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

The CD4 protein expressed on helper T lymphocytes is a restriction element for major histocompatibility class II immune responses. This molecule is also used by the human immunodeficiency virus as its specific cellular receptor facilitating binding of virus to cells. As soluble forms of CD4 inhibit HIV infection in tissue culture, attention has focused on this molecule. Bacterially produced CD4 would facilitate studies of the biology of the CD4 molecule. However, bacterially expressed CD4 must be refolded for assumption of its interaction with conformationally dependent anti-CD4 monoclonal antibodies as well as the HIV-1 envelope protein gp120. We report here the engineering of an external domain construct of the CD4 gene into a novel expression vector containing the nucleotide sequence encoding the pelB leader peptide of Erwinia carotovara (pDABL), to facilitate correct folding of CD4 in bacteria. Monoclonal antibodies specific for important conformational epitopes of the CD4 molecule were able to bind bacterial colonies containing the pDABL/CD4 vector but not colonies with vector alone. Importantly, recombinant gp120 produced in baculovirus bound specifically to bacterial colonies expressing the CD4 recombinant molecule. This system presents a simple screening mechanism for molecules that bind to the external domain of the CD4 glycoprotein. Vectors such as pDABL will also facilitate the production of large amounts of biologically active proteins in bacteria.
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PMID:Construction of a recombinant bacterial human CD4 expression system producing a bioactive CD4 molecule. 131 11

Productive infection of T lymphocytes with human immunodeficiency virus type 1 (HIV-1) is accompanied by a diminution of surface CD4 receptors. Treatment of chronically HIV-1-infected CD4-negative T cells in vitro with the Tat antagonist Ro 5-3335 resulted in a drug dose-dependent decrease in virus protein production and a reciprocal increase in surface CD4 display. The drug-treated cells remained viable, showed significantly reduced levels of the full-length and spliced HIV-1 mRNAs as detected by Northern (RNA) blot hybridization, and maintained integrated HIV-1 DNA. In immunoprecipitation studies with drug-treated cells, the levels of free 55-kDa CD4 protein increased and gp160 complexed with CD4 decreased in amount. These results show for the first time that certain cytopathogenic effects of chronic HIV-1 infection can be reversed by suppressing virus expression.
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PMID:Restoration of cell surface CD4 expression in human immunodeficiency virus type 1-infected cells by treatment with a Tat antagonist. 140 19

The first step in infection of human mononuclear cells with HIV involves the high affinity binding of the viral envelope glycoprotein, gp120, to the cell-surface receptor, CD4. To gain a better understanding of the molecular basis of this interaction, we have analyzed the ability of gp120 to bind to a panel of 40 mutant CD4 proteins containing single or double amino acid substitutions. In addition, the binding of several anti-CD4 mAb to the mutant CD4 proteins was measured. These mAb were chosen on the basis of the previous demonstration that they bind to epitopes in CD4 adjacent to the gp120-binding site. This analysis permits discrimination between mutations that probably cause localized conformational changes and those that alter residues likely to make direct contact with gp120 and with the mAb. Our results indicate that gp120 from two different strains of HIV binds to a larger region of the CD4 protein than previously described. The data has also been used to map the epitopes of mAb previously identified as anti-idiotype vaccine candidates. The results have important implications for the development of CD4-based therapies for AIDS.
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PMID:Analysis of the site in CD4 that binds to the HIV envelope glycoprotein. 169 Dec 26

