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)

Chemokine receptors (CCRs) have been demonstrated to facilitate the entry of HIV in different cell types of infected individuals, including CD4(+) T cells and dendritic cells. The natural or inducible expression of CCRs on trophoblast cells could provide a valid mechanism for the in utero transmission of HIV from mother to fetus. Because of the rapid turnover of these receptors, we attempted to define the natural and inducible expression of surface CCR3 and CXCR4 on primary human trophoblasts during short periods of cell culture. In the absence of any external stimulus the expression of CCR3 and CXCR4 varied from 1% to 24%. Kinetic experiments show that the levels of both CCR3 and CXCR4 reach a peak of expression after 6 h of culture, whereas by 24 h they have almost disappeared. In the presence of IFN-gamma, CCR3 is showing an increasing pattern of expression after 4 h of incubation, reaching highest levels after 24 h of culture, whereas CXCR4 is kept at lower levels as compared with nontreated cells. Furthermore, in the presence of IL-4, CCR3 expression declines from 2 to 8 h of culture to increase again at 24 h, where 50% of the cell population is expressing the receptors. Under the IL-4 stimulus, CXCR4 shows a peak of expression at 8 h of culture. An interesting feature of this study is that we were able to detect soluble CCR activity in the culture supernatants of trophoblast cells, which followed an inverse pattern of this of surface expression. Thus, the inability of many laboratories to detect high levels of CCRs in placentae of HIV infected mothers may be due on these fast turnover of these receptors, which by the assaying time have either been released in the culture medium or been internalized to the cell.
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PMID:Th1- and Th2-type lymphokine-assisted induction and release of chemokine receptors from primary human trophoblast cells. 1088 Jul 35

We have used coreceptor-targeted inhibitors to investigate which coreceptors are used by human immunodeficiency virus type 1 (HIV-1), simian immunodeficiency viruses (SIV), and human immunodeficiency virus type 2 (HIV-2) to enter peripheral blood mononuclear cells (PBMC). The inhibitors are TAK-779, which is specific for CCR5 and CCR2, aminooxypentane-RANTES, which blocks entry via CCR5 and CCR3, and AMD3100, which targets CXCR4. We found that for all the HIV-1 isolates and all but one of the HIV-2 isolates tested, the only relevant coreceptors were CCR5 and CXCR4. However, one HIV-2 isolate replicated in human PBMC even in the presence of TAK-779 and AMD3100, suggesting that it might use an undefined, alternative coreceptor that is expressed in the cells of some individuals. SIV(mac)239 and SIV(mac)251 (from macaques) were also able to use an alternative coreceptor to enter PBMC from some, but not all, human and macaque donors. The replication in human PBMC of SIV(rcm) (from a red-capped mangabey), a virus which uses CCR2 but not CCR5 for entry, was blocked by TAK-779, suggesting that CCR2 is indeed the paramount coreceptor for this virus in primary cells.
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PMID:Use of inhibitors to evaluate coreceptor usage by simian and simian/human immunodeficiency viruses and human immunodeficiency virus type 2 in primary cells. 1088 29

A monocyte-derived macrophage (MDM) culture assay was used to define the replication kinetics of HIV isolates. Ten-day-old MDMs were infected with HIV. Supernatants were collected and assayed for HIV p24 on days 3, 7, 10, and 14 post-infection (PI). In this assay, SF162 (macrophage tropic, NSI) produced increasing amounts of HIV p24 antigen with increasing time in culture. BRU (nonmacrophage tropic, SI) infection resulted in low levels of HIV p24 antigen with no increase in production during the culture period. A panel of 12 clinical isolates was evaluated. All isolates produced detectable levels of HIV p24 antigen in MDMs. However, the NSI viruses had significantly higher log10 HIV p24 antigen values at all times PI (P < 0.01). Co-receptor usage was determined for all 12 isolates (8 NSI and 4 SI). All SI isolates used CXCR4 for entry; two used CXCR4 only, one used CXCR4, CCR5, and CCR3, and one was a mixture of two isolates using CXCR4 and CCR5. None of the NSI viruses used CXCR4 for entry. All used CCR5 as their predominant co-receptor. Of the eight NSI isolates, three used CCR5 only, two used CCR5 and CCR2b, one used CCR5 and CCR3, and one used CCR5, CCR3, and CCR2b. Log10 HIV p24 antigen production on day 14 PI for viruses that used CCR5+CCR3 (3.79 + 1.40) was greater than for viruses that used CCR5+CCR2b (3.22 + 1.55) or CCR5 (3.32 + 1.49), and all were greater than those that used CXCR4 only (1.69 + 0.28), regardless of SI phenotype (P < 0.05). Thus, in these primary isolates, macrophage tropism and replication kinetics were closely linked to CCR5 utilization, whereas SI capacity was closely linked to CXCR4 utilization. Furthermore, viruses, which could use CCR5 and CCR3 for entry, had a replication advantage in macrophages, regardless of SI phenotype.
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PMID:Co-receptor usage was more predictive than NSI/SI phenotype for HIV replication in macrophages: is NSI/SI phenotyping sufficient? 1098 47

