UMLS:C0019693 - FACTA Search

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

Human immunodeficiency virus type 1 (HIV-1) requires, in addition to CD4, coreceptors of the CC or CXC chemokine families for productive infection of T cells and cells of the monocyte-macrophage lineage. Based on the hypothesis that coreceptor expression on alveolar macrophages (AM) may influence HIV-1 infection of AM in the lung, this study analyzes the expression and utilization of HIV-1 coreceptors on AM of healthy individuals. AM were productively infected with five different primary isolates of HIV-1. Levels of surface expression of CCR5, CXCR4, and CD4 were low compared to those of blood monocytes, but CCR3 was not detectable. mRNA for CCR5, CXCR4, CCR2, and CCR3 were all detectable, but to varying degrees and with variability among donors. Expression of CCR5, CXCR4, and CCR2 mRNA was downregulated following stimulation with lipopolysaccharide (LPS). In contrast, secretion of the chemokines RANTES, MIP-1alpha, and MIP-1beta was upregulated with LPS stimulation. Interestingly, HIV-1 replication was diminished following LPS stimulation. Infection of AM with HIV-1 in the presence of the CC chemokines demonstrated blocking of infection. Together, these studies demonstrate that AM can be infected by a variety of primary HIV-1 isolates, AM express a variety of chemokine receptors, the dominant coreceptor used for HIV entry into AM is CCR5, the expression of these receptors is dependent on the state of activation of AM, and the ability of HIV-1 to infect AM may be modulated by expression of the chemokine receptors and by chemokines per se.
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PMID:Expression and use of human immunodeficiency virus type 1 coreceptors by human alveolar macrophages. 1036 38

Central nervous system (CNS) involvement is a prominent feature of human immunodeficiency virus (HIV-1) infection. Monocytes and CD4+ T cells traverse the blood brain barrier (BBB), and serve as vehicles for the virus and perpetrators for brain pathology by their production of neurotoxins. In the present study cerebrospinal fluid (CSF) samples from HIV-1-infected patients were analyzed for the presence of chemotactic factors. All 36 CSF samples from the patients were positive for the CXC chemokine interferon-gamma inducible protein (IP-10), which was not detected in CSF samples of 14 controls. The IP-10 concentrations were higher in HIV-1-infected patients with HIV-1 associated neurologic disorders than in those without neurological deficits. In contrast to IP-10, other chemotactic factors including the CC chemokines MCP-1, MIP-1alpha, MIP-1beta and RANTES and the cytokines IL-15 and IL-16 were either not detected or increased in only less than 30% of the patients. Unlike the CSF samples of controls, all CSF samples from HIV-1-infected patients induced chemotaxis of T cells activated with IL-2. The significance of IP-10 as a T cell chemotactic cytokine in HIV-1-infected CSF is shown by (1) the correlation of the IP-10 levels with the extent of T cell chemotaxis, (2) the neutralization of T cell chemotaxis by anti-IP-10 antibodies and (3) the correlation of the chemotactic response of CSF samples on activated T cells and the CSF white cell count in the patients. Our data provide evidence that IP-10 contributes to the accumulation of activated T cells in the CSF compartment in HIV-1-infected individuals.
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PMID:Identification of a T cell chemotactic factor in the cerebrospinal fluid of HIV-1-infected individuals as interferon-gamma inducible protein 10. 1037 81

