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)

CD4 is an integral membrane glycoprotein which is known as the human immunodeficiency virus (HIV) receptor for infection of human cells. The protein is synthesized in the endoplasmic reticulum (ER) and subsequently transported to the cell surface via the Golgi complex. HIV infection of CD4+ cells leads to downmodulation of cell surface CD4, due at least in part to the formation of stable intracellular complexes between CD4 and the HIV type 1 (HIV-1) Env precursor polyprotein gp160. This process "traps" both proteins in the ER, leading to reduced surface expression of CD4 and reduced processing of gp160 to gp120 and gp41. We have recently demonstrated that the presence of the HIV-1-encoded integral membrane protein Vpu can reduce the formation of Env-CD4 complexes, resulting in increased gp160 processing and decreased CD4 stability. We have studied the effect of Vpu on CD4 stability and found that Vpu induces rapid degradation of CD4, reducing the half-life of CD4 from 6 h to 12 min. By using a CD4-binding mutant of gp160, we were able to show that this Vpu-induced degradation of CD4 requires retention of CD4 in the ER, which is normally accomplished through its binding to gp160. The involvement of gp160 in the induction of CD4 degradation is restricted to its function as a CD4 trap, since, in the absence of Env, an ER retention mutant of CD4, as well as wild-type CD4 in cultures treated with brefeldin A, a drug that blocks transport of proteins from the ER, is degraded in the presence of Vpu.
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PMID:Human immunodeficiency virus type 1 Vpu protein induces rapid degradation of CD4. 143 12

The third variable (V3) domain of the human immunodeficiency virus type 1 (HIV-1) external membrane glycoprotein gp120 is of crucial importance in eliciting neutralizing antibodies in infected persons. Polyclonal (PAb) and monoclonal (MAb) antibodies directed against selected epitopes in the V3 domain are valuable tools for analysis of the involvement of such sequences in neutralization and for definition of the relation between amino acid variability and immunological cross-reactions. The aim of this study was to obtain such site-specific antibodies. By using synthetic peptides derived from the V3 domain, a group-specific neutralizing PAb, two high-affinity HIV-1 IIIB neutralizing MAb, and two nonneutralizing MAb were raised. A 15-amino-acid peptide overlapping the tip of the V3 domain of HIV-1 MN was used to produce a rabbit PAb (W0/07). This PAb inhibited syncytium formation induced by HIV-1 IIIB and four field isolates. A similar IIIB-derived peptide was used to generate two murine immunoglobulin G1 (IgG1) MAb (IIIB-V3-13 and IIIB-V3-34). Pepscan analysis mapped the binding site of IIIB-V3-34 to the sequence IRIQRGPGR. The Kds of IIIB-V3-13 and IIIB-V3-34 for gp120 were 6.8 x 10(-11) and 1.6 x 10(-10) M, respectively. These MAb neutralized IIIB but not MN and inhibited syncytium formation induced by IIIB. They are applicable in enzyme-linked immunosorbent assays, immunocytochemistry, and flow cytometry. A peptide covering the left base of the V3 domain was used to generate two murine IgG1 MAb (IIIB-V3-21 and IIIB-V3-26). The binding site of IIIB-V3-21 was mapped to the sequence INCTRPN. These MAb did not neutralize HIV-1 and did not inhibit syncytium formation. This study supports the notion that HIV-1 neutralizing antibodies suitable for multiassay performance can be obtained with synthetic peptides and that high-affinity MAb can be generated. Such site-specific antibodies are useful reagents in the analysis of HIV-1 neutralization. In addition, the cross-neutralization of different viral strains by PAb generated through single-peptide immunization is directly relevant to vaccine development.
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PMID:Variant-specific monoclonal and group-specific polyclonal human immunodeficiency virus type 1 neutralizing antibodies raised with synthetic peptides from the gp120 third variable domain. 162 71

