UNIPROT:P10145 - FACTA Search

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)

Erythrocytes have long been appreciated as transporters and exchangers of O2 and CO2 between the lungs and the tissues. Here we examine the role of erythrocytes as potential mediators of inflammatory processes by assessing their ability to bind to a number of inflammatory peptides of the chemokine (for chemoattractant cytokine) superfamily. Radiolabeled chemokines of either the C-X-C (IL-8, MGSA/gro, NAP-2) or C-C (RANTES, MCP-1) class bind reversibly to red cell surface receptors numbering 1000-9000 sites/cell with a Kd of approximately 5 nM. In contrast to what is seen for chemokine binding to target inflammatory cells, chemokines of either class displace heterologous chemokines, indicating that the proteins are competing for a promiscuous receptor. Chemical cross-linking with radiolabeled chemokines reveals a 30-38-kilodalton protein on the red cell surface, and cross-linking is inhibited in the presence of heterologous unlabeled chemokines. These data show that red blood cells possess a multispecific receptor for the newly identified chemokine superfamily of inflammatory cytokines, and thus the red cell may play a novel role as a regulator of inflammatory processes.
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PMID:Identification of a promiscuous inflammatory peptide receptor on the surface of red blood cells. 838 55

To examine whether levels of inflammatory cytokines and eosinophil cationic protein (ECP) in the sputum reflect the severity of bronchial asthma, we measured their levels in the sputum of symptomatic and asymptomatic asthmatics. Interleukin (IL)-1 beta, IL-5, IL-6, IL-8, RANTES, tumor necrosis factor-alpha and ECP concentrations in the sputum of symptomatic patients were significantly higher than in asymptomatic subjects. These findings suggest that these inflammatory cytokines are involved in the exacerbation of asthma.
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PMID:Cytokine concentrations in sputum of asthmatic patients. 852 54

Specific receptors for the beta-chemokine TCA3 have been identified on mouse monocyte/macrophage cell lines and on mouse mesangial cells. Using Scatchard plot analysis with 125I-labeled TCA3, a single high-affinity receptor (3-4 nM) was identified. Cells of the monocyte lineage express 1,400 to 8,600 TCA3 binding sites, while mesangial cells display 40,000 to 49,000 sites/cell. Competitive inhibition studies indicated that the TCA3 receptor is unique, although MCP-1, IL-8, and RANTES were weak competitors of TCA3 binding. We also established the functional activity of TCA3 and other chemokines on primary cultures of mouse mesangial cells. TCA3 treatment induces increased mesangial cell adhesiveness to fibronectin. TCA3 is also a chemoattractant for mesangial cells. In addition, TCA3 treatment stimulates [3H]thymidine uptake by mesangial cells. The combined results indicate that TCA3 and other chemokines interact with a broader range of target cells than previously considered.
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PMID:Beta-chemokine TCA3 binds to mesangial cells and induces adhesion, chemotaxis, and proliferation. 854 28

