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)

CCR5 is a G protein-coupled receptor for RANTES, MIP-1alpha, MIP-1beta, and MCP-2 that functions as the front line coreceptor for human immunodeficiency virus type 1 infection. To elucidate the mechanism for CCR5 activation, this coreceptor was expressed in yeast coupled to the pheromone response pathway and a constitutively active mutant (CAM) was derived by random mutagenesis. Conversion of Thr-82 in the highly conserved TXP motif in transmembrane helix 2 to Pro, His, Tyr, Arg, or Lys conferred autonomous signaling activity in yeast and mammalian cells. This substitution also imparted constitutive signaling to CCR2 in yeast and mammalian cells, but not CCR1, CCR3, CCR4, CXCR2, or CXCR4. The CCR5-CAM, but not the CCR2-CAM had a reduction in ligand binding affinity. Whereas the amplitude of calcium mobilization induced by RANTES stimulation was lower in the CCR5-CAM than the wild-type (WT) receptor, MCP-1 induced a higher signal in the CCR2-CAM than in CCR2-WT. The chemotactic response of CCR5-CAM(T82P) to RANTES was similar to that of CCR5-WT, but CCR5-CAM(T82K) was dramatically decreased. The chemotactic response of CCR2-WT and CCR2-CAM(T94K) were similar. These findings extend insight into the role of the TXP motif in the mechanism for CCR5 signaling. CCR2, the receptor most closely genetically related to CCR5, shared a similar signaling mechanism, but other receptors containing the TXP motif did not. The expression of CCR5 and CCR2 in yeast and the availability of variants with autonomous signaling represent critical tools for characterizing receptor antagonists and developing approaches to block their role in human diseases.
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PMID:Constitutive activation of CCR5 and CCR2 induced by conformational changes in the conserved TXP motif in transmembrane helix 2. 1283 56

CXCR4 is a G protein-coupled receptor (GPCR) that has multiple critical functions in normal and pathologic physiology that include regulation of the metastatic behavior of mammary carcinoma, and utilization as a coreceptor for infection by T-tropic strains of human immunodeficiency virus-1. Molecular dynamic simulations of the rhodopsin-based homology model of CXCR4 were performed in a solvated lipid bilayer to reproduce the microenvironment of this integral membrane protein. The amino acids in CXCR4 necessary for interaction with an inverse agonist, T140, and a weak partial agonist, AMD3100, identified by alanine scanning mutants, were spatially consistent when computationally docked. Whereas T140 binds residues in extracellular domains and regions of the hydrophobic core proximal to the cell surface, amino acids in the central hydrophobic core are critical to binding of AMD3100. The physical localization of T140 binding to CXCR4 by biochemical analyses corroborated the molecular and computational approaches. The structural basis for the interaction of T140 and AMD3100 with CXCR4 confirms that the mechanisms used by these agents are different. This complementary utilization of molecular, physical, and computation analysis provides a powerful approach to elucidate GPCR conformation.
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PMID:Lipid bilayer simulations of CXCR4 with inverse agonists and weak partial agonists. 1295 14

The lysophospholipid (LPL) growth factors sphingosine 1-phosphate (S1P) and lysophosphatidic acid (LPA) are generated by macrophages, dendritic cells, mast cells, and platelets, which leads to lymph and plasma concentrations of 0.1-1 microM. Distinctive profiles of G protein-coupled receptors (GPCRs) for S1P and LPA are expressed by each type of immune cell and are regulated by cellular activation. At 1-100 nM, S1P signals T cells through their principal S1P(1) GPCRs with consequent protection from apoptosis, enhancement of chemotaxis, and facilitation of optimal regulatory activity of CD4(+)25(+) T cells. At 0.3-3 microM, S1P inhibits T cell chemotaxis and to a lesser extent other functions. These S1P-S1P(1) GPCR signals suppress homing of blood and spleen T cells to secondary lymphoid tissues. S1P(1) GPCR antagonists evoke lymphopenia by permitting blood T cells to enter lymph nodes and blocking S1P(1) GPCR-dependent T cell efflux from lymph nodes. Inversely, there is a decrease in lymphoid tissue traffic of T cells in transgenic mice, which overexpress lymphocyte S1P(1) GPCRs. The immunotherapeutic activity of S1P(1) GPCR antagonists, which limits T cell access to organ grafts and autoimmune antigens, does not reduce other functional capabilities of T cells. LPLs and their GPCRs thus constitute an immunoregulatory system of sufficient prominence for pharmacological targeting in transplantation, autoimmunity, and immunodeficiency.
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PMID:Sphingosine 1-phosphate and its type 1 G protein-coupled receptor: trophic support and functional regulation of T lymphocytes. 1498 46