We investigated sequence variation in the human immunodeficiency virus type 1 (HIV-1) env gene region that encodes the fourth disulfide-bonded domain of the external membrane glycoprotein, gp120, among three HIV-1 isolates from patients with AIDS-related neurologic disease. The sequences of HIV-1 isolated directly from brain tissue, blood cells, and in vitro cell cultures were compared. The results suggest that there may be many closely related HIV-1 genomes of several distinct subtypes in an HIV-1-infected individual. Differences were observed in the frequency distribution of sequence variants obtained from brain versus blood of the same individuals. Overall, the proportion of silent mutations is much lower than expected by random occurrence. Taken together, these results favor the possibility that selective forces may play a role in the tissue distribution of certain HIV-1 strains.
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PMID:HIV-1 env sequence variation in brain tissue of patients with AIDS-related neurologic disease. 168 85

The T lymphocyte surface protein CD4 is an integral membrane glycoprotein noncovalently associated with the tyrosine protein kinase p56lck. In normal T cells, surface association of CD4 molecules with other CD4 molecules or other T-cell surface proteins, such as the T-cell antigen receptor, stimulates the activity of the p56lck tyrosine kinase, resulting in the phosphorylation of various cellular proteins at tyrosine residues. Thus, the signal transduction in T cells generated through the surface engagement of CD4 is similar to that observed for the class of growth factor receptors possessing endogenous tyrosine kinase activity. As CD4 is also the cellular receptor for the human immunodeficiency virus (HIV), binding of the virus or gp120 (the virus surface protein responsible for specific CD4+ T-cell association) could mimic the types of immunological interactions that have previously been found to stimulate p56lck and trigger T-cell activation pathways. We have evaluated this possibility and report here that binding of HIV-1 or the virus glycoprotein gp120 to CD4+ human T cells fails to elicit detectable p56lck-dependent tyrosine kinase activation and signalling, alterations in the composition of cellular phosphotyrosine-containing proteins, or changes in intracellular Ca2+ concentration.
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PMID:No T-cell tyrosine protein kinase signalling or calcium mobilization after CD4 association with HIV-1 or HIV-1 gp120. 170 Oct 34

Sequence change in different hypervariable regions of the external membrane glycoprotein (gp120) of human immunodeficiency virus type 1 (HIV-1) was studied. Viral RNA associated with cell-free virus particles circulating in plasma and proviral DNA present in HIV-infected peripheral blood mononuclear cells (PBMCs) were extracted from blood samples of two currently asymptomatic hemophiliac patients over a 5-year period. HIV sequences were amplified by polymerase chain reaction to allow analysis in the V3, V4, and V5 hypervariable regions of gp120. Rapid sequence change, consisting of regular replacements by a succession of distinct viral populations, was found in both plasma virus and PBMC provirus populations. Significant differences between the frequencies of sequence variants in DNA and RNA populations within the same sample were observed, indicating that at any one time point, the predominant plasma virus variants were antigenically distinct from viruses encoded by HIV DNA sequences in PBMCs. How these findings contribute to current models of HIV pathogenesis is discussed.
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PMID:Discontinuous sequence change of human immunodeficiency virus (HIV) type 1 env sequences in plasma viral and lymphocyte-associated proviral populations in vivo: implications for models of HIV pathogenesis. 192 Jun 32

Infection with the human immunodeficiency viruses results in a profound immunosuppression responsible for most of the clinical features of AIDS. The virus devastates the immune system because its main target is the T4 lymphocyte, which is the key component for generating and regulating the immune response. The cellular receptor for HIV, the membrane glycoprotein CD4, is found mainly on the surface of this major subpopulation of T lymphocytes and also on many other cell types such as those of the monocyte/macrophage series. HIV can destroy CD4 cells by direct virus cytotoxicity and indirectly through the host response against HIV-infected cells or gp120-targeted cells. Cells of the macrophage lineage are generally not destroyed but serve as a reservoir of virus. HIV also causes functional impairment in T cells, B cells and monocytes. The virus can exist in latent or chronic form. The mechanisms of cellular destruction, viral persistence and conversion to a productive infection are being studied vigorously. Host factors that may affect clinical outcome and immunological markers that may predict progression of HIV disease are presently delineated. Prolonged serological latency may follow infection with HIV. Protective humoral and cell-mediated immune responses to HIV are either poor or not sustained. Recent results on HIV-specific cytotoxic T lymphocytes are of great interest. These cytotoxic cells, particularly those directed to gp120 targets, probably contribute to cellular damage. A central question regarding immunity to HIV is its beneficial versus deleterious effects, particularly in regard to the eventual development of an AIDS vaccine.
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PMID:Immunological features of human immunodeficiency virus disease. 213 20