Monocyte chemotactic and activating factor/monocyte chemoattractant protein-1 (MCAF/MCP-1), RANTES, and macrophage inflammatory protein (MIP)-1 alpha are chemokines known to activate basophils (MCAF/RANTES) and eosinophils (RANTES/MIP-1 alpha). IL-8 inhibits MCAF-induced histamine release from basophils. We questioned whether a relationship exists between the levels of these chemokines and various inflammatory mediators released from mast cells, eosinophils, and basophils as assessed in nasal secretions obtained from patients during the allergy season and out of season. Samples were assessed for MCAF/MCP-1, RANTES, MIP-1 alpha, IL-8, histamine, tryptase and eosinophil cationic protein (ECP) in three subject groups: subjects with allergic rhinitis (n = 18), atopic subjects without rhinitis (n = 9), and healthy individuals (n = 6). Statistically significant differences were apparent only in the subjects with symptoms as follows. MCAF/MCP-1 increased during the season from 336 +/- 47 pg/ml to 829 +/- 137 pg/ml (p < 0.001), whereas IL-8 decreased from a baseline of 1932 +/- 335 pg/ml to 1070 +/- 202 pg/ml (p < 0.028). The ratio of IL-8 to MCAF/MCP-1 decreased during the symptomatic season from the baseline of 6.66 +/- 1.06 seen during winter to 1.3 +/- 0.22 during ragweed season (p < 0.001). Histamine increased from 6.3 +/- 1.5 to 89 +/- 15.5 ng/ml (p < 0.001), ECP increased from 20.6 +/- 6.4 to 237.1 +/- 50.2 ng/ml (p < 0.001), and tryptase increased from 2.34 +/- 0.6 to 9.7 +/- 2.3 U/ml (p < 0.001). Most samples did not have detectable quantities of MIP-1 alpha or RANTES. We also found a correlation between the level of MCAF/MCP-1 and IL-8 and the level of histamine or IL-8 and ECP. Our results suggest that the chemokines MCAF/MCP-1 and IL-8 may participate in the pathogenesis of allergic rhinitis, contributing to the attraction of the proinflammatory cells and mediator release, which might be very important during the late phase of the allergic reaction. Furthermore, the ratio of certain chemokines, such as MCAF/MCP-1 and IL-8 may reflect the magnitude of the reaction, as does the presence of histamine and ECP.
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PMID:Chemokines in seasonal allergic rhinitis. 856 22

The responses of cloned human NK cells (ERNK57) to seven CC chemokines (monocyte chemotactic protein-1 (MCP-1), MCP-2, MCP-3, RANTES (regulated on activation, normal T cell expressed and secreted), macrophage inflammatory protein-1 alpha (MIP-1 alpha), MIP-1 beta, and 1309) and two CXC chemokines (IL-8 and IP-10) were studied. Except for 1309, all CC chemokines induced chemotaxis of the NK cells in vitro, whereas the CXC chemokines were inactive. Maximal activity was obtained at 1 nM for MCP-1 and 10 to 100 nM for the other CC chemokines. The response showed a typically bimodal concentration dependence in all cases, except for RANTES, which induced a linear increase of migration over the concentration range of 0.1 to 1000 nM. A transient rise of the cytosolic-free Ca2+ concentration ([Ca2+]i), which is characteristic for chemokine-stimulated leukocytes, was observed in NK cells after stimulation with all six active chemokines. Since granule exocytosis is required for NK cell-dependent target killing, the effect of CC chemokines on exocytosis was tested. All CC chemokines that induced chemotaxis and [Ca2+]i changes also induced the release of granzyme A and N-acetyl-beta-D-glucosaminidase from cloned and blood NK cells, as well as CD8+ T cells after pretreatment with cytochalasin B. Maximum release was obtained from NK cells, and amounted to 35% and 13% of the total content of granzyme A and N-acetyl-beta-D-glucosaminidase, respectively. The capacity of cloned NK cells and CD8+ T cells to respond to chemokines depended on the time in culture after stimulation with PHA in the presence of irradiated feeder cells, and maximum responses were observed after 10 to 16 days. Our results demonstrate that CC chemokines activate NK cells, and are, therefore, not only attractants for monocytes, T lymphocytes, and eosinophil and basophil granulocytes.
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PMID:Activation of NK cells by CC chemokines. Chemotaxis, Ca2+ mobilization, and enzyme release. 859 80