The lysophospholipid growth factors sphingosine 1-phosphate (S1P) and lysophosphatidic acid (LPA) are generated by many cells involved in immunity, including macrophages, dendritic cells, mast cells, and platelets, with resultant lymph and plasma concentrations of 0.1-1 microM. All immune cells express distinctive profiles of G protein-coupled receptors (GPCRs) for S1P and LPA, which are regulated developmentally and by cellular activation. For T-cells, constitutive S1P signaling through their principal S1P(1) GPCR inhibits chemotactic responses to chemokines, with lesser suppression of proliferation and cytokine production. These S1P-S1P(1) GPCR signals tonically reduce T-cell chemotactic sensitivity to chemokines and thereby limit homing of blood and spleen T-cells to secondary lymphoid tissues. S1P(1) GPCR antagonists evoke lymphopenia by permitting blood T-cells to enter lymph nodes and blocking S1P(1) GPCR-dependent T-cell efflux from lymph nodes. Inversely, there is a longer than normal persistance in blood and a decrease in lymphoid transit time for T-cells overexpressing transgenic S1P(1) GPCRs. The immunotherapeutic potential of S1P(1) GPCR antagonists derives from their capacity to limit T-cell access to organ grafts and autoimmune antigens without reducing their other intrinsic functional capabilities. Lysophospholipids and their GPCRs thus constitute an immunoregulatory system of sufficient prominence for pharmacological targeting in transplantation, autoimmunity and immunodeficiency.
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PMID:Sphingosine 1-phosphate and its G protein-coupled receptors constitute a multifunctional immunoregulatory system. 1525 96

CC chemokine receptor 5 (CCR5) is a seven-transmembrane, G protein-coupled receptor (GPCR) which regulates trafficking and effector functions of memory/effector T-lymphocytes, macrophages, and immature dendritic cells. It also serves as the main coreceptor for the entry of R5 strains of human immunodeficiency virus (HIV-1, HIV-2). Chemokine binding to CCR5 leads to cellular activation through pertussis toxin-sensitive heterotrimeric G proteins as well as G protein-independent signalling pathways. Like many other GPCR, CCR5 is regulated by agonist-dependent processes which involve G protein coupled receptor kinase (GRK)-dependent phosphorylation, beta-arrestin-mediated desensitization and internalization. This review discusses recent advances in the elucidation of the structure and function of CCR5, as well as the complex mechanisms that regulate CCR5 signalling and cell surface expression.
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PMID:Chemokine receptor CCR5: insights into structure, function, and regulation. 1533 20

CC chemokine receptor 5 (CCR5) is a G protein-coupled receptor that governs migration of leukocytes and serves as a coreceptor for the R5 tropic strains of human immunodeficiency virus (HIV). CCR5-mediated signaling in response to CC chemokines relies on G protein activation. Desensitization, which rapidly turns off G protein-dependent signaling, involves phosphorylation of CCR5 that promotes interaction of the receptor with beta-arrestins for endocytosis. Whether coupling to G proteins, desensitization, and endocytosis of CCR5 require the same structural determinants remains a matter of investigation. Here, we show that CCR5 displayed agonist-independent coupling to G proteins. This constitutive activity of the receptor was abrogated by TAK779 (N,N-dimethyl-N-[4-[[[2-(4-methylphenyl)-6,7-dihydro-5H-benzocyclohepten-8-yl]carbonyl]amino]benzyl]tetrahydro-2H-pyran-4-aminium chloride), a nonpeptidic CCR5 ligand that inhibits HIV infection and was found to depend on the integrity of the Asp-Arg-Tyr (DRY) motif. Changing Arg-126 by the neutral residue Asn (R126N-CCR5 mutant) abolished CCR5-mediated activation of G proteins, either constitutively or in response to agonists. In contrast, R126N-CCR5 not only retained agonist-promoted phosphorylation and beta-arrestin-dependent endocytosis but also displayed a higher basal phosphorylation than wild-type CCR5. Expression of beta-arrestin in R126N-CCR5-expressing cells resulted in receptor down-regulation, thereby suggesting that R126N-CCR5 spontaneously interacts with beta-arrestins. However, although expression of beta-arrestin favored wild-type CCR5-mediated chemotaxis, it failed to promote migration of cells expressing R126N-CCR5. Overall, these data indicate that structural requirements for CCR5-mediated activation of G proteins, albeit not involved in receptor desensitization and internalization, are needed for beta-arrestin-mediated chemotaxis. These results have implications for how distinct biological responses of CCR5 might rely on a different set of receptor conformations.
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PMID:Mutation of the DRY motif reveals different structural requirements for the CC chemokine receptor 5-mediated signaling and receptor endocytosis. 1576 Nov 17

