Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10145 (IL-8)
 23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

According to the type of secondary structure, cytokines are classified into three categories: alpha-spiral (IFNs-alpha, beta, omega, gamma; ILS-2, 3,4,5,6,7,9; CSFs-G, M, GM, MGF, PDGF), beta-structural (ILs-1 alpha, beta, TNFs-alpha, beta, FGF) and (alpha + beta)-structural proteins (IL-8, IFN-gamma IP-10, PF-4, bTG, GRO, 9E3). According to the type of tertiary structure, alpha-spiral proteins are grouped into IFN- and IL-2-like families and beta-structural ones into IL-1-, and TNF-like families. Two subfamilies can be identified in the IFN-like family. Theoretical and experimental evidence suggests that the genes IFNs are products of divergent or convergent evolution towards the gene of the ancient intracellular protein alpha-prothymosine, which is evolutionally in turn associated with the L7/I1 protein of two ribosomes. It is suggested that the proteins of the immunoglobulin superfamily, including cytokine receptors descended from the ancient proteins of the unicellular organisms molecular shaperons.
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PMID:[The structural and functional classification and evolution of cytokines]. 768 23

IP-10 is a member of the chemokine family of cytokines and is induced in a variety of cells in response to interferon gamma and lipopolysaccharide. The self-aggregation common to many chemokines, including IP-10, has hindered the identification of a specific IP-10 receptor. Using an IP-10 alkaline phosphatase fusion protein that fortuitously blocks this self-aggregation, we have identified an IP-10 binding site on a variety of cells including endothelial, epithelial, and hematopoietic cells. This binding site has a Kd of 25 nM, is inhibited by recombinant murine or human IP-10, and is dependent on the presence of cell surface heparan sulfate proteoglycans (HSPG). This conclusion is based on the findings that IP-10 binding to cells is: (a) inhibited by heparin and heparan sulfate; (b) sensitive to a 1 M NaCl wash; (c) eliminated by treatment with heparinase and trypsin; and (d) absent on mutant CHO cells that do not express cell surface HSPG. Platelet factor 4 (PF4), but not IL-8, monocyte chemoattractant protein-1, RANTES, monocyte inflammatory protein (MIP)-1 alpha, or MIP-1 beta, can compete effectively with IP-10 for binding to the cell surface. Furthermore, IP-10 shares with PF4 the ability to inhibit endothelial cell proliferation (IC50 = 150 nM). These studies demonstrate specificity in the interaction of chemokines and HSPG, and they define IP-10 and PF4 as a distinct subset of chemokines sharing an HSPG-binding site and angiostatic properties.
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PMID:The IP-10 chemokine binds to a specific cell surface heparan sulfate site shared with platelet factor 4 and inhibits endothelial cell proliferation. 779 Aug 18

Macrophage inflammatory protein 1 alpha (MIP-1 alpha), a monocyte cytokine, has roles postulated for it in neutrophil chemoattraction, the inflammatory response and the control of haemopoietic stem cell proliferation. The three-dimensional structure of MIP-1 alpha has been modelled structurally, based on its sequence similarity to interleukin-8 and related proteins. The predicted dimeric form of MIP-1 alpha contains two symmetry-related antiparallel alpha-helices lying at an angle across a beta-sheet. The interhelical region and the beta-sheet flooring it are discussed as the potential receptor-binding site in terms of the distribution of negatively charged amino-acid side-chains, which contrasts remarkably with the corresponding positively-charged locations for IL-8. The general topographical features of this (alpha + beta) structural family of cytokines and related proteins (including HLA-A2, PF-4) are discussed. The members of this cytokine family fall into two structural groups as the antiparallel helices (N to C directed) mounted across the beta-sheet platform can be located in a clockwise (e.g. HLA-A2) or anticlockwise (e.g. MIP-1 alpha) sense with respect to the beta-floor).
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PMID:A homology-derived structural model of the murine macrophage inflammatory protein, MIP-1 alpha. 806 19

Amino acid deletion and mutagenesis experiments have indicated that the sequences Glu-Leu-Arg (ELR) preceding the first cysteine at the N terminus of interleukin 8 (IL-8) is required for receptor binding and neutrophil activation. Platelet factor 4 (PF4) is structurally related to IL-8 (35% sequence identity) but lacks the N-terminal ELR sequence and comparable effects on neutrophils. We introduced the ELR sequence at the N terminus of PF4 and found that the modified protein was a potent neutrophil activator and attractant. On the other hand, when the ELR sequence was introduced into the corresponding positions of two other proteins related to IL-8, gamma-interferon-inducible protein IP10 and monocyte chemoattractant protein 1, neither of them acquired neutrophil-activating properties, indicating that besides ELR additional structural determinants of IL-8 and PF4 are important for binding to IL-8 receptors. The conservation of these binding determinants suggests that PF4 may have evolved from a neutrophil activating protein.
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PMID:Platelet factor 4 binds to interleukin 8 receptors and activates neutrophils when its N terminus is modified with Glu-Leu-Arg. 847 6

