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)

We have previously reported that cytokines such as IL-9, IL-4, and IL-6 protect murine thymic lymphoma cell lines against dexamethasone-induced apoptosis. A similar activity, which could not be ascribed to any of these factors, was found in a number of human T cell supernatants that enabled mouse BW5147 thymic lymphoma not only to escape apoptosis but also to maintain proliferation. The protein responsible for this activity was purified to homogeneity from the culture medium of activated leukemic T cells and was found to be identical with the I-309 chemokine. Half-maximal anti-apoptotic activity was obtained with approximately 1 ng/ml, a concentration considerably lower than that required for the monocyte chemotactic activity of this molecule, as measured on THP-1 cells. The purified I-309 also improved the survival of two other mouse thymic lymphoma cell lines. This activity was as potent as that of IL-9, which was the strongest anti-apoptotic factor found to date for these cells. Similar results were obtained for BW5147 cells with recombinant I-309 and with T cell activation gene-3, the murine homologue of I-309, but not with other members of the chemokine family, including IL-8, neutrophil-activating peptide-2, granulocyte chemotactic protein-2, macrophage inflammatory protein-1a, RANTES (regulated upon activation, normal T cell expressed and secreted), monocyte chemotactic protein-1 (MCP-1), and MCP-2. MCP-3, however, showed a minor, but significant effect in this model. Unlike that of IL-9, the activity of I-309 was completely inhibited in the presence of pertussis toxin, indicating the involvement of a G protein in this process.
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PMID:I-309/T cell activation gene-3 chemokine protects murine T cell lymphomas against dexamethasone-induced apoptosis. 880 59

A novel family of chemotactic cytokines or chemokines, essential for the directed migration of leukocytes to sites of inflammation, has been identified during the past decade. To obtain microgram amounts of natural chemokines, normal (e.g., freshly isolated leukocytes, connective tissue cell cultures) or malignant cell lines have to be selectively induced with endogenous (cytokines) or exogenous (bacterial, viral, or plant) products. We have developed a four-step procedure that allows for the complete purification of active C-C (MCP-1, MCP-2, MCP-3, RANTES, MIP-1alpha and MIP-1beta) and C-X-C (IL-8, GRO-alpha, GRO-beta, GRO-gamma, GCP-2, ENA-78, IP-10, PF-4, and CTAPIII/betaTG/NAP-2) chemokines from bulk volumes of culture supernatant. This method is applicable for the isolation of recombinant chemokines. Conditioned medium was first concentrated and partially purified on silicic acid or controlled pore glass beads. Further purification to homogeneity was achieved using heparin-Sepharose or antibody affinity chromatography, cation exchange FPLC, and reverse-phase HPLC. Purification of chemokines was monitored by testing column fractions for biological (chemotaxis) or immuno (RIA, ELISA) activity and protein content (SDS-PAGE). Homogeneous proteins were identified by amino-terminal or internal protein sequence analysis.
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PMID:Purification and Identification of Natural Chemokines 881 48

Because dendritic cells (DC) are the most potent antigen-presenting cells involved in many pathophysiological responses, we investigated the effect of chemokines on the migration of these cells in an effort to determine whether chemokines may contribute to the initiation of immune responses. CD34+ progenitor cells isolated from umbilical cord blood were grown in suspension cultures with cytokines and expanded 50- to 100-fold. A variable proportion of the cells expressed markers consistent with DC. The proportion of CD1a+ DC was increased when the cells were cultured with interleukin-4 (IL-4). These cells expressed specific binding sites for C-C and C-X-C chemokines. Cells cultured with or without IL-4 had similar binding profiles. All C-C chemokines tested, including monocyte chemotactic protein (MCP)-1, MCP-2, MCP-3, macrophage inflammatory protein-1 alpha (MIP1 alpha), MIP-1 beta, and RANTES, induced migration of DC-enriched cells cultured with or without IL-4 with MCP-3 being the most potent chemoattractant. Phenotypic analysis of cell migrating in response to C-C chemokines showed that CD1a+ cells were indeed attracted across the polycarbonate filters, and there was no preferential attraction of contaminating CD14+ monocytes by C-C chemokines. DC-enriched cells also expressed specific binding sites for IL-8 and NAP2, which failed to induce cell migration. Our results suggest that C-C chemokines may participate in the recruitment of DC to amplify host defense.
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PMID:Human recombinant monocyte chemotactic protein and other C-C chemokines bind and induce directional migration of dendritic cells in vitro. 883 Jul 93