Several G protein-coupled receptors (GPCRs) serve as co-receptors for entry of human immunodeficiency virus type 1 (HIV-1) into target cells. Here we report that a synthetic peptide derived from the NH2-terminal extracellular region of an orphan GPCR, GPR1 (GPR1ntP-(1-27); MEDLEETLFEEFENYSYDLDYYSLESC), inhibited infection of not only an HIV-1 variant that uses GPR1 as a co-receptor, but also X4, R5, and R5X4 viruses. Among these HIV-1 strains tested, viruses that can utilize CXCR4 as their co-receptors were preferentially inhibited. Inhibition of early steps in X4 virus replication was also detected in the primary human peripheral blood lymphocytes. GPR1ntP-(1-27) directly interacted with recombinant X4 envelope glycoprotein (rgp120). This interaction was neither inhibited nor enhanced by the soluble CD4 (sCD4) but inhibited by the anti-third variable (V3) loop-specific monoclonal antibody and heparin known to bind to the V3 loop. Although the conformational changes in gp120, including the V3 loop, have been reported to be required for its interaction with a co-receptor after binding of gp120 to CD4, it has also been reported that the V3 loop is already exposed on the surface of virions before interaction with CD4. We found that GPR1ntP-(1-27) blocked binding of virus to the cells, and this peptide equally bound to rgp120 in the presence or absence of sCD4. Because we detected the binding of GPR1ntP-(1-27) to the highly purified virions even in the absence of sCD4, GPR1ntP-(1-27) probably recognized the V3 loop exposed on the virions, and this interaction was responsible for the anti-HIV-1 activity of GPR1ntP-(1-27).
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PMID:The synthetic peptide derived from the NH2-terminal extracellular region of an orphan G protein-coupled receptor, GPR1, preferentially inhibits infection of X4 HIV-1. 1591 64

G protein-coupled receptor CCR5 is the main coreceptor for macrophage-tropic human immunodeficiency virus type 1 (HIV-1), and various small-molecule CCR5 antagonists are being developed to treat HIV-1 infection. It has been reported that such CCR5 antagonists, including TAK-779, bind to a putative binding pocket formed by transmembrane domains (TMs) 1, 2, 3 and 7 of CCR5, indicating the importance of the conformational changes of the TMs during virus entry. In this report, using a single-round infection assay with human CCR5 and its substitution mutants, we demonstrated that a new CCR5 antagonist, TAK-220, shares the putative interacting amino acid residues Asn252 and Leu255 in TM6 with TAK-779 but also requires the distinct residues Gly163 and Ile198 in TMs 4 and 5, respectively, for its inhibitory effect. We suggested that, together with molecular models of the interactions between the drugs and CCR5, the inhibitory activity of TAK-220 could involve direct interactions with amino acid residues in TMs 4, 5, and 6 in addition to those in the previously postulated binding pocket. The possible interaction of drugs with additional regions of the CCR5 molecule would help to develop a new small-molecule CCR5 antagonist.
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PMID:Analysis of binding sites for the new small-molecule CCR5 antagonist TAK-220 on human CCR5. 1625 15

Apelin is a recently discovered vasoactive peptide that has been demonstrated to be the endogenous ligand of the APJ receptor. It was named 'apelin' after APJ endogenous ligand. This G protein-coupled receptor (GPCR), originally identified by O'Dowd et al. in 1993, has a close identity with the angiotensin II type 1 (AT1) receptor, but does not bind angiotensin-II. Although apelin and APJ have been found to be ubiquitously expressed in peripheral tissues, particularly the heart and lungs, as well as various regions of the central nervous system, the physiologic actions of apelin remain largely unknown. Nevertheless, some cardiovascular functions of the apelin/APJ system have been described, such as endothelium-dependent vasodilatation, vasoconstriction by direct action on the smooth muscle and positive inotropism. Other reported physiologic actions of apelin include: (1) its role as endocrine adipokine; (2) contribution to fluid homeostasis and thirst regulation; (3) participation as coreceptor in the process of human immunodeficiency virus type 1 infection; and (4) regulation of immune response. The involvement of apelin/APJ in the pathophysiology of heart failure (HF) and its potential as a therapeutic target in this syndrome have also been proposed. In the course of HF progression, plasma levels of apelin are significantly increased in the early stages, decreasing progressively towards normal in the advanced stages of the disease. Given the increasing number of studies focusing on the apelin/APJ system, the goal of this paper was to make an up-to-date review of existing information on apelin and APJ, with particular focus on their cardiovascular actions and potential use as a therapeutic target in HF.
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PMID:Apelin: a novel neurohumoral modulator of the cardiovascular system. Pathophysiologic importance and potential use as a therapeutic target. 1639 42

Chemokine receptors have been implicated in several disease processes such as acute and chronic inflammation, cancer, and allograft rejection and are therefore targets for drug development. The chemokine receptors CCR5 and CXCR4 are of particular interest as they serve as entry cofactors for human immunodeficiency virus. These receptors are members of the G protein-coupled receptor (GPCR) family. In this respect, assessing GPCR activation by GTP binding is an important tool to study the early stage of signal transduction. The assay normally utilizes the non-hydrolysable GTP analogue guanosine 5'-gamma-[35S]thiotriphosphate. In order to avoid the problems involved in working with radioactivity, a new non-radioactive version of the assay was developed using a europium-labeled GTP analogue in which europium-GTP binding can be assayed using time-resolved fluorescence. The assay was optimized for CXCR4 and CCR5 and validated for screening of chemokine antagonists using the small molecule CXCR4 antagonist AMD3100 and CCR5 antagonists.
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PMID:The development of an europium-GTP assay to quantitate chemokine antagonist interactions for CXCR4 and CCR5. 1643 59

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