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)

Host immunity, particularly T cell immunity (Th1/Th2 balance), plays an important role in clinicopathological features of malignant disease. However, the T cell immunity has not been fully investigated in patients with lymphoid malignancies. Recent studies suggested the important role of dysregulation of the endogenous immune system in lymphomagenesis. The relationships between cytokines/chemokines and their receptors, are important in determining the selectivity of local immunity. To investigate differences in the endogenous immune system of diffuse large B cell lymphoma (DLBL), we performed gene expression profiling using cDNA microarrays of cytokines/chemokines and their receptors. We studied 5 cases each of primary central nervous system lymphomas (PCNSL), extranodal and nodal lymphomas. PCNSL exhibited diffuse down-regulated profiles, compared to normal peripheral blood lymphocytes. While extranodal and nodal lymphomas also exhibited diffuse down-regulated profiles, some genes displayed up-regulated profiles. Hierarchical clustering analysis separated PCNSL and extranodal lymphomas into distinct groups based on their gene expression profiles, as well as extranodal and nodal, but not PCNSL and nodal. PCNSL exhibited significantly lower expression of BLC/BCA-1 and CCR-3 (Th2 type), and higher expression of IL-8 and MIP-1beta (Th1 type) than extranodal lymphomas. Immunohistochemistry and RT-PCR revealed frequent CCR-3 and BLC/BCA-1 expression in extranodal lymphomas, compared with PCNSL. Our results provide new insights into the pathogenesis of each DLBL. A better understanding of the immune response in each DLBL could help in the design of novel therapeutic strategies based on cytokines/chemokines and their receptors.
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PMID:Differential expression of chemokines, chemokine receptors, cytokines and cytokine receptors in diffuse large B cell malignant lymphoma. 1476 37

Eosinophil-mediated diseases, such as allergic asthma, eosinophilic fasciitis, and certain hypersensitivity pulmonary disorders, are characterized by eosinophil infiltration and tissue injury. Mast cells and T cells often colocalize to these areas. Recent data suggest that mast cells can contribute to eosinophil-mediated inflammatory responses. Activation of mast cells can occur by antigen and immunoglobulin E (IgE) via the high-affinity receptor (FcepsilonRI) for IgE. The liberation of proteases, leukotrienes, lipid mediators, and histamine can contribute to tissue inflammation and allow recruitment of eosinophils to tissue. In addition, the synthesis and expression of a plethora of cytokines and chemokines (such as granulocyte-macrophage colony-stimulating factor [GM-CSF], interleukin-1 [IL-1], IL-3, IL-5, tumor necrosis factor-alpha [TNF-alpha], and the chemokines IL-8, regulated upon activation normal T cell expressed and secreted [RANTES], monocyte chemotactic protein-1 [MCP-1], and eotaxin) by mast cells can influence eosinophil biology. Stem cell factor (SCF)-c-kit, cytokine-cytokine receptor, and chemokine-chemokine receptor (CCR3) interactions leading to nuclear factor kappaB (NF-kappaB), mitogen-activated protein kinase (MAPK) expression, and other signaling pathways can modulate eosinophil function. Eosinophil hematopoiesis, activation, survival, and elaboration of mediators can all be regulated thus by mast cells in tissue. Moreover, because eosinophils can secrete SCF, eosinophils can regulate mast cell function in a paracrine manner. This two-way interaction between eosinophils and mast cells can pave the way for chronic inflammatory responses in a variety of human diseases. This review summarizes this pivotal interaction between human mast cells and eosinophils.
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PMID:The role of human mast cell-derived cytokines in eosinophil biology. 1515 10

Within the brain, quinolinic acid (QUIN) is an important neurotoxin, especially in AIDS dementia complex (ADC). Its production by monocytic lineage cells is increased in the context of inflammation. However, it is not known whether QUIN promotes inflammation. Astrocytes are important in immuno-regulation within the brain and so we chose to examine the effects of QUIN on the astrocyte. Using purified cultures of primary human foetal astrocyte, we determined chemokine production using ELISA assays and RT-PCR, and chemokine receptor expression using immunocytochemistry and RT-PCR with QUIN in comparison to TNF-alpha/IFN-gamma. We found that QUIN induces astrocytes to produce large quantities of MCP-1 (CCL2), and lesser amounts of RANTES (CCL5), IL-8 (CXCL8). QUIN also increases SDF-1alpha (CXCL12), HuMIG (CXCL9) and fractalkine (CX3CL1) mRNA expression. Moreover, QUIN leads to up-regulation of the chemokine receptor expression of CXCR4, CCR5, and CCR3 in human foetal astrocytes. Most of these effects were comparable to those induced by TNF-alpha/IFN-gamma. The present work represents the first evidence that QUIN induces chemokine and chemokine receptor expression in astrocytes and is at least as potent as classical mediators such as inflammatory cytokines. These results suggest that QUIN may be critical in the amplification of brain inflammation particularly in ADC.
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PMID:Quinolinic acid up-regulates chemokine production and chemokine receptor expression in astrocytes. 1520 14