The CD4 molecule is known to be the preferential receptor for the HIV-1 envelope glycoprotein. Epidermal Langerhans cells are dendritic cells which express several surface antigens, among them CD4 antigens. To clarify the exact role of CD4 molecules in Langerhans cell infection induced by HIV-1, we investigated the possible involvement of the interactions between HIV-1 gp 120 or HIV-1 gp 160s (soluble gp 160) and Langerhans cell surface. We also assessed the expression of CD4 molecules on Langerhans cell membranes dissociated by means of trypsin from their neighbouring keratinocytes. The cellular phenotype was monitored using flow cytometry and quantitative immunoelectron microscopy. We reported that human Langerhans cells can bind the viral envelope proteins (gp 120 or gp 160s), and that this binding does not depend on CD4 protein expression. This binding is not blocked by anti-CD4 monoclonal antibodies. We show that a proportion of gp 120/gp 160s-receptor complexes enters Langerhans cells by a process identified as a receptor-mediated endocytosis. The amount of surface bound gp 120/gp 160s is not consistent with the amount of CD4 antigens present on Langerhans cell membranes. Gp 120/gp 160s binding sites on Langerhans cell suspensions appeared to be trypsin resistant, while CD4 antigens (at least the epitopes known to bind the HIV-1) are trypsin sensitive. A burst of gp 120 receptor expression was detected on 1-day cultured Langerhans cells while CD4 antigens disappeared. These findings lead to the most logical conclusion that binding of gp 120/gp 160s is due to the presence of a Langerhans cell surface molecule different from CD4 antigens.
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PMID:Interaction of human epidermal Langerhans cells with HIV-1 viral envelope proteins (gp 120 and gp 160s) involves a receptor-mediated endocytosis independent of the CD4 T4A epitope. 172 50

Single-cell clones derived from the U-937 monocytic cell line were studied for susceptibility to infection by human immunodeficiency virus type 1 (HIV-1). Of four such clones, we found that three (UC12, UC14, and UC18) supported replication of HIV-1 more efficiently than parental U-937 cells, as measured by reverse transcriptase activity and p24 core antigen production. In contrast, another clone (UC11) showed only baseline infection throughout an 8-week culture period, before finally becoming positive for expression of viral antigen. This differential susceptibility to infection directly correlated with accumulation of intracellular viral DNA. Furthermore, the UC11 clone expressed lower levels of Sendai virus-inducible tumor necrosis factor alpha mRNA than did the UC12 or UC18 clones. Susceptibility to infection did not correlate with expression of cell surface CD4, since all clones expressed similar levels of CD4 mRNA and surface membrane CD4 protein. Prior exposure of both susceptible UC18 and resistant UC11 clones to Leu3a antibody completely blocked infection by HIV-1, suggesting that no other independent receptors were recognized by the virus.
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PMID:Differential susceptibilities of U-937 cell clones to infection by human immunodeficiency virus type 1. 173 Oct 96

The CD4 molecule is known to be the preferential receptor for the HIV1 envelope glycoprotein. Epidermal Langerhans cells (LC) are dendritic cells which express several surface antigens, among them the CD4 antigens. LC infection was suggested when these cells were seen to present buddings coincident with membrane thickening of roughly 100 nm in size. These buddings were similar in ultrastructural aspect to HIV buddings on in vitro infected promonocytic cells (U937). To clarify the exact role of CD4 molecules in LC infection induced by HIV1, we investigated the possible involvement of between native and recombinant HIV1 gp120 and the LC surface. We also assessed the expression of CD4 molecules on LC membranes dissociated by means of trypsin from their neighbouring keratinocytes. The cellular phenotype was monitored using flow cytometry. We show that human LC can bind the viral envelope protein and that this binding does not depend on CD4 protein expression. The amount of surface bound gp120 was not consistent with the amount of CD4 antigens present on LC membranes. The gp120-binding sites on LC in suspension appear to be typsin-resistant while the CD4 antigens (at least the epitopes known to bind HIV1) are trypsin-sensitive. A burst of gp120 receptor expression was detected on 1-day cultured LC while the CD4 antigens disappeared. These findings lead to the logical conclusion that the binding of gp120 is due to the presence of a LC surface molecule which is different from CD4 antigens.
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PMID:Trypsin-resistant gp120 receptors are upregulated on short-term cultured human epidermal Langerhans cells. 189 37