Chemokines bind and signal through G-protein coupled seven transmembrane receptors. Various chemokine receptors are expressed on leukocytes, and these may impart selective homing of leukocyte subsets to sites of inflammation. Human eosinophils express the eotaxin receptor, CCR3, but respond to a variety of CC chemokines apart from eotaxin, including RANTES, monocyte chemotactic protein (MCP)-2, MCP-3, and MCP-4. Here we describe a mAb, 7B11, that is selective for CCR3 and has the properties of a true receptor antagonist. 7B11 blocked binding of various radiolabeled chemokines to either CCR3 transfectants, or eosinophils. Pretreatment of eosinophils with this mAb blocked chemotaxis and calcium flux induced by all CCR3 ligands. In all individuals examined, including allergic and eosinophilic donors, > 95% of the response of eosinophils to eotaxin, RANTES, MCP-2, MCP-3, and MCP-4 was shown to be mediated through CCR3. The IL-8 receptors, particularly CXCR2, were induced on IL-5 primed eosinophils, however these eosinophils responded to CC chemokines in the same manner as unprimed eosinophils. These results demonstrate the importance of CCR3 for eosinophil responses, and the feasibility of completely antagonizing this receptor.
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PMID:Chemokine receptor usage by human eosinophils. The importance of CCR3 demonstrated using an antagonistic monoclonal antibody. 900 85

A human receptor that is selective for the CXC chemokines IP10 and Mig was cloned and characterized. The receptor cDNA has an open reading frame of 1104-bp encoding a protein of 368 amino acids with a molecular mass of 40,659 dalton. The sequence includes seven putative transmembrane segments characteristic of G-protein coupled receptors. It shares 40.9 and 40.3% identical amino acids with the two IL-8 receptors, and 34.2-36.9% identity with the five known CC chemokine receptors. The IP10/Mig receptor is highly expressed in IL-2-activated T lymphocytes, but is not detectable in resting T lymphocytes. B lymphocytes, monocytes and granulocytes. It mediates Ca2+ mobilization and chemotaxis in response to IP10 and Mig, but does not recognize the CXC-chemokines IL-8, GRO alpha, NAP-2, GCP-2. ENA78, PF4, the CC-chemokines MCP-1, MCP-2, MCP-3, MCP-4, MIP-1 alpha, MIP-1 beta. RANTES, 1309, eotaxin, nor lymphotactin. The exclusive expression in activated T-lymphocytes is of high interest since the receptors for chemokines which have been shown so far to attract lymphocytes, e.g., MCP-1, MCP-2, MCP-3, MIP-1 alpha, MIP-1 beta, and RANTES, are also found in monocytes and granulocytes. The present observations suggest that the IP10/Mig receptor is involved in the selective recruitment of effector T cells.
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PMID:Chemokine receptor specific for IP10 and mig: structure, function, and expression in activated T-lymphocytes. 906 39

Five chemokine genes, transforming growth factors alpha, beta 2 and 3 (TGFBA, TGFB-2, and TGFB-3), interleukin 8 (IL-8), and monocyte chemoattractant protein 2 (MCP-2), were mapped to porcine linkage groups on Chromosomes 3q, 10p, 7q, 8, and 12q, respectively. Restriction fragment length polymorphisms (RFLPs) for these genes were developed by Southern blot hybridization after digestion of porcine genomic DNA with BamHI and MspI (TGFBA), BamHI and PvuII (TGFB-2), HindIII (TGFB-3), BglII (IL-8), and PstI (MCP-2) and used to genotype the USDA-MARC Swine Reference Population pigs. Sufficient informative meioses, 61 (TGFBA), 58 (TGFB-2), 28 (TGFB-3), 38 (IL-8), and 156 (MCP-2), were available to pursue two-point pairwise linkage analysis with over 1,000 existing loci in the USDA-MARC genome database to establish initial linkage (LOD > 3). Multi-point analysis with CRIMAP determined the most likely order for each new marker. The assignment of the five chemokine genes in swine concurs with previous porcine/human chromosomal homologies based on results from ZOO-FISH and chromosomal painting experiments. These findings add five new informative Type I markers within a single gene family to the swine genome and may help us understand the genetic basis for disease resistance in livestock.
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PMID:Genomic mapping of chemokine and transforming growth factor genes in swine. 909 3

