UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD4 functions as a major T-cell surface receptor for human immunodeficiency virus by binding the human immunodeficiency virus type 1 (HIV-1) envelope protein gp120 with relatively high affinity. We have developed constrained aromatically modified analogs of the secondary structures of the first domain of CD4 in order to analyze surfaces involved in binding of gp120. Complementarity determining-like regions (CDRs) of the D1 domain of CD4 were reproduced as synthetic aromatically modified exocyclic (AMEs) forms. The exocyclic CDR3.AME(82-89), derived from the CDR3 (residues 82-89) region of CD4 D1 domain, specifically inhibited binding of recombinant gp120 to both recombinant soluble CD4, and CD4+ Jurkat cells, and blocked syncytium formation and virus particle production caused by HIV-1 infection. We have previously shown that the CDR3.AME analog binds to the CD4 CDR3 region and creates a disabled CD4 heterodimer. We propose that the AME prevents the formation of an essential homodimeric surface needed for efficient HIV binding. Additionally the disabled CD4 receptor may be less able to signal the cell to allow HIV replication and HIV infection. Such compounds may represent a new receptor specific approach to modulate biological functions.
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PMID:Synthetic CD4 exocyclics inhibit binding of human immunodeficiency virus type 1 envelope to CD4 and virus replication in T lymphocytes. 903 36

Human chemokine receptor 5 (CCR5) functions as a co-receptor for Human immunodeficiency virus (HIV-1) infection. CCR5 is a seven-transmembrane cell surface receptor. Recently, a naturally occurring mutation of CCR5, ccr5Delta32, has been described. A small number of Caucasians are homozygously ccr5Delta32/ccr5Delta32, while a larger number of individuals are heterozygously CCR5/ccr5Delta32. The ccr5Delta32/ccr5Delta32 genotype has been linked to a phenotype that is "highly" protected from HIV-1 infection. On the other hand, several studies have shown that the CCR5/ccr5Delta32 genotype confers "relative" protection from AIDS with onset of disease being delayed by 2-4 years. Although it is known that peripheral blood lymphocytes from heterozygous individuals (CCR5/ccr5Delta32) support ex vivo HIV-1 replication at a reduced level compared with CCR5/CCR5 cells, the molecular basis for this observation is unknown. Here we report on events that post-translationally modify CCR5. We show that CCR5 progresses through the endoplasmic reticulum prior to appearing on the cell surface. Mature CCR5 can be post-translationally modified by phosphorylation and/or co-translationally by multimerization. By contrast, mutant ccr5Delta32, although retaining the capacity for multimerization, was incapable of being phosphorylated. ccr5Delta32 heterocomplexes with CCR5, and this interaction retains CCR5 in the endoplasmic reticulum resulting in reduced cell surface expression. Thus, co-expression in cells of ccr5Delta32 with CCR5 produces a trans-inhibition by the former of ability by the latter to support HIV-1 infection. Taken together, our findings suggest CCR5/ccr5Delta32 heterodimerization as a molecular explanation for the delayed onset of AIDS in CCR5/ccr5Delta32 individuals.
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PMID:Mechanism of transdominant inhibition of CCR5-mediated HIV-1 infection by ccr5delta32. 938 91

Following cell surface receptor binding and membrane fusion, human immunodeficiency virus (HIV) virion cores are released in the cytoplasm. Incoming viral proteins represent potential targets for cytosolic proteases. We show that treatment of target cells with the proteasome inhibitors MG132 and lactacystin increased the efficiency of HIV infection. Proteasome inhibitors were active at the early steps of the viral cycle. Incoming p24Gag proteins accumulated in the cytosol, and larger amounts of proviral DNA were synthesized. In vitro, purified 20S proteasome degraded HIV virion components. Thus, degradation of incoming viral proteins by the proteasome represents an early intracellular defense against infection.
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PMID:Antiviral activity of the proteasome on incoming human immunodeficiency virus type 1. 955 68

