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)

HIV-1 actively replicates in dendritic cell (DC)-T cell cocultures, but it has been difficult to demonstrate substantial infection of purified mature DCs. We now find that HIV-1 begins reverse transcription much more efficiently in DCs than T cells, even though T cells have higher levels of CD4 and gp120 binding. DCs isolated from skin or from blood precursors behave similarly. Several M-tropic strains and the T-tropic strain IIIB enter DCs efficiently, as assessed by the progressive formation of the early products of reverse transcription after a 90-min virus pulse at 37 degrees C. However, few late gag-containing sequences are detected, so that active viral replication does not occur. The formation of these early transcripts seems to follow entry of HIV-1, rather than binding of virions that contain viral DNA. Early transcripts are scarce if DCs are exposed to virus on ice for 4 h, or for 90 min at 37 degrees C, conditions which allow virus binding. Also the early transcripts once formed are insensitive to trypsin. The entry of a M-tropic isolates is blocked by the chemokine RANTES, and the entry of IIIB by SDF-1. RANTES interacts with CCR5 and SDF-1 with CXCR4 receptors. Entry of M-tropic but not T-tropic virus is ablated in DCs from individuals who lack a functional CCR5 receptor. DCs express more CCR5 and CXCR4 mRNA than T cells. Therefore, while HIV-1 does not replicate efficiently in mature DCs, viral entry can be active and can be blocked by chemokines that act on known receptors for M- and T-tropic virus.
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PMID:Efficient interaction of HIV-1 with purified dendritic cells via multiple chemokine coreceptors. 897

Cytotoxic T cells are believed to be an important immune response in HIV infection, both in the initial response to viraemia, and in controlling HIV replication and maintaining clinical stability. We report here the detailed findings in two vertically infected children, from the Edinburgh perinatal cohort. Both were clinically stable for the first 7 years of life. One had vigorous HIV-specific cytotoxic T lymphocyte (CTL) responses, and non-lytic suppression, measured in vitro, while the second had no CTL activity against HIV. Despite her HIV-specific immunity, the first child had a declining CD4 count, and a high and fluctuating viral load, whereas the second child maintained a stable CD4 count, a low viral load and had a virus which could not be cultured in peripheral blood mononuclear cells (PBMC) in vitro. The first child subsequently progressed to AIDS and has now died, while the second remains clinically well. More detailed investigations showed the clinically stable child to be heterozygous for the CCR5 receptor, and to be HLA-B49--both of which markers have been associated with slow HIV disease progression. These findings question the role of CTL in maintaining stable HIV disease, and stress the need for immunological investigations to be considered in the light of the genetic make-up of the patient. They may also reflect a different immunopathogenesis of HIV disease in children compared with adults.
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PMID:In vitro measurement of cytotoxic T cell activity does not predict clinical progression in paediatric HIV disease--two case studies. 935 43

The chemokine receptor CCR5 is the major coreceptor for infection by macrophage-tropic R5 HIV-1. A 32-bp deletion in the gene coding for CCR5 (CCR5Delta32) occurs with a frequency of 10% in the Caucasian population and results in a receptor protein that is truncated and not expressed at the cell surface. CCR5Delta32 homozygous individuals are apparently normal but resistant to infection with R5 HIV-1. In two individuals homozygous for CCR5Delta32, who had been repeatedly exposed to CCR5-expressing blood cells through sexual activity, we have identified antibodies to CCR5 that bound specifically to the surface of CCR5-expressing cell lines. Serum from these individuals, in contrast to serum from CCR5(+/+) individuals, competed with radiolabeled RANTES for binding to the CCR5 receptor and inhibited infection of peripheral blood mononuclear cells with R5, but not X4, primary isolates of HIV-1. The identified human antibodies to CCR5 define an alloantigen that may cause allograft rejection in a mismatch situation even in individuals with no history of blood transfusions or i.v. drug abuse.
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PMID:The CCR5 receptor acts as an alloantigen in CCR5Delta32 homozygous individuals: identification of chemokineand HIV-1-blocking human antibodies. 956 Feb 60

The CCR5 chemokine receptor is an important coreceptor for macrophage-tropic HIV strains. Homozygous carriers of the mutated CCR5 receptor with a 32 bp deletion (delta 32-CCR5) are highly protected against HIV infection. A protective effect has also been described for heterozygous individuals carrying both mutated and wildtype CCR5 receptors. We compared the frequency of the mutated delta 32-CCR5 HIV coreceptor in HIV positive patients infected by sexual contact (N = 160) with intravenously HIV infected hemophilic patients (N = 84) and HIV negative individuals (N = 421). We found no protective effect of delta 32-CCR5 HIV coreceptor in hemophilic patients (p = 0.0134). If proteins of plasma concentrates would be responsible for facilitating the entry of HIV macrophages by upregulation of the CCR5 wildtype receptor it would be of therapeutical interest to identify the responsible plasma proteins.
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PMID:Lack of protection from HIV infection by the mutant HIV coreceptor CCR5 in intravenously HIV infected hemophilia patients. 956 72