Platelet factor 4 (PF-4), like IL-8, is a member of the chemokine superfamily of proinflammatory cytokines. However, although the capacity of IL-8 to stimulate functions in neutrophils is well established, reports on PF-4 are still contradictory. In the present study, we have prepared highly purified PF-4 and examined its ability to induce chemotaxis, degranulation, adhesion to gelatin and plasma proteins, and changes in intracellular calcium levels. Even over a broad range of concentrations, PF-4 alone was unable to induce functional changes in PMN. However, neutrophils pre- or co-incubated with physiologically relevant concentrations of TNF-alpha responded to PF-4 by the selective mobilization of the secondary granule marker lactoferrin but not of the primary granule marker elastase. Contrary to IL-8, PMN did not require pretreatment with cytochalasin B for PF-4-induced exocytosis of lactoferrin. The synergistic effect of PF-4 with TNF-alpha was not a priming phenomenon because the cooperative response remained unchanged even when TNF-alpha was added 5 min after the chemokine. In contrast, TNF-alpha-treated PMN did not respond to PF-4 by chemotaxis or by an increase of intracellular calcium levels, and no competition of PF-4 for IL-8 receptors was observed. Our results suggest a mechanism as well as a biologic role of PF-4 in the regulation of neutrophil function, which is different from that of IL-8 and other alpha-chemokines.
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PMID:TNF-alpha renders human neutrophils responsive to platelet factor 4. Comparison of PF-4 and IL-8 reveals different activity profiles of the two chemokines. 859 50

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

Platelet factor 4 (PF-4), a member of the alpha-chemokine subfamily of cytokines, activates human neutrophils independently of intracellular free calcium mobilization or binding to IL-8R. In the present study, we have identified and partially characterized a receptor for PF-4 on human neutrophils, which displays weak cross-reactivity with the IFN-gamma-inducible protein 10, but not with other alpha-chemokines such as IL-8, neutrophil-activating peptide 2, or melanoma growth-stimulatory activity (GRO alpha). Binding studies revealed that human neutrophils express a high number of receptors (Bmax approximately 7.6 x 10(6) sites/cell) of moderate affinity (Kd approximately 650 nM). The kinetics of PF-4-binding correlates with the proportion of PF-4 tetramers in solution and with the activation of neutrophils for exocytosis. Reduction of PF-4 binding and PF-4-induced exocytosis in the presence of various glycosaminoglycans or following treatment of cells with chondroitinase ABC (but not other glycosaminoglycan-degrading enzymes) altogether demonstrates that the PF-4 receptor is a proteoglycan of the chondroitin sulfate class. Cross-linking experiments with radiolabeled PF-4 revealed a receptor-ligand complex of approximately 250 kDa. Taken together, our data show that a distinct chondroitin sulfate proteoglycan represents specific receptors for tetrameric PF-4 on human neutrophils.
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PMID:A chondroitin sulfate proteoglycan on human neutrophils specifically binds platelet factor 4 and is involved in cell activation. 978 Feb 12

The aim of this study was to explore further the hypothesis that early stages of normal human hematopoiesis might be coregulated by autocrine/paracrine regulatory loops and by cross-talk among early hematopoietic cells. Highly purified normal human CD34(+) cells and ex vivo expanded early colony-forming unit-granulocyte-macrophage (CFU-GM)-derived, burst forming unit-erythroid (BFU-E)-derived, and CFU-megakaryocyte (CFU-Meg)-derived cells were phenotyped for messenger RNA expression and protein secretion of various growth factors, cytokines, and chemokines to determine the biological significance of this secretion. Transcripts were found for numerous growth factors (kit ligand [KL], FLT3 ligand, fibroblast growth factor-2 [FGF-2], vascular endothelial growth factor [VEGF], hepatocyte growth factor [HGF], insulinlike growth factor-1 [IGF-1], and thrombopoietin [TPO]); cytokines (tumor necrosis factor-alpha, Fas ligand, interferon alpha, interleukin 1 [IL-1], and IL-16); and chemokines (macrophage inflammatory protein-1alpha [MIP-1alpha], MIP-1beta, regulated upon activation, normal T cell expressed and secreted [RANTES], monocyte chemotactic protein-3 [MCP-3], MCP-4, IL-8, interferon-inducible protein-10, macrophage-derived chemokine [MDC], and platelet factor-4 [PF-4]) to be expressed by CD34(+) cells. More importantly, the regulatory proteins VEGF, HGF, FGF-2, KL, FLT3 ligand, TPO, IL-16, IGF-1, transforming growth factor-beta1 (TGF-beta1), TGF-beta2, RANTES, MIP-1alpha, MIP-1beta, IL-8, and PF-4 were identified in media conditioned by these cells. Moreover, media conditioned by CD34(+) cells were found to inhibit apoptosis and slightly stimulate the proliferation of other freshly isolated CD34(+) cells; chemo-attract CFU-GM- and CFU-Meg-derived cells as well as other CD34(+) cells; and, finally, stimulate the proliferation of human endothelial cells. It was also demonstrated that these various hematopoietic growth factors, cytokines, and chemokines are expressed and secreted by CFU-GM-, CFU-Meg-, and BFU-E-derived cells. It is concluded that normal human CD34(+) cells and hematopoietic precursors secrete numerous regulatory molecules that form the basis of intercellular cross-talk networks and regulate in an autocrine and/or a paracrine manner the various stages of normal human hematopoiesis.
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PMID:Numerous growth factors, cytokines, and chemokines are secreted by human CD34(+) cells, myeloblasts, erythroblasts, and megakaryoblasts and regulate normal hematopoiesis in an autocrine/paracrine manner. 1134 33

