UNIPROT:P10145 - FACTA Search

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Query: UNIPROT:P10145 (IL-8)
23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Duffy blood group antigen has been postulated to be a receptor on red blood cells (RBCs) for the malarial parasite Plasmodium vivax and a promiscuous receptor for the chemokine superfamily of inflammatory proteins. Recently, the Duffy antigen glycoprotein D cDNA has been cloned (Chaudhuri et al: Proc Natl Acad Sci USA 90:10793, 1993). We have analyzed the binding properties of the cloned Duffy antigen. Duffy-antigen cDNAs expressed in human embryonic kidney cells produced cell-surface proteins that reacted with two known anti-Duffy monoclonal antibodies. Direct ligand binding and displacement experiments using recombinant chemokine proteins also show that the cloned Duffy protein is the RBC chemokine receptor. Radiolabeled chemokines of both the C-C (RANTES and MCP-1) and C-X-C (IL-8 and MGSA/gro) subclasses bound reversibly to transfected cells with dissociation constants in the nanomolar range. Chemokines of either class displaced heterologous chemokines, indicating that they were competing for a single site on the transfected cells. Although the chemokines bound to the transfected cells with high affinity, there was no evidence for signal transduction, as measured by transient increases in intracellular calcium ion concentration, through the Duffy antigen/RBC chemokine receptor in transfected cells. Lastly, we have performed a computer analysis on the amino acid structure of the Duffy antigen/RBC chemokine receptor. Although the cloned Duffy antigen has been postulated to be a nine-transmembrane-spanning receptor, our analysis suggests that the molecule most likely belongs to the seven-transmembrane-spanning receptor superfamily and is therefore similar to other chemokine receptors previously identified.
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PMID:Functional and biochemical analysis of the cloned Duffy antigen: identity with the red blood cell chemokine receptor. 751 17

The Duffy antigen (DARC) is a promiscuous chemokine receptor that also binds Plasmodium vivax. DARC belongs to a family of heptahelical chemokine receptors that includes specific (IL-8RA) and shared (IL-8RB) IL-8 receptors. Ligand binding specificity of IL-8 receptors was localized to the amino-terminal extracellular (E1) domain. To determine the basis for promiscuous chemokine binding by DARC, a chimeric receptor composed of the E1 domain of DARC and hydrophobic helices and loops from IL-8RB (DARCe1/IL-8RB) was constructed. Scatchard analysis of stable transfectants demonstrated that the DARCe1/IL-8RB chimeric receptor bound IL-8 and melanoma growth stimulating activity (MGSA) with KD values almost identical to the native receptors. The hybrid receptor also bound RANTES, MCP-1, and MGSA-E6A (which binds DARC, but not IL-8RB), but not MIP-1 alpha, similarly to DARC. Ligand binding to DARC transfectants was unaltered by anti-Fy3, but inhibited by Fy6, which binds an epitope in the E1 domain. The epitope recognized by Fy3 was localized to the third extracellular loop by analysis of insect cells expressing chimeric receptors composed of complementary portions of DARC and IL-8RB. These findings implicate the E1 domain of DARC in multispecific chemokine binding.
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PMID:The promiscuous chemokine binding profile of the Duffy antigen/receptor for chemokines is primarily localized to sequences in the amino-terminal domain. 759 30