A growing family of proteins, known as the chemokines, play an important role in the recruitment and activation of inflammatory cells. The purpose of these studies was to characterize the chemokine receptors present on human sodium butyrate differentiated EoL-3 cells (dEoL-3 cells). Using a combination of 3' rapid amplification of cDNA ends and nested polymerase chain reaction, we detected mRNA for CC chemokine receptor (CCR)1, CCR2, CCR3 and low level of CCR5. Radioligand binding studies demonstrated high-affinity saturable binding for both 125I-macrophage inflammatory protein (MIP)-1alpha and 125I-regulated upon activation normal T cell expressed and secreted (RANTES) with Kd values of 1.4 and 7 nM, respectively. Competition binding with chemokines demonstrated exactly the same rank order of potency for displacement of both ligands: MIP-1alpha approximately monocyte chemoattractant protein (MCP)-3 approximately RANTES > MIP-1beta >> MCP-1 >>> IL-8. RANTES, MCP-3 and MIP-1alpha all produced concentration-dependent transient increases in intracellular calcium concentrations in dEoL-3 cells. Desensitization studies indicated that RANTES, MIP-1alpha and MCP-3 interacted at the same receptor, which is identical in characterization to the cloned CCR1. 125I-MCP-1 also demonstrated high-affinity satuable binding to dEoL-3 cells with a Kd value of 0.4 nM. Competition studies showed that MCP-3 was slightly more potent than MCP-1 and MCP-2. MIP-1alpha, MIP-1beta and RANTES were unable to displace 125I-MCP-1. Addition of either MCP-1 or MCP-3 produced a concentration-dependent elevation of intracellular calcium with a maximun response 2-fold higher than that seen with RANTES or MIP-1alpha. Desensitization studies indicated that MCP-1 and MCP-3 function through CCR2 on these cells. Thus binding and functional studies indicate that dEoL-3 cells express functional CCR1 and CCR2 and that these cells may serve as an important system with which to study the regulation and role of these receptors.
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PMID:Characterization of functional chemokine receptors (CCR1 and CCR2) on EoL-3 cells: a model system to examine the role of chemokines in cell function. 933 50

To investigate the regulation of the CCR1 chemokine receptor, a rat basophilic leukemia (RBL-2H3) cell line was modified to stably express epitope-tagged receptor. These cells responded to RANTES (regulated upon activation normal T expressed and secreted), macrophage inflammatory protein-1alpha, and monocyte chemotactic protein-2 to mediate phospholipase C activation, intracellular Ca(2+) mobilization and exocytosis. Upon activation, CCR1 underwent phosphorylation and desensitization as measured by diminished GTPase stimulation and Ca(2+) mobilization. Alanine substitution of specific serine and threonine residues (S2 and S3) or truncation of the cytoplasmic tail (DeltaCCR1) of CCR1 abolished receptor phosphorylation and desensitization of G protein activation but did not abolish desensitization of Ca(2+) mobilization. S2, S3, and DeltaCCR1 were also resistant to internalization, mediated greater phosphatidylinositol hydrolysis and sustained Ca(2+) mobilization, and were only partially desensitized by RANTES, relative to S1 and CCR1. To study CCR1 cross-regulation, RBL cells co-expressing CCR1 and receptors for interleukin-8 (CXCR1, CXCR2, or a phosphorylation-deficient mutant of CXCR2, 331T) were produced. Interleukin-8 stimulation of CXCR1 or CXCR2 cross-phosphorylated CCR1 and cross-desensitized its ability to stimulate GTPase activity and Ca(2+) mobilization. Interestingly, CCR1 cross-phosphorylated and cross-desensitized CXCR2, but not CXCR1. Ca(2+) mobilization by S3 and DeltaCCR1 were also cross-desensitized by CXCR1 and CXCR2 despite lack of receptor phosphorylation. In contrast to wild type CCR1, S3 and DeltaCCR1, which produced sustained signals, cross-phosphorylated and cross-desensitized responses to CXCR1 as well as CXCR2. Taken together, these results indicate that CCR1-mediated responses are regulated at several steps in the signaling pathway, by receptor phosphorylation at the level of receptor/G protein coupling and by an unknown mechanism at the level of phospholipase C activation. Moreover selective cross-regulation among chemokine receptors is, in part, a consequence of the strength of signaling (i.e. greater phosphatidylinositol hydrolysis and sustained Ca(2+) mobilization) which is inversely correlated with the receptor's susceptibility to phosphorylation. Since many chemokines activate multiple chemokine receptors, selective cross-regulation among such receptors may play a role in their immunomodulation.
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PMID:Regulation of the human chemokine receptor CCR1. Cross-regulation by CXCR1 and CXCR2. 1073 56