We have previously found that bronchial epithelial cells express CCR3 whose signaling elicits mitogen-activated protein (MAP) kinase activation and cytokine production. Several investigators have focused on the signaling crosstalk between G protein-coupled receptors (GPCRs) and epidermal growth factor receptor (EGFR) in cancer cells. In this study, we investigated the role of EGFR in CCR3 signaling in the bronchial epithelial cell line NCI-H292. Eotaxin (1-100 nM) induced dose-dependent tyrosine phosphorylation of EGFR in NCI-H292 cells. Pretreatment of the cells with the EGFR inhibitor (AG1478) significantly inhibited the MAP kinase phosphorylation induced by eotaxin. Eotaxin stimulated IL-8 production, which was inhibited by AG1478. The transactivation of EGFR through CCR3 is a critical pathway that elicits MAP kinase activation and cytokine production in bronchial epithelial cells. The delineation of the signaling pathway of chemokines will help to develop a new therapeutic strategy to allergic diseases including bronchial asthma.
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PMID:Activation of epidermal growth factor receptor via CCR3 in bronchial epithelial cells. 1521 25

The term chronic autoimmune urticaria (CAIU) is used for chronic urticaria in subjects who present a whealing response to the intradermal injection of autologous serum, suggesting the presence of pathogenic antibody activities. In this study, we examined 28 chronic urticaria subjects with positive autologous serum skin test (ASST), all of whom presented autologous serum-induced lesions at different evolutive stages. Punch biopsies were taken from lesional skin of six subjects at 10', eight subjects at 30', six subjects at 60', and four subjects each at 24 and 48 h. Immunological studies focussed on infiltrating cell immunophenotype and related cytokines, chemokines and chemokine receptors, adhesion molecules. Immunohistochemical staining was performed to measure expression of CD3, CD4, CD8, tryptase, eosinophil cationic protein, myeloperoxidase, basophil granular protein, IL-4, IL-5, IL-8, CCR3 and CXCR3, ICAM-1, VCAM and ELAM. Control staining was done on unaffected skin from the patients and normal skin from four healthy donors. The main infiltrating population was represented by neutrophils, seen focally in both unaffected skin (P = 0.001) and healthy controls (P = 0.003). IFN-gamma and IL-5 were expressed focally in autologous wheals. Significant staining for IL-4 was seen at 30'. CCR3 and CXCR3 were expressed less in autologous wheals than in uninvolved skin (P < 0.0001; P = 0.002). Cellular adhesion molecules (CAMs) reached their highest expression at 30' and 60' in induced lesions, and they showed strong expression also in unaffected skin (ICAM-1: P < 0.0001). Our data show that the immunoinflammatory features of ASST-induced wheals involve a prevalent role of lymphocytes (with a mixed Th1/Th2 response), with strong neutrophil infiltration and activity and involvement of the chemokine pathway. We interpreted the finding of inflammatory cells and mediator up-regulation in uninvolved CIU skin as a sign of prolonged and widespread "urticarial status".
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PMID:Chronic idiopathic urticaria: infiltrating cells and related cytokines in autologous serum-induced wheals. 1572 39

There is a growing interest in the role of chemokines and their receptors in the determination of mast cell tissue localization and how chemokines regulate mast cell function. At least nine chemokine receptors (CXCR1, CXCR2, CXCR3, CXCR4, CX3CR1, CCR1, CCR3, CCR4 and CCR5) have been described to be expressed by human mast cells of different origins. Seven chemokines (CXCL1, CXCL5, CXCL8, CXCL14, CX3CL1, CCL5 and CCL11) have been shown to act on some of these receptors and to induce mast cell migration. Mast cells have a unique expression pattern of CCR3, CXCR1 and CXCR2. These receptors are mainly expressed intracellularly on cytoplasmic membranes. Upon an allergic activation, CCR3 expression is increased on the cell surface and the cell becomes vulnerable for CCL11 treatment. Chemokines do not induce mast cell degranulation but CXCL14 causes secretion of de novo synthesized CXCL8. Because of the expression of CCR3, CCR5 and CXCR4 on mast cell progenitors, these cells are susceptible to HIV infection and mast cells might therefore be a persistent HIV reservoir in AIDS. In this review, we summarize the knowledge about chemokine receptor expression and function on mast cells.
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PMID:Chemokine receptor expression by mast cells. 1610 68