The adherence and transmigration of T cells through microvascular endothelium is an essential step for recruitment into inflammatory lesions, although the factors that stimulate the directional migration of T cells have not been fully characterized. In the present study we investigated the capacity of chemokines to induce migration of T cells across dermal microvascular endothelial cell monolayer. The results showed that recombinant MCP-1 significantly induced transendothelial migration of both resting and activated T cells. Maximal induction of migration was observed at a concentration of 10 ng/ml and a 3- to 4-hr incubation period. In contrast, the chemokines IL-8, RANTES, and MIP-1 alpha failed to stimulate T cell migration at doses as high as 100 ng/ml. In studies designed to investigate the intracellular signaling pathways mediating the MCP-1 effect, the results showed that MCP-1 at doses ranging from 10 to 100 ng/ml did not cause an increase in intracellular calcium ions in T cells, even though this chemokine induced rapid calcium mobilization in monocytes. Furthermore, pretreatment of T cells with either bisindolymaleimide HCl, a specific inhibitor of protein kinase C, or genistein, a protein tyrosine kinase inhibitor, significantly decreased the MCP-1-induced transmigration in a dose-dependent manner. In contrast, T cells pretreated with the protein kinase A-specific inhibitor H89 responded normally to MCP-1 stimulation. Finally, T cell transmigration was inhibited by antibodies against CD11a, thereby confirming the importance of beta 2-integrin in the transmigration process.
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PMID:The intracellular signaling pathways involved in MCP-1-stimulated T cell migration across microvascular endothelium. 860 36

We examined the genetic expression of 2 CXC chemokines (IL-8, IP-10), 5 CC chemokines (MCP-1, MIP-lalpha, MIP-1beta, RANTES, 1309) and 1 C chemokine (SCM-1/lymphotactin/ATAC) in various human T-cell lines. By Northern blot analysis, HTLV-1-positive T-cell lines were found to express a number of chemokine genes at variable levels and in different combinations. However, none of the chemokine genes was expressed in HTLV-1-negative T-cell lines. We further confirmed secretion of 3 chemokines (IL-8, MIP-1alpha and RANTES) by some HTLV-1-positive T-cell lines. To examine the role of the HTLV-1-encoded transactivator Tax in the induction of these chemokine genes, we used JPX-9 and JPX-M, which were stably transformed with tax and non-functional tax, respectively, under the control of a metallothionein promoter. Induction of tax in JPX-9 with Cd2+ was accompanied by rapid induction of IL-8, IP-10, MIP-1alpha, MIP-1beta, 1309 and SCM-1 as determined by reverse transcription PCR. No such induction was seen in JPX-M. We thus suggest that Tax is, at least in part, responsible for constitutive expression of certain chemokine genes in HTLV-1-infected T cells. Aberrant production of various chemokines by HTLV-1- infected T cells may impact on the pathophysiology of HTLV-1-associated diseases.
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PMID:Constitutive expression of various chemokine genes in human T-cell lines infected with human T-cell leukemia virus type 1: role of the viral transactivator Tax. 860 55

We describe here that members of the CC chemokines exhibit biological activities other than chemotaxis. Macrophage inflammatory protein (MIP)-1 alpha, MIP-1 beta, monocyte chemoattractant protein-1 and RANTES, but not interleukin (IL)-8, induce the generation of cytolytic cells, designated here as CHAK (CC chemokine-activated killer) cells to distinguish them from IL-2-activated (LAK) cells. Like IL-2, CC chemokines can induce the proliferation and activation of killer cells. While incubating CC chemokines with CD4+ or CD8+ cells did not generate CHAK activity, all CC chemokines were capable of inducing CHAK activity upon incubating with CD56+ cells, suggesting that the primary effectors are NK cells. However, the presence of other cell types, such as CD4+ or CD8+, are necessary to induce the proliferation of CD56+ cells. Confirming the involvement of T cell-derived factors in inducing the proliferation of these cells, anti-IL-2 and anti-interferon-gamma, but not anti-IL-1 beta, anti-tumor necrosis factor-alpha, anti-IL-8, or anti-granulocyte/monocyte-colony-stimulating factor inhibited RANTES-induced proliferation of nylon wool column-nonadherent cells. Our results may have important clinical applications for the utilization of CHAK cells in the treatment of cancer and immunodeficient patients.
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PMID:CC chemokines induce the generation of killer cells from CD56+ cells. 861 97

