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)

Mononuclear phagocytes can be infected with the human immunodeficiency virus type 1 (HIV-1). Although these cells express CD4 antigen, which is the recognized cellular receptor for HIV, additional cell surface proteins such as the Fc receptor, might serve as receptors for infection. In order to study this possibility we used the U937 monocytic cell line as a target for HIV infection. Flow cytometry of U937 showed that 97% of cells expressed CD4, 33% expressed the high affinity 72 kD Fc receptor (FcRI), and 74% expressed the low-affinity 40 kD Fc receptor (FcRII). Virus neutralization tests were performed by preincubating heat-inactivated human anti-HIV sera with HIV-1, IIIB strain, and then challenging U937. After 13 days in culture, productive HIV-1 infection was monitored by reverse transcriptase activity. High concentrations of certain sera (10(-1)-10(-3) dilutions) neutralized HIV-1, but at subneutralizing concentrations (10(-4)-10(-6) dilutions), five of these sera enhanced viral infection approximately two- to threefold. This enhancement of HIV-1 infection was totally blocked by 1 microgram/ml recombinant soluble CD4 (rCD4) or by 0.5 microgram/ml anti-CD4 Leu3a monoclonal antibody. These results suggest that serum enhancement of HIV-1 infection, thought to be due to binding to the monocyte Fc receptor, requires HIV-1 binding to CD4, since rCD4 or Leu3a blocked this phenomenon.
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PMID:Inhibition of serum-enhanced HIV-1 infection of U937 monocytoid cells by recombinant soluble CD4 and anti-CD4 monoclonal antibody. 236 Oct 75

Human immunodeficiency virus 1 (HIV-1) produced in the human T lymphoblastoid H9 cell line infected cells of that line more readily than cells of the human monocytoid U937 line. While both cell lines expressed detectable levels of the CD4 molecule on their surfaces, the H9 and U937 cell lines differed in expression of major histocompatibility complex class I and class II antigens. Both H9 and U937 cells were infected initially with HIV-1 derived from H9 cells. Cell-free culture supernatants were harvested after the cells had been infected for at least 1 month. Culture supernatant from HIV-infected H9 cells was used to infect H9 and U937 cells. Conversely, culture supernatant from HIV-infected U937 cells was used to infect H9 and U937 cells. The percentages of cells infected at each of several time points during the first few days after infection were determined by flow cytometric analysis of cell-associated HIV-1 major core protein p24. Infection of each cell line was more efficient when the cell type infected was identical to that in which the infecting supernatant was produced. However, this difference in tropism was not generated early after infection of each cell line, as might have been expected if this effect were mediated by cell surface molecules acquired during the process of budding through the cell membrane.
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PMID:Tropism of human immunodeficiency virus 1 isolates for H9 cells and U937 cells. 237 8

The genome of the human immunodeficiency virus type 1 (HIV-1) is highly heterogeneous. Some of this genomic variability is reflected in the biologic and serologic differences observed among various strains of HIV-1. To map the viral determinants that correlate with pathogenicity of the virus, recombinant viruses were generated between biologically active molecular clones of HIV-1 strains that show differences in T-cell or macrophage tropism, cytopathogenicity, CD4 antigen modulation, and susceptibility to serum neutralization. The results of these studies indicate that the envelope region contains the major determinants of these viral features. Further studies with sequence exchanges within this region should help identify specific domains that contribute to HIV pathogenesis.
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PMID:Viral determinants of human immunodeficiency virus type 1 T-cell or macrophage tropism, cytopathogenicity, and CD4 antigen modulation. 238 20

There is substantial evidence supporting the CD4 molecule as the principal cellular receptor for the human immunodeficiency virus type 1 (HIV-1). A number of truncated recombinant soluble CD4 (sCD4) molecules have been produced and shown to easily neutralize infection of laboratory strains of HIV-1 in vitro, and clinical trials using these sCD4 preparations have begun in patients with AIDS. Infectious HIV-1 titers in the plasma and peripheral blood mononuclear cells of five patients receiving sCD4 at 30 mg/day were sequentially monitored. No significant decrease in viral titers was found during therapy. Furthermore, plasma samples from eight patients with AIDS were titrated for HIV-1 with and without the addition of sCD4 ex vivo. Despite the addition of sCD4 at up to 1 mg/ml, there was little change in plasma viral titers. Subsequently, 10 primary HIV-1 isolates were tested for their susceptibility to neutralization in vitro by one preparation of sCD4. Neutralization of these clinical isolates required 200-2700 times more sCD4 than was needed to inhibit laboratory strains of HIV-1. Similar results were observed using one other monomeric sCD4 preparation and two multimeric CD4-immunoglobulin hybrid molecules. We conclude that unlike laboratory strains, primary HIV-1 isolates require high concentrations of sCD4 for neutralization. This phenomenon may pose a formidable problem for sCD4-based therapeutics in the treatment of HIV-1 infection.
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PMID:High concentrations of recombinant soluble CD4 are required to neutralize primary human immunodeficiency virus type 1 isolates. 239 59