Studies have demonstrated that the beta-chemokines RANTES, MIP-1alpha, and MIP-1beta suppress human immunodeficiency type 1 (HIV-1) replication in vitro. Infection with HIV-1 requires expression of CD4 antigen and the chemokine receptor CXCR4 (X4) or CCR5 (R5) on the surface of target cells. The engagement of these receptors with the viral surface proteins is essential for the membrane fusion process. This study investigated the anti-HIV-1 activity of a derivative of RANTES, the CCR5 antagonist aminooxypentane (AOP)-RANTES, on R5 HIV-1 isolates in peripheral blood mononuclear cells. In drug exposure experiments, AOP-RANTES efficiently inhibited viral replication of HIV-1 R5 strains, with a viral breakthrough observed after the withdrawal of the compound. The HIV-1-specific proliferative capacity was maintained under all conditions when compared with controls. An increase in IFN-gamma production accompanied by a parallel decrease in the generation of IL-10 was observed following the in vitro exposure of cells to AOP-RANTES in the presence of three of four HIV-1 R5 isolates. These experiments confirmed that the chemokine receptor antagonist AOP-RANTES was effective as an inhibitor of HIV-1 R5 strain infectivity in peripheral blood mononuclear cells. The capacity of this compound to maintain HIV-1-specific proliferative activity with a shift toward a type 1 cytokine profile makes this compound a unique molecule, one adopting an immunological pathway to limit HIV-1 infection.
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PMID:Aminooxypentane-RANTES, an inhibitor of R5 human immunodeficiency virus type 1, increases the interferon gamma to interleukin 10 ratio without impairing cellular proliferation. 1040 22

The chemokine receptor CCR5 has been shown to be a major coreceptor for HIV-1. The chemokines that bind to this receptor (MIP-1alpha, MIP-1beta, and RANTES) are potent inhibitors of HIV replication and may play an important role in the pathophysiology of HIV disease. We investigated the effect of potent antiretroviral therapy (ritonavir and saquinavir) on the production of MIP-1alpha, MIP-1beta, and RANTES in 19 HIV-infected patients who had sustained decreases in plasma HIV RNA levels (<200 copies/ml). Chemokine concentrations were measured in serum, plasma, and PHA-stimulated PBMCs at baseline and 24 and 48 weeks after initiating therapy. MIP-1alpha, MIP-1beta, and RANTES levels in serum and plasma did not significantly change in the 48-week period. In contrast, MIP-1alpha and MIP-1beta secreted by PHA-stimulated PBMCs increased at 24 weeks, with this increase sustained at 48 weeks, whereas no significant change was observed in PHA-induced RANTES production. A significant positive correlation was found between the changes in PHA-induced chemokine production and baseline CD4+ T cell counts. These data demonstrate that sustained suppression of viral replication by potent antiretroviral therapy has a potentially beneficial effect on chemokine production and early initiation of this therapy appears to confer a more favorable chemokine profile.
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PMID:Sustained suppression of plasma HIV RNA is associated with an increase in the production of mitogen-induced MIP-1alpha and MIP-1beta. 1046 27

Specific chemokines can block HIV entry and replication because they antagonize the common strategy of lentiviruses to use chemokine receptors for infecting CD4+ cells of the body, especially lymphocytes and cells of the monocytic lineage. This raised intense academical and therapeutical interest. The antiviral potency of these chemokines is indeed remarkable, but depends on the chemokine and the HIV isolate used. This is because HIV appears to use many co-receptors, alternatively or in addition to the CCR5 co-receptor. These include CCR3, CXCR4, STRL33/Bonzo/TYMSTR, and BOB. The CC chemokines RANTES, MIP-1alpha, MIP-1beta, and Eotaxin can suppress the replication of CCR5- and CCR3-dependent viruses, while SDF-1 alpha/beta suppresses that of CXCR4-dependent strains. Although no general rule can be drawn at present, it appears that chronic HIV infection may give rise to viruses which, instead of using preferentially or exclusively CCR5, are capable of using more than one co-receptor. This underlines the need for assaying the tropism of primary isolates, using both fusion assays and protection of activated lymphocyte cultures by one or more antiviral chemokines or chemokine antagonists.
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PMID:Blocking HIV co-receptors by chemokines. 1046 36

We compared the anti-HIV-1 activity of CC-chemokine LD78beta with that of MIP-1alpha, another CC-chemokine which shows 94% sequence homology with LD78beta. Despite its close similarity to MIP-1alpha, the anti-HIV-1 activity of LD78beta appeared to be nearly 10 times higher than that of MIP-1alpha. Mutagenesis of MIP-1alpha showed that the N-terminal additional tetrapeptide, which was present in LD78beta and absent in MIP-1alpha, is responsible for enhanced anti-HIV-1 activity. The N-terminal structure-function relationship of LD78beta described here will be of value in understanding the chemokine-receptor interactions and designing anti-HIV-1 compounds based on LD78beta.
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PMID:Enhanced anti-HIV-1 activity of CC-chemokine LD78beta, a non-allelic variant of MIP-1alpha/LD78alpha. 1047 82

