resulting immunodeficiency syndrome has the characteristics of graft vs. host disease, consistent with chronic allogeneic and semiallogeneic GVHD in mouse-models. since these syndromes are believed to result from triggering the established immunoregulatory mechanisms necessary to maintain self-tolerance, vaccination to prevent AIDS should aim to correct the inability of the HIV host mount an immune response against CD4 binding epitopes on HIV gp120, preferably without exposing the vaccine to intact envelope glycoprotein. Since the AIDS syndrome is probably a defect in net-work immunoregulation, the most appropriate target for therapy and for vaccination is the idiotype of anti-CD4 antibodies that block CD4/env interaction.
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PMID:The relevance of HIV env/CD4 interactions to the pathogenesis of acquired immune deficiency syndrome. 267 11

Very few peripheral blood lymphocytes of seropositive individuals are presumably actively infected with human immunodeficiency virus type 1 (HIV-1). During coculture of lymphocytes of a seropositive individual with mitogen-stimulated normal peripheral blood lymphocytes, the number of infected cells becomes amplified such that detectable HIV-1 is produced. We report here that in addition to transmission by extracellular virus, cell-to-cell transmission is responsible for spreading HIV-1 infection from infected to uninfected cells. Azidothymidine and virus-neutralizing antibody had no effect on cell-to-cell transmission of HIV-1. Monoclonal antibodies to the CD4 receptor, but not to the CD3 receptor, prevented cell-to-cell transmission, which suggests that CD4 receptor-mediated cell fusion is involved in cell-to-cell transmission. Spread of infection in a cell-to-cell manner may be important in development of drug therapies for HIV-1 infection.
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PMID:Cell-to-cell transmission of human immunodeficiency virus type 1 in the presence of azidothymidine and neutralizing antibody. 270 79

Antibodies that enhance human immunodeficiency virus (HIV) infectivity have been found in the blood of infected individuals and in infected or immunized animals. These findings raise serious concern for the development of a safe vaccine against acquired immunodeficiency syndrome. To address the in vivo relevance and mechanism of this phenomenon, antibody-dependent enhancement of HIV infectivity in peripheral blood macrophages, lymphocytes, and human fibroblastoid cells was studied. Neither Leu3a, a monoclonal antibody directed against the CD4 receptor, nor soluble recombinant CD4 even at high concentrations prevented this enhancement. The addition of monoclonal antibody to the Fc receptor III (anti-FcRIII), but not of antibodies that react with FcRI or FcRII, inhibited HIV type 1 and HIV type 2 enhancement in peripheral blood macrophages. Although enhancement of HIV infection in CD4+ lymphocytes could not be blocked by anti-FcRIII, it was inhibited by the addition of human immunoglobulin G aggregates. The results indicate that the FcRIII receptor on human macrophages and possibly another Fc receptor on human CD4+ lymphocytes mediate antibody-dependent enhancement of HIV infectivity and that this phenomenon proceeds through a mechanism independent of the CD4 protein.
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PMID:The Fc and not CD4 receptor mediates antibody enhancement of HIV infection in human cells. 278 47

We have developed a flow cytometric method for demonstrating cell fusion between human immunodeficiency virus type 1 (HIV-1)- or HIV-2-infected HUT-78 cells and uninfected CD4-bearing MOLT-4 cells. Syncytium formation due to an interaction between the gp120 glycoprotein expressed on HIV-infected HUT-78 cells and the CD4 receptor present on MOLT-4 cells, resulted in an immediate decrease in the number of MOLT-4 cells; after a 24 h incubation period almost all MOLT-4 cells had disappeared from the culture. To show that the target MOLT-4 cells and not the aggressor HUT-78 cells were destroyed, specific monoclonal antibodies (MAbs) that reacted with antigens expressed on either MOLT-4 or HUT-78 cells were used. The formation of giant cells and the concomitant disappearance of MOLT-4 cells was blocked by MAbs specific for OKT4A and Leu3a, and, to a much lower level, by the MAbs specific of OKT4 and gp120. MAbs specific for OKT3, Leu2a, HLA-DR, Leu18 and LeuM3 did not prevent the disappearance of MOLT-4 cells. Sera from two AIDS patients containing antibodies to the HIV envelope glycoproteins did not protect MOLT-4 cells against the destructive effect of the HIV-infected HUT-78 cells. The fusion index, the percentage fusion inhibition and the 50% fusion inhibitory concentration of the MAbs can be accurately determined with the flow cytometric assay. The method can be readily implemented to evaluate any therapeutic treatment by examining its capacity to block cell-to-cell fusion, and hence destruction of the target bystander cells. Five anti-HIV compounds which have been previously shown to interfere with HIV binding to cells (namely pentosan polysulphate, heparin, suramin, aurintricarboxylic acid and Evans Blue) were further evaluated by this new method. With the exception of heparin, all of these compounds were found to inhibit cell-to-cell fusion and the concomitant destruction of the target bystander cells. Azidothymidine failed to inhibit fusion or bystander T cell destruction.
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PMID:Syncytium formation and destruction of bystander CD4+ cells cocultured with T cells persistently infected with human immunodeficiency virus as demonstrated by flow cytometry. 278 68

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