Human blood monocytes adhere rapidly and for prolonged periods to activated platelets that display P-selectin, an adhesion protein that recognizes a specific ligand on leukocytes, P-selectin glycoprotein-1. We previously demonstrated that P-selectin regulates expression and secretion of cytokines by stimulated monocytes when it is presented in a purified, immobilized form or by transfected cells. Here we show that thrombin-activated platelets induce the expression and secretion of monocyte chemotactic protein-1 and IL-8 by monocytes. Enhanced monokine synthesis requires engagement of P-selectin glycoprotein-1 on the leukocyte by P-selectin on the platelet. Secretion of the chemokines is not, however, directly signaled by P-selectin; instead, tethering of the monocytes by P-selectin is required for their activation by RANTES (regulated upon activation normal T cell expressed presumed secreted), a platelet chemokine not previously known to induce immediate-early gene products in monocytes. Adhesion of monocytes to activated platelets results in nuclear translocation of p65 (RelA), a component of the NF-kappaB family of transcription factors that binds kappaB sequences in the regulatory regions of monocyte chemotactic protein-1, IL-8, and other immediate-early genes. However, expression of tissue factor, a coagulation protein that also has a kappaB sequence in the 5' regulatory region of its gene, is not induced in monocytes adherent to activated platelets. Thus, contact of monocytes with activated platelets differentially affects the expression of monocyte products. These experiments suggest that activated platelets regulate chemokine secretion by monocytes in inflammatory lesions in vivo and provide a model for the study of gene regulation in cell-cell interactions.
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PMID:Activated platelets signal chemokine synthesis by human monocytes. 861 86

The proteolytic cleavage product of complement component 3, (C3a), is like C4a and C5a, is a potent anaphylatoxin and induces the production of inflammatory mediators in phagocytes. Notably, mast cells respond to C3a with the release of vasoactive substances, including histamine. We have examined the function and receptor binding of C3a in a human leukemic mast cell line, HMC-1. Similar to chemoattractant agonists in leukocytes, C3a induced rapid cytosolic free calcium concentration increases in HMC-1 cells. EGTA did not diminish this response, indicating that mobilizable Ca2+ was from intracellular stores. Receptors of C3a in HMC-1 cells couple in part to Bordetella pertussis toxin-sensitive G-proteins and, therefore, appear to belong to the family of serpentine receptors that require G-proteins for signal transduction. HMC-1 cells express two types of C3a receptors, C3aR1 and C3aR2, that were shown to bind 125I-C3a with high-(Kd1 = 2.1-4.8 nM) or low-affinity (Kd2 = 30-150 nM), and both receptors are expressed at high level: 3 x 10(5)-6 x 10(5) C3aR1/cell and 5 x 10(5)-2.3 x 10(6) C3aR2/cell. Results from cross-linking experiments with 125I-C3a fully agree with the presence of two different classes of C3a receptors in HMC-1 cells. Two membrane proteins with apparent molecular masses of 54-61 kDa (p57) and 86-107 kDa (p97) could be covalently modified with 125I-C3a, and this cross-linking was inhibited with an excess of unlabeled C3a. Many of the known agonists for leukocytes including 13 chemokines (IL-8, NAP-2, GRO alpha, ENA-78, IP10, PF4, MCP-1, 2 and 3, RANTES, MIP-1 alpha, MIP-1 beta and I309), three neuropeptides (neuropeptide Y, somatostatin and calcitonin), as well as C5a, did not activate HMC-1 cells, indicating that C3a is one of a few protein ligands for which this cell line expresses specific receptors. The apparent selectivity for C3a and the abundant expression of C3a receptors make the HMC-1 cell line an excellent choice for the cloning of the receptor genes.
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PMID:Expression of high- and low-affinity receptors for C3a on the human mast cell line, HMC-1. 862 64

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