Human immunodeficiency virus (HIV), the retrovirus that causes the acquired immunodeficiency syndrome, is cytopathic for CD4+ T cells and binds to these cells via a complex of the 110,000 m.w. viral-envelope glycoprotein, gp110, and the CD4 molecule. We treated virus with several physical, chemical, and enzymic agents to determine their effect on the capacity of HIV to bind to the CD4+ T cell line, CEM. Reduction and alkylation (but not alkylation alone) and trypsin digestion (but not glycolytic enzyme digestions) of HIV destroyed its capacity to bind. If the tertiary protein structure conferred by disulfide bonding is not disrupted, the tertiary and secondary conformations dependent on noncovalent forces appear to be thermodynamically favored, because treatment with denaturants such as sodium dodecyl sulfate, 8 M urea, alcohol, or heat (56 degrees C or 65 degrees C for 30 min) followed by removal of the denaturants did not affect binding. Irreversible denaturation and loss of binding occurred after heating at 100 degrees C for 10 min. HIV binding to CD4+ T cells was inhibited either by murine monoclonal antibodies to the CD4 molecule or by human polyclonal or murine monoclonal antibodies to the gp110 molecule. On the basis of results of binding inhibition obtained with a panel of alpha-CD4 monoclonal antibodies, the receptor site for virus on the CD4 molecule was mapped to the amino-terminal portion of the molecule. Four candidate alpha-CD4 monoclonal antibodies that were potent inhibitors of virus binding (OKT4A, OKT4D, OKT4F, and Leu-3a) were examined for the possibility that their binding sites (idiotopes) might share structural and conformational similarity with the CD4-binding site on gp110. Polyclonal human or rabbit anti-HIV sera (that reacted with gp110 and inhibited virus binding) did not react with or inhibit the binding of these four alpha-CD4 monoclonal antibodies. Conversely, rabbit anti-idiotypic sera raised against each of the four candidate CD4 monoclonal antibodies did not react with virus or inhibit virus binding to CD4+ T cells. Further search or different approaches may yet yield an idiotype that is a structural and conformational "internal image" of the CD4-binding site of virus.
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PMID:Binding of the human retrovirus HTLV-III/LAV/ARV/HIV to the CD4 (T4) molecule: conformation dependence, epitope mapping, antibody inhibition, and potential for idiotypic mimicry. 242 79

Polyclonal anti-idiotypic antibodies were raised in mice against anti-Leu3a, a mouse monoclonal anti-human T4 (CD4) antibody that blocks the in-vitro binding of human immunodeficiency virus (HIV) to the CD4 molecule. The anti-idiotypes recognized anti-Leu3a but not OKT4, an anti-human T4 antibody that does not inhibit HIV binding to CD4. The anti-idiotypes specifically reacted with the HIV envelope glycoprotein in solid-phase immunoassays. More importantly, the anti-idiotypes neutralised three distinct isolates of HIV-1 and one isolate of HIV-2 in a syncytial inhibition assay. These results have implications for a potential AIDS vaccine of anti-CD4 preparations to induce an anti-idiotypic response with the capacity to bind HIV at its receptor site.
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PMID:Neutralisation of HIV isolates by anti-idiotypic antibodies which mimic the T4 (CD4) epitope: a potential AIDS vaccine. 244 42

Infection of helper T lymphocytes by human immunodeficiency virus is initiated by a specific interaction of the viral envelope glycoprotein with CD4, an integral membrane glycoprotein of the target cell. We have adapted a vaccinia virus-based mammalian cell expression system to produce variants of the CD4 molecule for structure-function studies. In this report we demonstrate that a truncated 180-amino acid fragment representing approximately the N-terminal half of the extracellular region of CD4 is found primarily in soluble form in the extracellular medium. Epitope analysis with a panel of anti-CD4 murine monoclonal antibodies indicates that the fragment reacts with those antibodies known to block the interaction between CD4 and the human immunodeficiency virus envelope glycoprotein but reacts poorly or not at all with those antibodies that do not block this interaction. We also show that the fragment forms a specific complex with a soluble form of gp120, the CD4-binding subunit of the viral envelope glycoprotein. These results indicate that this soluble CD4 fragment contains an active binding site for human immunodeficiency virus.
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PMID:A soluble recombinant polypeptide comprising the amino-terminal half of the extracellular region of the CD4 molecule contains an active binding site for human immunodeficiency virus. 245 Dec 47