Eosinophils are granulocytic leukocytes that function in both protective and pathological immune responses. They can be infected by HIV-1, but characterization of the infection has been hindered by lack of a productive cell culture model. In the present study, the unique eosinophilic cell line AML14.3D10 was used as a model to test the hypothesis that HIV-1 productively infects eosinophilic cells in a strain-dependent fashion. The AML14.3D10 cell line was cultured with one T cell-tropic (T-tropic) strain and two macrophage-tropic (M-tropic) strains of HIV-1 (HTLV-IIIB, HIV-1AdaM, and HIV-1Ba-L strains, respectively). Cytopathic effects were evident in living cultures and in stained slide preparations of AML14.3D10 cells infected with the T-tropic strain of HIV-1. Culture supernatants from infected AML14.3D10 cells contained high levels of HIV-1 p24 protein that peaked at approximately 7-10 days postinfection. A line of AML14.3D10 cells chronically infected with HTLV-IIIB and continuously producing high levels of virus was established. In contrast to the T-tropic strain, the M-tropic strains of HIV-1 did not productively infect the eosinophilic cell line. Thus, the AML14.3D10 eosinophilic cell line was permissive for a T-tropic strain but not for M-tropic strains of HIV-1. Flow cytometry revealed that uninfected AML14.3D10 cells were positive for the HIV-1 receptor CD4 and coreceptors CXCR4 and CCR5; the cell line was negative for CCR3. The lack of productive infection by M-tropic strains despite CCR5 expression indicates that strain-dependent infection may not be determined at the coreceptor level in AML14.3D10 cells.
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PMID:Strain-dependent productive infection of a unique eosinophilic cell line by human immunodeficiency virus type 1. 1101 60

Microglia are the major target of HIV-1 infection in the brain. Microglial infection is CD4-dependent, but the role of chemokine receptors CCR5 and CCR3 and their natural ligands in modulating HIV-1 infection in microglia has been questioned. In primary human fetal microglial cultures, we demonstrate that HIV-1 infection of these cells is dependent on CCR5, since an antibody to CCR5 completely blocked productive infection. Anti-CCR3, in contrast, had a smaller inhibitory effect which was not statistically significant. The chemokine ligands for CCR5, RANTES and MIP-1beta, also potently inhibited HIV-1 infection in microglia, but the third ligand MIP-1alpha failed to show inhibition. Interestingly, when microglial cultures were treated with antibodies specific to each of these chemokines, HIV-1 infection was enhanced by anti-RANTES and anti-MIP-1beta, but not by anti-MIP-1alpha. These results demonstrate the presence of endogenous chemokines that act as endogenous inhibitors of HIV-1 infection in microglia. Additionally, IFNbeta, a known anti-viral cytokine, also provided potent inhibition of viral infection as well as induction of all three chemokines in microglia. These results suggest the possibility that type I interferon can down-modulate microglial HIV-1 infection in vivo by multiple mechanisms.
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PMID:Role of MIP-1beta and RANTES in HIV-1 infection of microglia: inhibition of infection and induction by IFNbeta. 1102 54

Multiple lines of evidence are presented characterizing the functional expression of chemokine receptors CXCR4, CCR1, CCR5, and CX3CR1 on astrocytes. Most of these receptors are expressed at low levels and may only be detectable on a subset of cells during disease or following cytokine induction. The expression of CXCR2, CCR2, CCR3, CCR10, CCR11, and several orphan receptors associated with HIV-1 infection has also been proposed. The appearance of several chemokine receptors implies a wider role for chemokines in the regulation of central nervous system functions. Available evidence indicates that selected chemokines induce further chemokine synthesis in astrocytes providing a mechanism to amplify inflammatory responses in the central nervous system.
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PMID:Astrocytes express functional chemokine receptors. 1106 28

Cells expressing the chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2) and the chemokine C receptor (CCR)4 were consistently detected in the circulation of healthy subjects, whereas numbers of cells expressing CCR3 were much lower. While all CCR4+ cells were T cells, a small proportion of CRTH2+, and about a half of the few CCR3+ cells were basophils. Only CRTH2+ T cells contained Th2 or Tc2 cells, but neither Th0 or Tc0, nor Th1 or Tc1 cells, although not all of them produced Th2-type cytokines. By contrast, CCR4+ T cells contained both Th2 or Tc2 and Th0 or Tc0 cells and even Th1 or Tc1 cells, whereas the few CCR3+ T cells were not clearly classifiable for their cytokine profile. CRTH2+ T lymphocytes were virtually devoid of chemokine CX receptor (CXCR)3+ and CCR5+ cells, but enriched in CCR3+ and CCR4+ cells. By contrast, CCR3+ or CCR4+ T cells did not show a similar clear-cut dichotomy in the expression of CCR5/CXCR3 or CCR3/ CCR4. Subjects with atopic dermatitis or HIV infection with low levels of circulating CD4+ T cells revealed a significant increase of CRTH2+ cells within both the CD4+ and the CD8+ T cell subset. These data support the concept that at present CRTH2 is the more reliable marker for detection of both human Th2 and Tc2 cells in health and disease.
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PMID:CRTH2 is the most reliable marker for the detection of circulating human type 2 Th and type 2 T cytotoxic cells in health and disease. 1106 80