The human erythrocyte chemokine receptor has recently been shown to be identical to the Duffy blood group antigen and is expressed in multiple organs, including kidney. Here we have examined the molecular properties of the renal isoform. Immunoblot analysis of erythrocyte and kidney detergent lysates, with a monoclonal antibody (Fy6) to the Duffy antigen, revealed that the renal isoform had a molecular mass of 43-45 kD, which could be distinguished from that observed in erythroid cells (38-47 kD). Chemical cross-linking of kidney membranes to 125I-melanoma growth stimulatory activity (MGSA) indicated that the renal chemokine receptor had a molecular mass of 38-45 kD. Binding of 125I-labeled MGSA to kidney membranes was competitively inhibited by the addition of unlabeled MGSA, IL-8, regulated on activation, normal T expressed and secrted, and monocyte chemotactic protein-1. Scatchard analysis of MGSA binding showed that the chemokine receptor from renal tissues had a binding affinity of 3.5 nM similar to that observed for the erythroid isoform (5-10 nM). The primary structure of the renal chemokine receptor predicted from the nucleotide sequence of cDNA from renal tissues is identical to that reported for the erythroid isoform. Immunocytochemical staining of kidney with Fy6 localized expression to endothelial cells present in postcapillary venules. These studies implicate the Duffy antigen/chemokine receptor in the complex interactions between postcapillary endothelial cells and granulocytes, which are modulated by pro-inflammatory chemokines.
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PMID:Postcapillary venule endothelial cells in kidney express a multispecific chemokine receptor that is structurally and functionally identical to the erythroid isoform, which is the Duffy blood group antigen. 808 83

The Duffy antigen receptor for chemokines (DARC) is expressed in human erythrocytes and on endothelial cells lining postcapillary venules in kidney and spleen. DARC is a promiscuous chemokine receptor and a binding protein for the malarial parasite Plasmodium vivax. The expression of DARC by subsets of endothelial cells and neurons in discrete anatomic sites in the brain suggests that this enigmatic receptor may have multiple roles in normal and pathological physiology. Conservation of this promiscuous chemokine binding function is evident from the similarity in nucleotide sequence of DARC homologues from multiple species, as well as the high-affinity binding of human chemokines to murine and avian erythrocytes. Analysis of the functional domains of DARC using chimeric receptors and and monoclonal antibodies to multiple extracellular domains localized chemokine binding to structures in the amino terminal extracellular domain (E1). Scatchard analysis demonstrated that a chimeric DARC receptor, composed of the E1 domain of DARC and the predicted hydrophobic helices and loops of interleukin-8RB (IL-8RB), bound IL-8, and MGSA with KD values almost identical to the wild type receptors and bound a repertoire of C-X-C and C-C chemokines characteristic of DARC. Although numerous reports have demonstrated that chemokines such as IL-8 are expressed in the brain, presumably by glial cells, little insight into the nature of their role in normal or pathological physiology in the nervous system has developed because the target cells that express the corresponding receptors have not yet been identified. Northern blotting experiments suggest that mRNA encoding DARC are expressed in the central nervous system, however, interpretation of this is unclear because of the ubiquitous expression of DARC lining postcapillary venules. This study provides direct evidence to localize expression of DARC in the central nervous system. Immunohistochemical examination of human archival sections of the brain with monoclonal antibodies specific for DARC localize expression of DARC to cell bodies and processes of Purkinjie cells in the cerebellum. The immunohistochemical findings were supported by analysis of chemokine binding and radioligand crosslinking with membranes made from various brain fractions. The hierarchical expression of DARC in neurons in the cerebellum suggest that chemokines may play an important role in the modulation of neuronal activity by glial cells.
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PMID:The Duffy antigen receptor for chemokines: structural analysis and expression in the brain. 855 64

It has been demonstrated that the promiscuous chemokine binding profile of the Duffy antigen/receptor for chemokines (DARC) is given by its extracellular NH2-terminal region. However, the relationship among the Fy6, Fya/b, and Fy3 epitopes, localized in the first and fourth extracellular domains of DARC, respectively, and the chemokine binding sites remained a matter of controversy. Here, we performed cross-displacement and cross-inhibition experiments indicating that all anti-Fy6, anti-Fya, and anti-Fy3 monoclonal antibodies and interleukin 8 are antagonists for binding to red cells. Biopanning of phage peptide libraries with an anti-Fy6 monoclonal antibody led to the identification of the motif Phe22-Glu23, the mutation of which altered the binding of both anti-Fy6 and chemokines (interleukin 8, MGSA, RANTES (regulated on activation normal T cell expressed)) to DARC transfectants. These results characterized the core of the Fy6 epitope and provided definitive proof of the tight relationship between Fy6 and the chemokine receptor site. Analysis of red cells treated by sulfhydryl group-modifying reagents suggested that the chemokine receptor function of DARC required the integrity of disulfide bond(s) but not that of free sulfhydryl group(s). Accordingly, mutation of cysteines 51 and 276 abolished chemokine binding to DARC transfectants. Altogether, our results suggested that the chemokine binding pocket of DARC included sequences located in the first and fourth extracellular domains which are brought into close vicinity by a disulfide bridge.
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PMID:Close association of the first and fourth extracellular domains of the Duffy antigen/receptor for chemokines by a disulfide bond is required for ligand binding. 919 30