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

CD4 is an integral membrane glycoprotein that acts as the cellular receptor for human immunodeficiency virus (HIV). A cDNA encoding full-length CD4 was inserted into the genome of Autographa californica nuclear polyhedrosis virus under transcriptional regulation of the viral polyhedrin gene promoter. The recombinant virus was used to infect insect cells, which resulted in the abundant expression of CD4 as evaluated by flow cytometry and immunoblot analysis. Recombinant CD4 expressed on the surface of infected insect cells was immunologically indistinguishable from human CD4 when using 11 different anti-CD4 monoclonal antibodies. The extraction of infected cells by phase-transition separation with Triton X-114 followed by immunoaffinity chromatography yielded a single protein detected by NaDodSO4/PAGE using silver staining. N-terminal sequence analysis of the purified recombinant protein showed that CD4 produced in Sf9 cells is efficiently cleaved from the precursor protein. Immunoblot analysis under nondenaturing conditions showed that the purified protein reacted with the anti-CD4 monoclonal antibody Leu-3a. The potential use of the recombinant membrane-associated CD4 in anti-HIV therapy is discussed.
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PMID:Cell-surface expression and purification of human CD4 produced in baculovirus-infected insect cells. 268 21

The Wiskott-Aldrich syndrome (WAS) is an X-linked immune deficiency disorder characterized clinically by both lymphocyte and platelet dysfunction. Studies of WAS T lymphocytes have revealed deficient or defective cell surface expression of the highly O-glycosylated leucocyte sialoglycoprotein CD43. To further elucidate the basis for, and functional relevance of, CD43 modifications on WAS lymphocytes, we have studied lymphocytes from two WAS patients with regard to membrane glycoprotein profile and mitogen-induced proliferative responses. CD43 was found to be either absent or altered in size on peripheral blood lymphocytes and lectin-stimulated T cells from both patients. Compared with control cells, the WAS lymphocytes displayed reduced, but measurable proliferative responses to lectins and neuraminidase/galactose oxidase, and virtually no response to periodate, a mitogenic agent which targets sialic acid residues on membrane glycoproteins such as CD43. Analysis of activities of three glycosyltransferases involved in O-glycosylation revealed marked reduction in the level of activity of UDP-N-acetylglucosamine: Gal beta 1-3GalNAc-R beta-1,6-N-acetylglucosamine (beta-1,6-GlcNAc) transferase in one WAS patient and no detectable activity of this enzyme in a second. beta-1,6-GlcNAc transferase activity has recently been shown to increase during T cell activation coincident with changes in the O-linked glycans on CD43. A selective reduction of this glycosyltransferase in WAS lymphocytes suggests that O-linked oligosaccharides may be important to the structure of membrane glycoproteins involved in lymphocyte activation.
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PMID:Altered expression of leucocyte sialoglycoprotein in Wiskott-Aldrich syndrome is associated with a specific defect in O-glycosylation. 280 29

Recent advances in the understanding of the pathogenesis of infection with human immunodeficiency virus (HIV) stems from the demonstration that the membrane glycoprotein, CD4, is the cellular receptor for HIV. This glycoprotein is found mainly on the surface of a major subpopulation of T lymphocytes and also on macrophages, natural killer cells, some B lymphocytes, and neuronal cells. Cells infected with HIV may be destroyed or have their normal function impaired. Host immune responses to HIV are poor and are not sustained. Neutralizing antibody often is not produced, or HIV may escape from normal immunosuppressive mechanisms through the process of rapid antigenic variation. Factors and markers that may be important in the outcome or that may predict progression of HIV infection are genetic (Gc type), environmental (nutritional status or intercurrent sexually transmitted diseases sustained by the host), and immunologic (rate of decline in number and impairment of function of CD4 lymphocytes and of decline in antibody titers to HIV core protein, p24). A recombinant vaccine will probably be developed for testing in future clinical trials.
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PMID:Immunology of human immunodeficiency virus infection and the acquired immunodeficiency syndrome. An update. 330 Apr 61


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