The intersection of the HIV and the chemokine fields began with the observation that HIV entry into cells could be blocked by certain chemokines. Subsequent work showed that HIV entry is dependent on the presence of specific chemokine receptors. These observations led us to evaluate a series of compounds, ureido analogs of distamycin previously reported to block HIV entry into cells in vitro, for chemokine antagonist activity. One of the distamycin analogs, 2,2'[4,4'-[[aminocarbonyl]amino]bis[N,4'-di[pyrrole-2-carboxamide- 1,1'-dimethyl]]-6,8 napthalenedisulfonic acid] hexasodium salt (NSC 651016), is shown here to inhibit syncytia formation and cell fusion. Mechanistic studies showed that this inhibition was not due to conformational changes in gp120-gp41 induced by target cell CD4 and chemokine co-receptor and was therefore not due to interference with binding of HIV-1. Additional mechanistic studies demonstrated that NSC 651016 inhibited chemokine binding to specific chemokine receptors, induced CXCR4 and CCR5 receptor internalization, and inhibited chemokine-induced chemotaxis by macrophage inflammatory protein (MIP)-1alpha, MIP-1beta, RANTES, and stromal-derived factor-1alpha but not monocyte chemotactic protein-1. Thus, we describe a novel compound that inhibits in vivo replication of HIV-1 by down-regulation of co-receptors. These data lead us to propose that NSC 651016 may have in vivo anti-inflammatory activity.
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PMID:Small molecule inhibitor of HIV-1 cell fusion blocks chemokine receptor-mediated function. 966 68

The chemokine receptor CCR5 plays a key role in the CD4-dependent entry of human and simian immunodeficiency viruses into target cells. We have mapped the interaction sites on CCR5 for a number of novel anti-CCR5 monoclonal antibodies and have used these to study the role of the CCR5 N-terminal ectodomain in viral entry and to demonstrate differential CCR5 epitope expression on different cell types. Deletions of the CCR5 amino terminal domain or substitution with equivalent regions from other chemokine receptors did not affect cell surface expression or reactivity with loop-specific antibodies, suggesting that the loop regions remained conformationally intact. Exchanges of the amino terminal segment of CCR5 with the equivalent domains of CCR1, CCR2, and CXCR4 did not significantly affect infection with virus pseudotyped with envelope glycoproteins (Envs) from HIV-2 and SIV, but substitution with the CXCR4 sequence abrogated entry mediated by Env from HIV-1. In contrast, deletion of the amino terminus abrogated CCR5 receptor activity for all viral Envs examined. These data indicate that the amino terminus of CCR5 has an essential role in entry mediated by diverse viral Envs but that the sequence requirements are more relaxed for the HIV-2 and SIV Envs compared to the HIV-1 Env examined. This suggests that different viral Envs make distinct and specific interactions with the amino terminus of CCR5. Viral Env utilization of CCR5 expressed on 293-T cells does not always correlate with the cellular tropism of the virus, and one possible explanation is that Env-accessible interaction sites on CCR5 differ on different cell types. We therefore analyzed binding of several anti-CCR5 monoclonal antibodies to cell lines and primary cells that express this chemokine receptor and found that whereas all antibodies bound to CCR5-transfected 293T cells, several did not bind to PBMC. The results suggest that CCR5 undergoes cell type specific structural modifications which may affect interaction with different HIV and SIV envelope glycoproteins.
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PMID:The amino terminus of human CCR5 is required for its function as a receptor for diverse human and simian immunodeficiency virus envelope glycoproteins. 972 Dec 44

Chemokine receptor CCR5 is not only essential for chemotaxis of leukocytes but also has been shown to be a key coreceptor for HIV-1 infection. In the present study, hemagglutinin epitope-tagged human CCR5 receptor was stably expressed in Chinese hamster ovary cells or transiently expressed in NG108-15 cells to investigate CCR5-mediated signaling events. The surface expression of CCR5 was confirmed by flow cytometry analysis. The CCR5 agonist RANTES stimulated [35S]GTPgammaS binding to the cell membranes and induced inhibition on adenylyl cyclase activity in cells expressing CCR5. The effects of RANTES were CCR5 dependent and could be blocked by pertussis toxin. Furthermore, overexpression of Gialpha2 strongly increased both RANTES-dependent G-protein activation and inhibition on adenylyl cyclase in cells cotransfected with CCR5. These data demonstrated directly that activation of CCR5 stimulated membrane-associated inhibitory G proteins and indicated that CCR5 could functionally couple to G-protein subtype Gialpha2. The abilities of CCR5 to activate G protein and to inhibit cellular cAMP accumulation were significantly diminished after a brief prechallenge with RANTES, showing rapid desensitization of the receptor-mediated responsiveness. Prolonged exposure of the cells to RANTES caused significant reduction of surface CCR5 as measured by flow cytometry, indicative of agonist-dependent receptor internalization. Our data thus demonstrated that CCR5 functionally couples to membrane-associated inhibitory G proteins and undergoes agonist-dependent desensitization and internalization.
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PMID:Chemokine receptor CCR5 functionally couples to inhibitory G proteins and undergoes desensitization. 973 52