This work tests the hypothesis that chronic alcohol intoxication suppresses the microbicidal activity of Kupffer cells by modulating the expression of cell surface receptors associated with respiratory burst and the release of potent microbicidal agents [i.e., reactive oxygen species (ROS)]. Because alcohol is also a potential risk factor in human immunodeficiency virus-1 (HIV-1) infection, this study examines the effect of HIV-1 glycoprotein 120 (gp120)-induced ROS release by isolated Kupffer cells. After 16 weeks of ethanol feeding, Kupffer cells from male Sprague-Dawley rats were isolated and assayed for HIV-1 gp120-induced superoxide release. Fluorescein isothiocyanate (FITC)-HIV-1 gp120 binding, NADPH oxidase, and protein kinase C activity in Kupffer cells were measured. Results show that HIV-1 gp120 induced the release of superoxide anion in a dose-dependent manner in normal rats. Mannosylated-bovine serum albumin inhibited FITC-HIV-1 gp120-mediated superoxide release in normal Kupffer cells by 85%. Moreover, 83 +/- 6% of Kupffer cells were FITC-HIV 1 gp120-positive, whereas <30% were CD4-positive. In alcohol-fed rats, HIV-1 gp120-induced ROS release was reduced by 70% and FITC-HIV-1 gp120 binding (in terms of fluorescence intensity per 10[6] Kupffer cells) by 44% in Kupffer cells, without any change in percent positive cells for this ligand. Concomitantly, HIV-1 gp120-induced translocation of NADPH oxidase to the plasma membranes of Kupffer cells in alcohol-fed rats was suppressed by 60%. In contrast, alcohol consumption significantly increased total protein kinase C activity and phorbol ester-induced superoxide release by Kupffer cells. These studies demonstrate that Kupffer cells are likely targets of HIV-1 whose binding sites on macrophages could also include mannose-specific receptors. These observations further suggest that suppression of HIV-1 gp120-mediated ROS production in chronic alcoholics is due to altered cell surface receptor expression for gp120, and defective postreceptor signaling mechanisms, which in turn could lead to attenuated microbicidal activity of hepatic macrophages.
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PMID:Chronic alcohol intoxication attenuates human immunodeficiency virus-1 glycoprotein 120-induced superoxide anion release by isolated Kupffer cells. 958 56

A chimeric protein consisting of CXC-chemokine receptor 4 (CXCR4) and the green fluorescent protein (GFP) was used for studying receptor localization and trafficking in real time in stably transduced HeLa, U-937, CEM, and NIH/3T3 cells. CXCR4-GFP was fully active as a co-receptor in mediating human immunodeficiency virus (HIV) entry. Both CXCR4 and CXCR4-GFP were found to undergo significant spontaneous endocytosis. Only 51.5 +/- 7.8% of receptor molecules were found on the plasma membrane in CD4-positive cells, 43.9 +/- 8.5% were found in CD4-negative HeLa cells, 75.6 +/- 9.7% were found in U-937 cells, 72.5 +/- 7.9 were found in CEM cells, and almost none were found in in NIH/3T3 cells. Stromal cell-derived factor-1alpha induced rapid endocytosis of cell surface receptor molecules. A significant part of CXCR4 was targeted to lysosomes upon binding of the ligands, and recycling of internalized CXCR4 was not efficient. Only about 30% of receptor molecules recycled back to the cell surface in HeLa cells, 5% recycled in U937, and 10% recycled in CEM cells, suggesting that the protective effect of chemokines against HIV infection can be attributed not only to competition for binding but also to depletion of the co-receptor molecules from the cell surface. Envelope glycoprotein gp120 of syncytia-inducing/lymphocyte tropic HIV-1 strains induced rapid internalization of CXCR4 in both CD4-negative and CD4-positive cells, suggesting that gp120 is a high affinity ligand of CXCR4.
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PMID:Spontaneous and ligand-induced trafficking of CXC-chemokine receptor 4. 963 31