We have previously demonstrated that a tartrate-resistant acid phosphatase (TRAP)-positive subpopulation of mononuclear cells isolated from collagenase digests of human osteoclastoma tissue exhibits an osteoclast phenotype and can be induced to resorb bone. Using these osteoclast precursors as a model system, we have assessed the chemotactic potential of 16 chemokines. Three CC chemokines, the recently described CKbeta-8, RANTES, and MIP-1alpha elicited significant chemotactic responses. In contrast, 10 other CC chemokines (MIP-1beta, MCP-1, MCP-2, MCP-3, MCP-4, HCC-1, eotaxin-2, PARC, SLC, ELC) and 3 CXC chemokines (IL-8, GROalpha, SDF-1) were inactive. None of these chemokines showed any chemotactic activity for either primary osteoblasts derived from human bone explants or the osteoblastic MG-63 cell line. The identity of the osteoclast receptor that mediates the chemotactic response remains to be established. However, all three active chemokines have been reported to bind to CCR1 and cross-desensitization studies demonstrate that RANTES and MIP-1alpha can partially inhibit the chemotactic response elicited by CKbeta-8. CKbeta-8, the most potent of the active CC chemokines (EC(max) 0.1-0.3 nM), was further characterized with regard to expression in human bone and cartilage. Although expression is not restricted to these tissues, CKbeta-8 mRNA was shown to be highly expressed in osteoblasts and chondrocytes in human fetal bone by in situ hybridization. In addition, CKbeta-8 protein was shown to be present in human osteophytic tissue by immunolocalization. These observations suggest that CKbeta-8, and perhaps other chemokines, may play a role in the recruitment of osteoclast precursors to sites of bone resorption.
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PMID:CKbeta-8 [CCL23], a novel CC chemokine, is chemotactic for human osteoclast precursors and is expressed in bone tissues. 1073 95

Chemokines are mediators in inflammatory and autoimmune disorders. Aminoterminal truncation of chemokines results in altered specific activities and receptor recognition patterns. Truncated forms of the CXC chemokine interleukin (IL)-8 are more active than full-length IL-8 (1-77), provided the Glu-Leu-Arg (ELR) motif remains intact. Here, a positive feedback loop is demonstrated between gelatinase B, a major secreted matrix metalloproteinase (MMP-9) from neutrophils, and IL-8, the prototype chemokine active on neutrophils. Natural human neutrophil progelatinase B was purified to homogeneity and activated by stromelysin-1. Gelatinase B truncated IL-8(1-77) into IL-8(7-77), resulting in a 10- to 27-fold higher potency in neutrophil activation, as measured by the increase in intracellular Ca(++) concentration, secretion of gelatinase B, and neutrophil chemotaxis. This potentiation correlated with enhanced binding to neutrophils and increased signaling through CXC chemokine receptor-1 (CXCR1), but it was significantly less pronounced on a CXCR2-expressing cell line. Three other CXC chemokines-connective tissue-activating peptide-III (CTAP-III), platelet factor-4 (PF-4), and GRO-alpha-were degraded by gelatinase B. In contrast, the CC chemokines RANTES and monocyte chemotactic protein-2 (MCP-2) were not digested by this enzyme. The observation of differing effects of neutrophil gelatinase B on the proteolysis of IL-8 versus other CXC chemokines and on CXC receptor usage by processed IL-8 yielded insights into the relative activities of chemokines. This led to a better understanding of regulator (IL-8) and effector molecules (gelatinase B) of neutrophils and of mechanisms underlying leukocytosis, shock syndromes, and stem cell mobilization by IL-8. (Blood. 2000;96:2673-2681)
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PMID:Neutrophil gelatinase B potentiates interleukin-8 tenfold by aminoterminal processing, whereas it degrades CTAP-III, PF-4, and GRO-alpha and leaves RANTES and MCP-2 intact. 1102 97

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