Hemofiltrate CC chemokine (HCC)-1 is a recently described human chemokine that is constitutively expressed in numerous tissues and is present at high concentrations in normal plasma. Using a cell line expressing CC chemokine receptor (CCR)5 as a bioassay, we isolated from human hemofiltrate an HCC-1 variant lacking the first eight amino acids. HCC-1[9-74] was a potent agonist of CCR1, CCR3, and CCR5 and promoted calcium flux and chemotaxis of T lymphoblasts, monocytes, and eosinophils. It also blocked entry of HIV-1 strains using CCR5 as coreceptor. Limited tryptic digestion of HCC-1 generated the active variant. Conditioned media from several tumor cell lines activated HCC-1 with a high efficiency, and this activity could be inhibited by serine protease inhibitors. Our results indicate that HCC-1 represents a nonfunctional precursor that can be rapidly converted to the active chemokine by proteolytic processing. This process represents an additional mechanism by which tumor cells might generate chemoattractant molecules and recruit inflammatory cells. It might also affect HIV-1 replication in infected individuals and play an important role in AIDS pathogenesis.
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PMID:Natural proteolytic processing of hemofiltrate CC chemokine 1 generates a potent CC chemokine receptor (CCR)1 and CCR5 agonist with anti-HIV properties. 1108 51

CCR5 and CXC chemokine receptor 4 (CXCR4) are coreceptors for CD4 as defined by HIV-1 glycoprotein (gp) 120 binding. Pretreatment of T cells with gp120 results in modulation of both CCR5 and CXCR4 responsiveness, which is dependent upon p56(lck) enzymatic activity. The recent findings that pretreatment of T cells with a natural CD4 ligand, IL-16, could alter cellular responsiveness to macrophage-inflammatory protein-1ss (MIP-1ss) stimulation, prompted us to investigate whether IL-16 could also alter CXCR4 signaling. These studies demonstrate that IL-16/CD4 signaling in T lymphocytes also results in loss of stromal derived factor-1alpha (SDF-1alpha)/CXCR4-induced chemotaxis; however, unlike MIP-1ss/CCR5, the effects were not reciprocal. There was no effect on eotaxin/CCR3-induced chemotaxis. Desensitization of CXCR4 by IL-16 required at least 10-15 min pretreatment; no modulation of CXCR4 expression was observed, nor was SDF-1alpha binding altered. Using murine T cell hybridomas transfected to express native or mutated forms of CD4, it was determined that IL-16/CD4 induces a p56(lck)-dependent inhibitory signal for CXCR4, which is independent of its tyrosine catalytic activity. By contrast, IL-16/CD4 desensitization of MIP-1ss/CCR5 responses requires p56(lck) enzymatic activity. IL-16/CD4 inhibition of SDF-1alpha/CXCR4 signals requires the presence of the Src homology 3 domain of p56(lck) and most likely involves activation of phosphatidylinositol-3 kinase. These studies indicate the mechanism of CXCR4 receptor desensitization induced by a natural ligand for CD4, IL-16, is distinct from the inhibitory effects induced by either gp120 or IL-16 on CCR5.
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PMID:Desensitization of CXC chemokine receptor 4, mediated by IL-16/CD4, is independent of p56lck enzymatic activity. 1108 73

Although selected chemokines act as natural inhibitors of human immunodeficiency virus (HIV) infection, their inherent proinflammatory activity may limit a therapeutic use. To elucidate whether the antiviral and signaling functions of RANTES can be dissociated, several recombinant analogues mutated at the N terminus were generated and functionally compared with the wild-type (WT) molecule, as well as with three previously described mutants. Substitution of selected residues within the N-terminal region caused a marked loss of antiviral potency. By contrast, two unique analogues (C1.C5-RANTES and L-RANTES) exhibited an increased antiviral activity against different CXCR4-negative HIV-1 isolates grown in primary mononuclear cells or in macrophages. This enhanced HIV-blocking activity was associated with an increased binding affinity for CCR5. Both C1.C5-RANTES and L-RANTES showed a dramatically reduced ability to trigger intracellular calcium mobilization via CCR3 or CCR5, while potently antagonizing the action of the WT chemokine. By contrast, two previously described analogues (RANTES(3-68) and AOP-RANTES) maintained a WT ability to trigger CCR5-mediated signaling, while a third one (RANTES(9-68)) showed a dramatic loss of antiviral activity. These data demonstrate that the antiviral and signaling functions of RANTES can be uncoupled, opening new perspectives for the development of chemokine-based therapeutic approaches for HIV infection.
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PMID:Enhancement of the HIV-1 inhibitory activity of RANTES by modification of the N-terminal region: dissociation from CCR5 activation. 1109 34

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