The first step in the infection of human T lymphocytes by human immunodeficiency virus type 1 (HIV-1) is attachment to the target cell receptor, the CD4 antigen. This step may be vulnerable to attack by antibodies, chemicals, or small peptides. Dextran sulfate (molecular weight approximately 8000), which has been given to patients as an anticoagulant or antilipemic agent for more than two decades, was found to block the binding of virions to various target T lymphocytes, inhibit syncytia formation, and exert a potent inhibitory effect against HIV-1 in vitro at concentrations that may be clinically attainable in human beings. This drug also suppressed the replication of HIV-2 in vitro. These observations could have theoretical and clinical implications in the strategy to develop drugs against HIV types 1 and 2.
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PMID:Dextran sulfate suppression of viruses in the HIV family: inhibition of virion binding to CD4+ cells. 245 80

The CD4 (T4) antigen is a cell-surface glycoprotein that is expressed predominantly on the surface of helper T cells and has been implicated in the regulation of T-cell activation and in the associative recognition of class II antigens of the major histocompatibility complex. In addition, the CD4 antigen appears to serve as a receptor for the human immunodeficiency virus (HIV). An important question has been whether the CD4 receptor is linked to an intracellular mediator that could regulate the activation of the CD4+ subset. In this paper, we provide preliminary evidence that the CD4 receptor is complexed in detergent lysates to a protein-tyrosine kinase (PTK) of 55-60 kDa, which is expressed specifically in T cells. The PTK is the human analogue of the murine pp56LSTRA (pp56lck) and has significant homology with c-src, c-yes, and other members of the src family. The identification of the PTK associated with CD4 receptor was made by use of an antiserum to a synthetic peptide that was deduced from the DNA sequence of PTK. Two-dimensional nonequilibrium pH gradient gel electrophoresis/NaDodSO4/PAGE revealed the kinase to focus as a heterogeneous collection of spots in the pH range of 4.0-5.0. Furthermore, in vitro phosphorylation revealed the phosphorylation of two additional polypeptides at 40 and 80 kDa, in addition to the autophosphorylation of the PTK at 55-60 kDa. The potential importance of the association between the CD4 receptor and the PTK of T cells is discussed in relation to T-cell activation and HIV infectivity.
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PMID:The CD4 receptor is complexed in detergent lysates to a protein-tyrosine kinase (pp58) from human T lymphocytes. 245 97

The binding region for human immunodeficiency virus (HIV) and epitopes for a panel of HIV-blocking anti-CD4 monoclonal antibodies of the CD4 molecule were defined by using in vitro site-directed mutagenesis. Codons for two amino acid residues (Ser-Arg) were inserted at selected positions within the region encoding the first and second immunoglobulin-like domains of CD4. A vaccinia virus-based expression system was used to produce soluble full-length extracellular CD4 fragments containing the insertions. The mutant proteins were tested for direct binding to soluble gp120 (the CD4-binding subunit of the viral envelope glycoprotein) and to a series of HIV-blocking anti-CD4 monoclonal antibodies. Impaired gp120 binding activity resulted from insertions after amino acid residues 31, 44, 48, 52, 55, and 57 in the first immunoglobulin-like domain. The epitopes for two HIV-blocking monoclonal antibodies, OKT4A and OKT4D, were also mapped in the gp120-binding region in the first domain. Insertions after amino acid residues 21 and 91 in the first domain had no effect on gp120 binding but impaired the binding of OKT4E, suggesting that this antibody recognizes a discontinuous epitope not directly involved in gp120 binding. Moderate impairment of gp120 binding resulted from the insertion after amino acid residues 164 in the second immunoglobulin-like domain, where the epitopes for monoclonal antibodies MT151 and OKT4B were also mapped.
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PMID:Binding region for human immunodeficiency virus (HIV) and epitopes for HIV-blocking monoclonal antibodies of the CD4 molecule defined by site-directed mutagenesis. 246 65


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