The effect of macrophage (M)-tropic and T cell line (T)-tropic human immunodeficiency virus type 1 (HIV-1) infection on antigen-specific CD4 cytotoxic T lymphocytes (CTLs) has been studied using a CD4 CTL line specific for a peptide from influenza B virus hemagglutinin. In the absence of antigen presentation, the production of CC chemokines was low. Both the M-tropic HIV-1 strain (HIV-1AD) and the T-tropic HIV-1 strain (HIV-1LAI) established productive infections in the CD4 CTLs, decreasing antigen-specific cytotoxicity. Peptide presented to the CD4 CTLs increased their secretion of RANTES and MIP-1beta, suppressed M-tropic HIV-1 replication, downmodulated CCR5 expression, and preserved CTL recognition. The suppression of M-tropic HIV-1 replication and downmodulation of the CCR5 receptor likely resulted from CC chemokine secretion since antibodies to CC chemokines restored M-tropic HIV-1 replication. Antigen presentation did not protect CD4 CTLs from T-tropic HIV-1 infection or preserve their CTL recognition. Thus, these CD4 CTLs do not make suppressor factors that inhibit the T-tropic HIV-1LAI isolate. The results indicate that these CD4 CTLs can either harbor or suppress M-tropic HIV-1 infection, depending on whether antigen is present. CD4 CTLs might therefore provide some protection in the early stages of HIV-1 infection when M-tropic isolates are present.
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PMID:Human immunodeficiency virus type 1 infection of antigen-specific CD4 cytotoxic T lymphocytes. 982 17

The role of exogenous stimulation of CD40 by CD40 ligand (CD40L) in dendritic cell (DC) maturation, CC-chemokine production, and CCR5 receptor expression was examined using a soluble trimeric CD40L agonist protein (CD40LT). Stimulation of monocyte-derived DCs with CD40LT enhanced the production of the CC-chemokines macrophage inflammatory protein (MIP)-1 alpha, MIP-1 beta, and RANTES and diminished surface expression of CCR5. Based on these findings, the functional role of CD40LT stimulation on the ability of DCs to replicate and transmit HIV viral infection was studied. The addition of CD40LT to cocultures of naive CD4+ T cells and autologous DCs (T/DC) infected with the macrophage-tropic isolate, HIVBaL, caused a striking reduction in reverse transcriptase (RT) activity after 10 and 14 days of culture. The addition of a mixture of Abs against CC-chemokines abrogated the decrease in RT activity, demonstrating that the inhibitory effect mediated by CD40LT was CC-chemokine-dependent. In contrast, the presence of CD40LT in T/DC cocultures infected with the T cell-tropic isolate, HIV IIIB, caused an increase in RT activity that was CC-chemokine-independent. Of note, CD40LT stimulation also inhibited RT activity in cultures containing macrophage-tropic virus (HIVBaL)-infected DC only. However, in contrast to the results seen in the T/DC cocultures, CD40LT stimulation inhibited RT activity in cultures of DCs alone in a CC-chemokine-independent manner. Together, these results show that CD40LT stimulation of DCs suppresses HIV replication and transmission to CD4+ T cells by two potentially different mechanisms.
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PMID:Differential effects of CD40 ligand/trimer stimulation on the ability of dendritic cells to replicate and transmit HIV infection: evidence for CC-chemokine-dependent and -independent mechanisms. 1009 34

High-molecular-weight dextran sulfate (HMDS) inhibits infection of CD4+ lymphocytes by T-cell (T)-tropic human immunodeficiency virus (HIV) isolates, but augments replication of macrophage (M)-tropic isolates in primary human macrophages and phorbol myristate acetate (PMA)-differentiated THP-1 monocytic cells. To address the mechanism responsible for HMDS-mediated increases in HIV replication in macrophages, we analyzed the interaction between HMDS and functional domains of gp120 on the surface of PMA-differentiated THP-1 cells infected with M-tropic HIV isolates. Immunofluorescence staining of the infected cells revealed that HMDS inhibited the binding of monoclonal antibodies (mAbs) directed to the V3 and C4 domains of gp120, but augmented the binding of three neutralizing antibodies directed to the V2 region of gp120. The extent of HMDS-mediated changes within the V2 loop of gp120 was associated with increased virus binding and replication in PMA-differentiated THP-1 cells and primary macrophages. The effect was dependent on expression of the CCR5 receptor and was inhibited by the beta-chemokine RANTES. Results of this study suggest that HMDS-mediated increases in HIV infection in macrophages are associated with conformational changes within the V2 region of gp120 and enhanced interaction between gp120 and the CCR5 coreceptor on the target cell.
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PMID:Enhanced human immunodeficiency virus infection in macrophages by high-molecular-weight dextran sulfate is associated with conformational changes of gp120 and expression of the CCR5 receptor. 1033 39

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