Matrix metalloproteinases (MMPs) form a family of enzymes with major actions in the remodeling of extracellular matrix (ECM) components. Gelatinase B (MMP-9) is the most complex family member in terms of domain structure and regulation of its activity. Gelatinase B activity is under strict control at various levels: transcription of the gene by cytokines and cellular interactions; activation of the pro-enzyme by a cascade of enzymes comprising serine proteases and other MMPs; and regulation by specific tissue inhibitors of MMPs (TIMPs) or by unspecific inhibitors, such as alpha2-macroglobulin. Thus, remodeling ECM is the result of the local protease load, i.e., the net balance between enzymes and inhibitors. Glycosylation has a limited effect on the net activity of gelatinase B, and in contrast to the all-or-none effect of enzyme activation or inhibition, it results in a higher-level, fine-tuning effect on the ECM catalysis by proteases in mammalian species. Fast degranulation of considerable amounts of intracellularly stored gelatinase B from neutrophils, induced by various types of chemotactic factors, is another level of control of activity. Neutrophils are first-line defense leukocytes and do not produce gelatinase A or TIMP. Thus, neutrophils contrast sharply with mononuclear leukocytes, which produce gelatinase A constitutively, synthesize gelatinase B de novo after adequate triggering, and overproduce TIMP-1. Gelatinase B is also endowed with functions other than cleaving the ECM. It has been shown to generate autoimmune neo-epitopes and to activate pro-IL-1beta into active IL-1beta. Gelatinase B ablation in the mouse leads to altered bone remodeling and subfertility, results in resistance to several induced inflammatory or autoimmune pathologies, and indicates that the enzyme plays a crucial role in development and angiogenesis. The major human neutrophil chemoattractant, IL-8, stimulates fast degranulation of gelatinase B from neutrophils. Gelatinase B is also found to function as a regulator of neutrophil biology and to truncate IL-8 at the amino terminus into a tenfold more potent chemokine, resulting in an important positive feedback loop for neutrophil activation and chemotaxis. The CXC chemokines GRO-alpha, CTAP-III, and PF-4 are degraded by gelatinase B, whereas the CC chemokines MCP-2 and RANTES are not cleaved.
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PMID:Gelatinase B functions as regulator and effector in leukocyte biology. 1140 67

The aim of this study was to learn more on the role of chemokines in the regulation of human megakryopoiesis. Normal human megakaryoblasts were expanded in serum-free liquid cultures and subsequently (1) phenotyped for expression of various chemokine receptors, (2) evaluated if chemokine receptors which they express are functional after stimulation by chemokines (calcium flux assay, chemotaxis, phosphorylation of MAPK-p42/44 and AKT proteins), and (3) investigated for expression and secretion of selected chemokines by employing RT-PCR and ELISA assays, respectively. In addition we also phenotyped peripheral blood platelets for expression of chemokine receptors and chemokines. We found that while human megakaryoblasts express several chemokine receptors (CXCR4, CCR6, CCR8, CCR5, CCR2 and CXCR3), CXCR4 was the only receptor detectable by FACS on human platelets. Moreover, among various chemokines tested, only SDF-1 (CXCR4 ligand) stimulated calcium flux and chemotaxis in normal human megakaryoblasts and phosphorylated MAPK-p42/44 and AKT in these cells. Although mRNAs for several chemokines were detectable by RT-PCR in normal human megakaryoblasts, only RANTES, IL-8, MCP-1 and PF-4 were found to be secreted by these cells. Finally we noticed that no chemokine tested in this study affected CFU-Meg colony formation by human CD34+ cells in serum-free cultures. We conclude that from all the chemokine receptor-chemokine axes tested, only SDF-1-CXCR4 axis was functional in assays employed in our studies, which further support the view that this axis plays a privileged role in regulating normal human megakaryopoiesis.
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PMID:Biological significance of chemokine receptor expression by normal human megakaryoblasts. 1153 79


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