Human immunodeficiency virus (HIV) entry is mediated not only by the CD4 receptor, but also by interaction with closely related molecules that act as membrane coreceptors. We have analyzed mRNA expression and/or cell membrane exposition of the coreceptors most widely used by diverse HIV-1 strains (CXCR4, CCR5, and CCR3) on purified hematopoietic progenitor cells (HPCs) induced in liquid suspension culture to unilineage differentiation/maturation through the erythroid (E), granulocytic (G), megakaryocytic (Mk), and monocytic (Mo) lineages. Reverse transcriptase-polymerase chain reaction (RT-PCR) and cytofluorimetric analysis showed the presence of both CXCR4 and CCR5 in quiescent HPCs, but failed to detect CCR3-specific transcripts. Chemokine expression in HPC progenies showed that CXCR4 receptor is detected on the majority of MKs from early to late stages of maturation, whereas it is moderately decreased in the Mo lineage. In the G pathway, two distinct cell populations, CXCR4(+) and CXCR4(-), were observed: morphological analysis of the sorted populations showed that the CXCR4(+) cells were largely eosinophils and the CXCR4(-) were granulocytes of the neutrophilic series. Furthermore, in the E pathway, CXCR4 was almost completely absent. CCR5 expression is restricted to Mo cultures, ie, approximately 30% to 80% cells throughout all monocytopoietic differentiation/maturation stages. Finally, CCR3 mRNA is always absent in all the unilineage cultures. Evaluation of CD4 expression by flow cytometry on both quiescent HPCs and differentiating unilineage precursors showed that the CD4 receptor is present on approximately 15% of the starting CD34(+) HPC population, highly expressed in the Mo lineage up to 80% at terminal maturation, present on 20% to 30% of maturing Mks, and not detectable in either the E or G lineage. Expression of CD4 receptor together with CXCR4 and/or CCR5 coreceptor in the four lineages correlates with hematopoietic precursor susceptibility to T-lymphotropic and macrophage (M)-tropic HIV strains infection: (1) CD4(-) G and E cells were resistant to both M-tropic and T-lymphotropic strains; (2) HPC-derived Mks were susceptible to T-tropic, but resistant to M-tropic, infection; (3) Mo differentiating cells efficiently replicate both HIV strains. Furthermore, we showed that the CXCR4 and CCR5 ligands (stromal-derived factor 1 and macrophage-inflammatory protein-1alpha [MIP-1alpha], MIP-1beta and RANTES, respectively) inhibit HIV replication in both maturing Mo and Mk cells. Taken together, our data show a lineage-specific modulation of chemokine receptor/coreceptor during hematopoietic cell differentiation and extend previous observations on the relationship between the expression of HIV receptor/coreceptors, susceptibility, and chemokine-mediated resistance to HIV infection.
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PMID:Lineage-specific expression of human immunodeficiency virus (HIV) receptor/coreceptors in differentiating hematopoietic precursors: correlation with susceptibility to T- and M-tropic HIV and chemokine-mediated HIV resistance. 1093 97