Cell-to-cell signals between T lymphocytes and antigen-presenting cells strictly regulate the development of the immune response. It has clearly emerged that among these signals few cell surface receptor-ligand pairs, such as CD40 and its ligand, CD154, are mandatory for the induction of lymphocyte activation. The early observation that mutations of CD154 gene are responsible for a human severe immunodeficiency primed an impressive number of studies aimed to functionally characterize this receptorial system in view of therapeutically exploiting its properties. Indeed, various approaches aimed to disrupt natural CD40-CD154 interaction were highly effective in the prevention and treatment of several experimental models of autoimmune disease and transplant rejection. In parallel, abnormalities of this pathway were constantly found in several immunologically-mediated human diseases. Furthermore, a number of studies have dissected the role of CD40 and its ligand in the immune response against various microbial and viral pathogens. Since these molecules are often expressed by tumor cells, it is not surprising that great efforts have been made to address their function also in the development of cancer. Most recent data strongly suggest an involvement of endothelial CD40 in the vascular processes that lead to atherogenesis. This review focuses on the most significant advances in the understanding of the molecular regulatory events involving CD40 and its ligand in experimental and human disease.
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PMID:CD40-CD154 interaction in experimental and human disease (review). 1008 5

Recently, we reported the purification to homogeneity and characterization of Ca(2+)- and Mg(2+)-dependent endonuclease P40 produced by Mycoplasma penetrans (M. Bendjennat, A. Blanchard, M. Loutfi, L. Montagnier, and E. Bahraoui, J. Bacteriol. 179; 2210-2220, 1997), a mycoplasma which was isolated for the first time from the urine of human immunodeficiency virus-infected patients. To evaluate how this nuclease could interact with host cells, we tested its effect on CEM and Molt-4 lymphocytic cell lines and on peripheral blood mononuclear cells. We observed that 10(-7) to 10(-9) M P40 is able to mediate a cytotoxic effect. We found that 100% of cells were killed after 24 h of incubation with 10(-7) M P40 while only 40% cytotoxicity was obtained after 72 h of incubation with 10(-9) M P40. Phase-contrast microscopy observations of P40-treated cells revealed morphological changes, including pronounced blebbing of the plasma membrane and cytoplasmic shrinkage characteristic of programmed cell death, which is in agreement with the internucleosomal fragmentation of P40-treated cell DNA as shown by agarose gel electrophoresis. We showed that (125)I-radiolabeled or fluorescein isothiocyanate-labeled P40 was able to bind specifically in a dose-dependent manner to the cell membrane of CEM cells, which suggested that the cytotoxicity of P40 endonuclease was mediated by its interaction with the cell surface receptor(s). The concentration of unlabeled P40 required to inhibit by 50% the formation of (125)I-P40-CEM complexes was about 3 x 10(-9) M, indicating a high-affinity interaction. Both P40 interaction and cytotoxicity are Ca(2+) dependent. Our results suggest that the cytotoxicity of M. penetrans observed in vitro is mediated at least partially by secreted P40, which, after interaction with host cells, can induce an apoptosis-like death. These results strongly suggest a major role of mycoplasmal nucleases as potential pathogenic determinants.
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PMID:Role of Mycoplasma penetrans endonuclease P40 as a potential pathogenic determinant. 1045 86