Smokers with stable chronic obstructive pulmonary disease have a chronic inflammation of the entire tracheobronchial tree characterized by an increased number of macrophages and CD8 T lymphocytes in the airway wall and of neutrophils in the airway lumen. Exacerbations of chronic obstructive pulmonary disease are considered to reflect worsening of the underlying chronic inflammation of the airways, caused mainly by viral and bacterial infections and air pollution. During exacerbations, the inflammatory cellular pattern changes, with a further increase of eosinophils and/or neutrophils and various inflammatory mediators--for example, cytokines (tumor necrosis factor-alpha, RANTES [regulated upon activation normal T cell-expressed and secreted], and eotaxin-1), chemokines (CXCL5 [ENA-78], CXCL8), chemokine receptors (CCR3, CXCR1, and CXCR2), adhesion molecules (E-selectin and ICAM-1), and markers of oxidative stress (H(2)O(2) and 8-isoprostane, glutathione depletion). Worsening of inflammation is considered responsible for the deterioration of lung function and clinical status during exacerbations.
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PMID:Pathophysiology of exacerbations of chronic obstructive pulmonary disease. 1663 93

Neuro-immune interactions are increasingly relevant to human health and disease. The neuropeptide Substance P also has antibacterial activity and bears similarities to the innate immune antibacterial defensins. This suggests possible co-regulation of neuropeptide and innate immune mediators. In this study, non-bronchoscopic bronchoalveolar lavage (BAL) was performed on 69 children. BAL was examined for cellular profile, microbiology (bacteria, virus) and gene expression for TLRs 2, 3, 4; chemokine receptors (CCR3, CCR5, CXCR1); neurotrophins and neurokinin genes (TAC1, TAC3, CGRP, NGF). In children with bacterial colonization (n=10) there was an airway inflammatory response with increased BAL neutrophils, IL-8 protein, and CXCR1 expression. Substance P (TAC1) and TLR4 RNA expression were reduced in children with bacterial colonization. TLR3 mRNA was increased in 7.2% (n=5) children with rhinovirus, and there was a non-significant trend to increased TLR2. There is evidence for co-regulation of neurokinin (TAC1) and TLR4 gene expression in airway cells from children with airway bacterial colonization and their reduced expression may be associated with an impaired bacterial clearance.
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PMID:Reduced toll-like receptor 4 and substance P gene expression is associated with airway bacterial colonization in children. 1735 43

Chemokines regulate leukocyte migration during physiological and pathological conditions. They exert their biological activity through interaction with 7-transmembrane spanning G protein-coupled receptors (GPCR) and are presented on glycosaminoglycans (GAG) linked to endothelial cell layers. Specific chemokines and chemokine receptors affect angiogenesis or are targets for viral mimicry, e.g. by human immunodeficiency virus (HIV). Several enzymes, in particular proteases, have been described to process chemokines at specific sites generating chemokine isoforms that were also identified from natural sources. For some chemokines, e.g. CXCL8 and CCL3L1, posttranslational modification results in enhanced biological activity. For CXCL7 and CCL14 truncation is even mandatory for receptor signaling and chemotactic properties. The activity of many other chemokines is down-regulated by processing and receptor antagonists are generated, e.g. for truncated CCL8 and CCL11. Moreover, some processed chemokines such as CCL5(3-68) show enhanced affinity for one receptor (CCR5) and reduced interaction with other receptors (CCR1 and CCR3) resulting in differential changes in leukocyte response. These posttranslational mechanisms, in addition to gene duplication, transcriptional and translational regulation of chemokine ligand and receptor expression, GAG binding properties, expression of "silent" receptors and synergistic interaction between chemokines, modulate chemokine activity in a complex manner. This report reviews current understanding on the regulation of the chemokine network through posttranslational modification and its consequences for leukocyte migration, angiogenesis and protection against viral infection.
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PMID:Regulation of chemokine activity by posttranslational modification. 1879 69

Previous studies in our lab have identified pre-B-cell colony enhancing factor (PBEF) as a novel biomarker in acute lung injury. This study continues to elucidate the underlying molecular mechanism of PBEF in the pathogenesis of acute lung injury in pulmonary cell culture models. Our results revealed that IL-1beta induced PBEF expression in pulmonary vascular endothelial cells at the transcriptional level and a -1535 T-variant in the human PBEF gene promoter significantly attenuated its binding to an IL-1beta-induced unknown transcription factor. This may underlie the reduced expression of PBEF and thus the lower susceptibility to acute lung injury in -1535T carriers. Furthermore, overexpression of PBEF significantly augmented IL-8 secretion and mRNA expression by more than 6-fold and 2-fold in A549 cells and HPAEC, respectively. It also significantly augmented IL-1beta-mediated cell permeability by 44% in A549 cells and 65% in endothelial cells. The knockdown of PBEF expression significantly inhibited IL-1beta-stimulated IL-8 secretion and mRNA level by 60% and 70%, respectively, and the knockdown of PBEF expression also significantly attenuated IL-1beta-induced cell permeability by 29% in epithelial cells and 24% in endothelial cells. PBEF expression also affected the expression of two other inflammatory cytokines (IL-16 and CCR3 genes). These results suggest that PBEF is critically involved in pulmonary vascular and epithelial inflammation and permeability, which are hallmark features in the pathogenesis of acute lung injury. This study lends further support to our finding that PBEF is a potential new target in acute lung injury.
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PMID:Critical role of PBEF expression in pulmonary cell inflammation and permeability. 1899 92

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