Autoantibodies to the CD4 protein, which serves as a receptor for the human immunodeficiency virus (HIV) on the surface of target cells, were found in patients with different stages of HIV disease. Using recombinant soluble CD4 (rCD4) antigen in a enzyme-linked immunosorbent assay (ELISA), we detected serum anti-CD4 antibodies in approximately 20% of HIV-1 infected patients and 13% of HIV-2 infected patients. There was no correlation between the presence of anti-CD4 antibodies and the stage of HIV disease, serum IgG concentration, number of peripheral blood CD4 positive lymphocytes, or CD4/CD8 lymphocyte ratios in HIV-1 infected patients. Immunoaffinity purified anti-CD4 antibody failed to bind to CD4 positive cells using flow cytometric analysis. However, this antibody could weakly bind to CD4 positive cells that had been preincubated with purified recombinant gp120 (rgp120). In addition, using an ELISA system, we found that the binding of purified patient anti-CD4 antibody to rCD4 was increased in the presence of rgp120. Similar increased binding was observed with the anti-CD4 monoclonal antibody OKT4, but not with anti-Leu3a. These data suggest that a conformational change in the C-terminal domains of CD4 may be induced by gp120 binding and could lead to development of anti-CD4 antibodies.
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PMID:Characterization of autoantibodies to the CD4 molecule in human immunodeficiency virus infection. 198 67

We used a bifunctional reagent for the design of a new therapeutic agent constructed by cross-linking a soluble form of the CD4 protein to red blood cell membranes. CD4 is a member of the immunoglobulin gene superfamily and is the receptor for the AIDS virus, HIV. We produced soluble CD4 in eucaryotic cells transfected with a soluble CD4 expression vector, and purified it by cation-exchange chromatography. Flow cytometry studies demonstrated that CD4-coated red blood cells were specifically stained with an anti-CD4 monoclonal antibody, whereas intact red blood cells and intermediates obtained during the coupling procedure were not stained. By comparison, with CD4+ lymphoid cells, the number of soluble CD4 molecules per CD4-expressing red blood cells was estimated to be approx. 100,000. We present evidence that, unlike the classical chromium chloride coupling method, large amounts of soluble CD4 were efficiently and uniformly coupled to RBCs. CD4 red blood cells bind specifically HIV particles, and inhibit the binding of HIV particles to target cells, the initial step of HIV life cycle. The anti-HIV activity of CD4-bearing red blood cells was found to be at least 20-times higher than that of free soluble CD4. Our results demonstrate that proteins can be efficiently coupled to red blood cells using bifunctional reagents. They also suggest that CD4-coated RBC are promising CD4-based anti-HIV agents.
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PMID:Functional expression of the CD4 protein after cross-linking to red blood cells with a bifunctional reagent. 199 7

Although the CD4 molecule is the cellular receptor for human immunodeficiency virus-1 (HIV-1) in cells of the lymphocyte/monocyte lineage, a number of investigators have also been able to infect cells, including several of central nervous system (CNS) origin, that do not express CD4 protein or mRNA. These infections are generally nonpermissive. To ascertain whether the nonpermissive nature of infection in glial cells is due to an inefficient entry pathway, we prepared a permanently transfected U373-MG cell line expressing the CD4 molecule and demonstrated that HIV-1 still replicates at a low level. Furthermore, a virus uptake assay indicated that HIV-1 enters glial cells effectively, even in the absence of CD4. These results demonstrate that HIV-1 entry is efficient and that the restrictive nature of the infection in glial cells is due to postentry mechanisms. In addition, these findings support the existence of an alternate, efficient, entry pathway in some glial cells.
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PMID:Entry of human immunodeficiency virus-1 into glial cells proceeds via an alternate, efficient pathway. 202 65

Studies evaluating cell fusion by HIV indicate that optimal conditions for measuring this biological process involve the use of appropriate numbers of cells, the expression of HIV gp120 in infected cells, the presence of the CD4 protein on the surface of uninfected cells, and sugar moieties. Cellular metabolism and nucleic acid synthesis as measured by DNA, RNA and protein synthesis are not requires. Proteolytic enzymes eliminate virus fusion only when the uninfected cells involved in the process are treated. Since the CD4 protein remains on the surface of the treated cells, the structure of this receptor must be changed sufficiently so that it cannot participate in the fusion process. Alternatively, the results may indicate the elimination by trypsin of a specific fusion receptor.
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PMID:Parameters involved in the cell fusion induced by HIV. 219 7


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