CCR5 was first characterized as a receptor for MIP-1alpha, MIP-1beta, and RANTES, and was rapidly shown to be the main coreceptor for M-tropic human immunodeficiency virus (HIV)-1 strains and simian immunodeficiency virus (SIV). Chemokines constitute a rapidly growing family of proteins and receptor-chemokine interactions are known to be promiscuous and redundant. We have therefore tested whether other CC-chemokines could bind to and activate CCR5. All CC-chemokines currently available were tested for their ability to compete with [(125)I]-MIP-1beta binding on a stable cell line expressing recombinant CCR5, and/or to induce a functional response in these cells. We found that in addition to MIP-1beta, MIP-1alpha, and RANTES, five other CC-chemokines could compete for [(125)I]-MIP-1beta binding: MCP-2, MCP-3, MCP-4, MCP-1, and eotaxin binding was characterized by IC(50) values of 0.22, 2.14, 5.89, 29.9, and 21.7 nmol/L, respectively. Among these ligands, MCP-3 had the remarkable property of binding CCR5 with high affinity without eliciting a functional response, MCP-3 could also inhibit the activation of CCR5 by MIP-1beta and may therefore be considered as a natural antagonist for CCR5. It was unable to induce significant endocytosis of the receptor. Chemokines that could compete with high affinity for MIP-1beta binding could also compete for monomeric gp120 binding, although with variable potencies; maximal gp120 binding inhibition was 80% for MCP-2, but only 30% for MIP-1beta. MCP-3 could compete efficiently for gp120 binding but was, however, found to be a weak inhibitor of HIV infection, probably as a consequence of its inability to downregulate the receptor.
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PMID:CCR5 binds multiple CC-chemokines: MCP-3 acts as a natural antagonist. 1047 18

The importance of chemokine expression on HIV infection has been emphasized by the discovery that infection of CD4(+) T cells by M-tropic strains of HIV-1 is antagonized by the chemokines RANTES, MIP-1alpha, and MIP-1beta, which are natural ligands of CCR5, a major coreceptor for macrophagetropic (M-tropic) isolates of HIV-1. Similarly, the CCR2b ligands MCP-1 and MCP-3 inhibit productive infection of PBMCs by both CCR5- and CXCR4-dependent strains of HIV-1, suggesting that expression of the MCP-1 chemokine may affect HIV infection via signaling through the CCR2 receptor and subsequent desensitization of the CCR5 and/or CXCR4 signaling pathway. Given the major role played by chemokine receptors in HIV-1 fusion/entry and the regulatory effects of chemokines on HIV-1 infection, we examined the pattern of chemokine gene expression in HIV-1-infected myeloid cells and in primary monocyte/macrophages. Chronic HIV-1 infection of U937 monocytic cells increased the expression of RANTES, MIP-1alpha, MIP-1beta, and IL-8 chemokine genes, but strongly inhibited PMA/PHA- and TNFalpha-induced MCP-1 gene transcription. HIV-1-mediated inhibition of MCP-1 transcription and secretion was further confirmed in de novo HIV-1-infected U937 cells and correlated with a delay in HIV- and signal-induced NF-kappaB binding to the MCP-1 promoter. The inhibition of MCP-1 gene expression may provide a mechanism by which HIV-1 escapes the early influence of chemokine expression in monocytic cells.
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PMID:Differential regulation of CC chemokine gene expression in human immunodeficiency virus-infected myeloid cells. 1049 6

Examination of a large panel of chemokines indicates that in addition to RANTES, MIP-1alpha and MIP-1beta, the beta-chemokine MCP-2 and, to a lesser extent, the gamma-chemokine lymphotactin also show anti-human immunodeficiency virus (HIV) activity in cell culture. The amount of chemokine needed to suppress HIV replication by > or = 50% was generally greater (> or = 250 ng/ml) than that required for inhibition of virus infection by RANTES, MIP-1alpha and MIP-1beta. The beta-chemokine MCP-3 was found to enhance the replication of both non-syncytium-inducing (NSI) and syncytium-inducing (SI) viruses at high concentrations (0.5-5 microg/ml). In contrast to a previous report, macrophage-derived chemokine was not found to inhibit HIV replication of either NSI or SI viruses, but at low concentrations enhanced NSI virus replication. When small amounts of RANTES or MCP-2 were added together with high concentrations of non-inhibitory chemokines, the anti-HIV effects were countered. Information on chemokines that affect HIV infection could be useful for future therapeutic strategies.
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PMID:Sensitivity of human immunodeficiency virus infection to various alpha, beta and gamma chemokines. 1050 89

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