Leukocyte infiltration and necrosis are two biological phenomena associated with the development of neovascularization during the malignant progression of human astrocytoma. Here, we demonstrate expression of interleukin (IL)-8, a cytokine with chemotactic and angiogenic properties, and of IL-8-binding receptors in astrocytoma. IL-8 expression is first observed in low grade astrocytoma in perivascular tumor areas expressing inflammatory cytokines. In glioblastoma, it further localizes to oxygen-deprived cells surrounding necrosis. Hypoxic/anoxic insults on glioblastoma cells in vitro using anaerobic chamber systems or within spheroids developing central necrosis induced an increase in IL-8 messenger RNA (mRNA) and protein expression. mRNA for IL-8-binding chemokine receptors CXCR1, CXCR2, and the Duffy antigen receptor for chemokines (DARC) were found in all astrocytoma grades by reverse transcription/PCR analysis. In situ hybridization and immunohistochemistry localized DARC expression on normal brain and tumor microvascular cells and CXCR1 and CXCR2 expression to infiltrating leukocytes. These results support a model where IL-8 expression is initiated early in astrocytoma development through induction by inflammatory stimuli and later in tumor progression increases due to reduced microenvironmental oxygen pressure. Augmented IL-8 would directly and/or indirectly promote angiogenesis by binding to DARC and by inducing leukocyte infiltration and activation by binding to CXCR1 and CXCR2.
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PMID:Upregulation of interleukin 8 by oxygen-deprived cells in glioblastoma suggests a role in leukocyte activation, chemotaxis, and angiogenesis. 933 59

Alzheimer's disease (AD) is the most common cause of dementia in the elderly, and the fourth leading cause of death in the United States. Its pathological changes include amyloid beta deposits, neurofibrillary tangles and a variety of 'inflammatory' phenomenon such as activation of microglia and astrocytes. The pathological significance of inflammatory responses elicited by resident central nervous system (CNS) cells has drawn considerable attention in recent years. Chemokines belongs to a rapidly expanding family of cytokines, the primary function of which is control of the correct positioning of cells in tissues and recruitment of leukocytes to the site of inflammation. Study of this very important class of inflammatory cytokines may greatly help our understanding of inflammation in the progress of AD, as well as other neurodegenerative diseases. So far, immunoreactivity for a number of chemokines (including IL-8, IP-10, MIP-1beta, MIPalpha and MCP-1) and chemokine receptors (including CXCR2, CXCR3, CXCR4, CCR3, CCR5 and Duffy antigen) have been demonstrated in resident cells of the CNS, and upregulation of some of the chemokines and receptors are found associated with AD pathological changes. In this review, we summarize findings regarding the expression of chemokines and their receptors by CNS cells under physiological and pathological conditions. Although little is known about the potential pathophysiological roles of chemokines in CNS, we have put forward hypotheses on how chemokines may be involved in AD.
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PMID:Chemokines/chemokine receptors in the central nervous system and Alzheimer's disease. 1019 Jun 88