We reported that SNV-derived retroviral vectors, which display single-chain antibodies on the viral surface, enable cell type-specific gene delivery into various human cells. In particular, the SNV cell type-specific gene delivery vector system appears to be well suited to transduce genes into cells of the human hematopoietic system (Jiang et al., J. Virol. 72:10148-10156, 1998). Here, we report the construction of SNV vector particles that display the complete gp120 surface unit of the envelope protein of human immunodeficiency virus type 1 (HIV-1) on the viral surface. The complete gp120-coding region of a T cell-tropic HIV-1 strain (LAI/BRU) was fused to a short peptide spacer coding region [(Gly4Ser)3] linking it to the SNV TM-coding region. The corresponding protein was expressed as a single 145-kDa peptide as expected. This peptide was nontoxic and could be stably expressed in dog D17 SNV-derived packaging cells. Particles harvested from stable packaging lines infected CD4+ human hematopoietic cells with titers exceeding 10(5) CFU/ml supernatant tissue culture medium. Titers in other, CD4- cell lines expressing various coreceptors of HIV-1 were 100-fold lower than titers obtained in CD4+ cells. Specificity of infection was demonstrated by antibody inhibition assays or by preincubating cells with SDF-1alpha, the ligand, which binds to the CXCR4 coreceptor, to which this gp120 binds. Our data indicate that binding of the HIV-1 gp120 to either CD4 or CXCR4 is sufficient to enable infection of human cells with SNV vector particles. We constructed retroviral vector particles that display chimeric HIV-1-SU-SNV-TM proteins plus wild-type SNV envelope on the viral surface. Such particles allowed efficient infection of CD4-positive human T lymphocytes, and, at a lower efficiency, also cells expressing CXCR4 without CD4. These data coincide with our earlier hypothesis that the chimeric envelope is required only to bind the vector particle to a cell surface receptor of the target cell, while membrane fusion is mediated by wild-type Env, which alone is not sufficient to enable infection of human cells.
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PMID:A genetically engineered spleen necrosis virus-derived retroviral vector that displays the HIV type 1 glycoprotein 120 envelope peptide. 1056 90

In addition to the primary cell surface receptor CD4, CCR5 or another coreceptor is necessary for infections by human immunodeficiency virus type 1 (HIV-1), yet the mechanisms of coreceptor function and their stoichiometries in the infection pathway remain substantially unknown. To address these issues, we studied the effects of CCR5 concentrations on HIV-1 infections using wild-type CCR5 and two attenuated mutant CCR5s, one with the mutation Y14N at a critical tyrosine sulfation site in the amino terminus and one with the mutation G163R in extracellular loop 2. The Y14N mutation converted a YYT sequence at positions 14 to 16 to an NYT consensus site for N-linked glycosylation, and the mutant protein was shown to be glycosylated at that position. The relationships between HIV-1 infectivity values and CCR5 concentrations took the form of sigmoidal (S-shaped) curves, which were dramatically altered in different ways by these mutations. Both mutations shifted the curves by factors of approximately 30- to 150-fold along the CCR5 concentration axis, consistent with evidence that they reduce affinities of virus for the coreceptor. In addition, the Y14N mutation specifically reduced the maximum efficiencies of infection that could be obtained at saturating CCR5 concentrations. The sigmoidal curves for all R5 HIV-1 isolates were quantitatively consistent with a simple mathematical model, implying that CCR5s reversibly associate with cell surface HIV-1 in a concentration-dependent manner, that approximately four to six CCR5s assemble around the virus to form a complex needed for infection, and that both mutations inhibit assembly of this complex but only the Y14N mutation also significantly reduces its ability to successfully mediate HIV-1 infections. Although several alternative models would be compatible with our data, a common feature of these alternatives is the cooperation of multiple CCR5s in the HIV-1 infection pathway. This cooperativity will need to be considered in future studies to address in detail the mechanism of CCR5-mediated HIV-1 membrane fusion.
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PMID:Cooperation of multiple CCR5 coreceptors is required for infections by human immunodeficiency virus type 1. 1088 39

The US28 gene of human cytomegalovirus (HCMV) codes a cell surface receptor for both beta chemokine and fractalkine molecules. This receptor facilitates HCMV-induced cell fusion and virus dissemination and influences susceptibility to infection with other viruses, including the human immunodeficiency virus. Five adjacent but divergent open reading frames that potentially code for molecules related to the US28 protein of HCMV are present in an African green monkey simian cytomegalovirus-derived stealth virus. This finding implies a role for chemokines in the pathogenicity of at least some stealth-adapted viruses. It may also help explain the apparent therapeutic benefit achieved in certain stealth virus-infected patients treated with agents that downregulate chemokine production.
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PMID:Chemokine receptor-related genetic sequences in an african green monkey simian cytomegalovirus-derived stealth virus. 1089 Dec 88

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