The blood group Duffy antigen of human erythrocytes, which exists in two allelic forms, Fy(a) and Fy(b), is a promiscuous chemokine receptor. In this report we describe the expression and purification of a chimeric protein composed of the amino-terminal extracellular domain of the Duffy antigen (aa 3-60), C-terminal intracellular fragment of glycophorin A (GPA, aa 104-131), and the hexahistydyl tag. We obtained two forms of the recombinant protein containing the Fy(a) or Fy(b) epitope, denoted Fy(a)/GPA and Fy(b)/GPA, respectively. These constructs were expressed in Escherichia coli as periplasmic proteins and were purified by affinity chromatography on the Ni-NTA-agarose. Both proteins bound the monoclonal antibodies recognizing the common Fy6 epitope of the Duffy antigen and an epitope of the C-terminal fragment of GPA, and only the Fy(a)/GPA bound anti-Fy(a) antibody. However, binding of IL-8 to the recombinant proteins was not detected, which indicated that an N-terminal domain of the Duffy antigen is not sufficient for an effective chemokine binding. The lack of the chemokine binding was not likely to be due to the lack of glycosylation of the Fy/GPA, since IL-8 was effectively bound to de-N-glycosylated erythrocytes.
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PMID:Expression and binding properties of a soluble chimeric protein containing the N-terminal domain of the Duffy antigen. 1087 68

The accumulation of cytokines in stored red blood cell concentrates (RCCs) has been implicated as a potential cause of transfusion reactions associated with the use of such products. At present, it is unclear whether there is any link between residual leukocyte and/or platelet content with cytokine levels in various RCCs. In this study, we have therefore assessed cytokine levels of leukocyte (e.g., IL8) and platelet (e.g., RANTES, TGF-beta1) origin in supernatants of RCCs prepared by the plasma reduced method or by depletion of the buffy coat. We have also assessed whether the Duffy antigen receptor (DARC, a promiscuous receptor for some chemokines) has any role in the diminution of cytokine levels in stored blood components by comparing cytokine levels in stored plasma reduced RCCs derived from both DARC +ve and DARC -ve individuals. In addition, comparison of filtered and non-filtered products of the same origin has also been conducted. Results showed that supernatants from DARC -ve concentrates contained higher levels of IL-8 up to days 14/15 of storage compared with DARC +ve RCCs. However, at later time points, similar levels of IL-8 were observed in RCCs regardless of their Duffy receptor status. For TGF-beta1 and RANTES, no significant difference in the levels of these cytokines was detected between DARC +ve and DARC -ve concentrates. Removal of leukocytes and platelets by conventional leukocyte filtration significantly reduced the accumulation of cytokines. Buffy coat reduced RCCs contained minimal amounts of IL-8 and TGF-beta1 but no RANTES. We conclude therefore, that the levels of cytokines in the supernatants of RCCs stored at 4 degrees C are related mainly to their leucocyte and platelet content.
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PMID:Cytokine accumulation in stored red cell concentrates: effect of buffy-coat removal and leucoreduction. 1092 48

The expression of chemokine binding sites on the endothelial cells of venules in inflamed synovia was examined and whether the Duffy antigen/receptor for chemokines (DARC) was involved. In situ binding assays were performed to determine the expression of chemokine binding sites from rheumatoid (n = 10) and non-rheumatoid (n = 10) synovia. The expression of DARC protein and mRNA was examined by immunohistochemistry and northern blotting. The involvement of DARC in chemokine binding was studied by incubating sections with blocking antibodies to DARC (Fy3 and 6), to find out if these reduced 125I-IL-8 binding. Binding of radiolabelled chemokines IL-8, RANTES, MCP-1, but not MIP-1alpha, was found on venular endothelial cells in inflamed synovia from both rheumatoid and non-rheumatoid patients. Excess homologous unlabelled chemokine displaced binding and excess unlabelled RANTES could displace radiolabelled IL-8 binding. DARC protein expression was demonstrated on venular endothelial cells in all samples and DARC mRNA could be detected in extracts from synovia. There was downregulation of DARC protein and mRNA in rheumatoid samples. Binding of IL-8 to both rheumatoid and non-rheumatoid synovia was significantly reduced in the presence of anti-DARC Fy3 and Fy6 monoclonal antibodies. These findings show the expression of a multispecific chemokine binding site on the inflamed synovial endothelium, with evidence for involvement of DARC. This suggests a potential role for DARC in the inflammatory processes involved in synovitis.
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PMID:Expression of the duffy antigen/receptor for chemokines (DARC) by the inflamed synovial endothelium. 1208 Nov 95

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