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Tissue Fibroblasts (tissue + fibroblast)
Selected AbstractsMicrobial Toll-like receptor ligands differentially regulate CXCL10/IP-10 expression in fibroblasts and mononuclear leukocytes in synergy with IFN-, and provide a mechanism for enhanced synovial chemokine levels in septic arthritisEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 11 2003Paul Proost Abstract The CXC chemokine IFN-,-inducible protein-10 (IP-10/CXCL10) activates CXC chemokine receptor 3 (CXCR3) and attracts activated T cells and natural killer cells. Peripheral blood mononuclearcells (PBMC) produce low but significant amounts of IP-10/CXCL10 protein upon stimulation with double-stranded (ds) RNA, the Toll-like receptor 3 (TLR3) ligand. IFN-, is a superior IP-10/CXCL10inducer. The bacterial TLR4 and TLR2 ligands, LPS and peptidoglycan (PGN), inhibit IFN-,- or dsRNA-dependent IP-10/CXCL10 production in PBMC, whereas IL-8/CXCL8 production was enhanced. In fibroblasts a different picture emerges with IFN-, inducing moderate and dsRNA provoking strong IP-10/CXCL10 production. Furthermore, treatment of fibroblasts with IFN-, in combination with bacterial LPS or PGN results in a synergistic production of IP-10/CXCL10 and IL-8/CXCL8. The synergistic induction of IP-10/CXCL10 in fibroblasts is reflected by significantly enhanced IP-10/CXCL10 concentrations in synovial fluids of septic compared to osteoarthritis patients to reach on average higher levels than those of IL-8/CXCL8. These high amounts of IP-10/CXCL10 produced by connective tissue fibroblasts not only attract CXCR3 expressing activated Th1 cells and natural killer cells to sites of infection but may also antagonize the CCR3 dependent attraction of Th2 lymphocytes and exert CXCR3-independent, defensin-like antibacterial activity. [source] Genetic analysis of collagen-induced arthritis in rats: a polygenic model for rheumatoid arthritis predicts a common framework of cross-species inflammatory/autoimmune disease lociIMMUNOLOGICAL REVIEWS, Issue 1 2001Marie M. Griffiths Summary: Collagen-induced arthritis (CIA) is a useful model for dissecting the genetic patterns underlying susceptibility to rheumatoid arthritis (RA) and related chronic/inflammatory autoimmune diseases. CIA exhibits three phenotypes characteristic of autoimmune disease pathogenesis: abnormal levels of immune reactivity to self antigens; chronic inflammation of target organs expressing that specific autoantigen; activation and direct participation of invading mononuclear cells and resident tissue fibroblasts in organ damage. Over 25 different quantitative trait loci (QTL) regulating arthritis severity and autoantibody in rats with CIA are mapped. QTL-congenic strains show that certain CIA,QTLs can modulate arthritis independently. These monogenic models are proving to be highly informative for fine mapping and function studies, revealing gender effects and evidence of gene clusters. Recent genome scans of RA populations identified RA-susceptibility loci in chromosome regions homologous to rat chromosomal segments housing CIA,QTLs. Also, CIA,QTLs frequently co-localize with susceptibility QTLs mapped in other rat arthritis models induced with non-immunogenic adjuvant oils and/or in rat autoimmune models of multiple sclerosis and diabetes. Common autoimmunity genes and inflammation genes important to several human diseases are likely being detected in the various rat disease models. Continued dissection of the genetic underpinnings of rat arthritis models should provide candidate genes for investigation in human patients and lead to a clearer understanding of the complex genetics of RA. [source] Pathological airway remodelling in inflammationTHE CLINICAL RESPIRATORY JOURNAL, Issue 2010Gunilla Westergren-Thorsson Abstract Introduction:, Airway remodelling refers to a wide pattern of patophysiological mechanisms involving smooth muscle cell hyperplasia, increase of activated fibroblasts and myofibroblasts with deposition of extracellular matrix. In asthma, it includes alterations of the epithelial cell layer with goblet cell hyperplasia, thickening of basement membranes, peri-bronchial and peri-broncheolar fibrosis. Moreover, airway remodelling occurs not only in asthma but also in several pulmonary disorders such as chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis and systemic sclerosis. Asthma treatment with inhaled corticosteroids does not fully prevent airway remodelling and thus have restricted influence on the natural course of the disease. Objectives:, This review highlights the role of different fibroblast phenotypes and potential origins of these cells in airway remodelling. Results:, During inflammatory conditions, such as asthma, fibroblasts can differentiate into an active, more contractile phenotype termed myofibroblast, with expression of stress fibres and alpha-smooth muscle actin. The origin of myofibroblasts has lately been debated, and three sources have been identified: recruitment and differentiation of resident tissue fibroblasts; fibrocytes , circulating progenitor cells; and epithelial,mesenchymal transition. Conclusion:, It is clear that airway mesenchymal cells, including fibroblasts/myofibroblasts, are more dynamic in terms of differentiation and origin than has previously been recognised. Considering that these cells are key players in the remodelling process, it is of utmost importance to characterise specific markers for the various fibroblast phenotypes and to explore factors that drive the differentiation to develop future diagnostic and therapeutic tools for asthma patients. Please cite this paper as: Westergren-Thorsson G, Larsen K, Nihlberg K, Andersson-Sjöland A, Hallgren O, Marko-Varga G and Bjermer L. Pathological airway remodelling in inflammation. Clin Respir J 2010; 4 (Suppl. 1): 1,8. [source] Possible Role of Natural Immune Response against Altered Fibroblasts in the Development of Post-Operative AdhesionsAMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 6 2006Zeynep Alpay Problem Post-operative adhesion tissue fibroblasts (ATF) differ from normal peritoneal fibroblasts (NPF). Natural immune response participates in the elimination of altered cells. In this study, we investigated NPF and ATF expression patterns of immune response-related markers, and lymphokine-activated killer (LAK) cell-mediated fibroblast elimination in vitro. Method of study Primary cell cultures of both NPF and ATF obtained from the same four patients were used in the experiments. The expression of CD54, CD40 and CD120b, and allogeneic LAK cell-mediated ATF and NPF elimination were studied by flow cytometry. Results Average expression of CD54 in ATF was greater by 12.3-fold compared with NPF (P = 0.021), with ratios of 2.4 and 1.9-fold for CD40 (P < 0.001) and CD120b (P = 0.013), respectively. Average LAK cell-mediated fibroblast killing was 1.8 ± 0.8-fold greater in ATF over NPF (P = 0.008). Furthermore, LAK cell-mediated fibroblast elimination correlated significantly with the increased CD40, CD54 and CD120b expression (R > 0.956; P < 0.05 for each). Conclusions These results demonstrate that ATF are more susceptible to lymphocyte-mediated elimination than NPF and the development of adhesions despite this could be explained by either impaired or overwhelmed autologous natural immune response against reactive fibroblasts. [source] Human inflammatory synovial fibroblasts induce enhanced myeloid cell recruitment and angiogenesis through a hypoxia-inducible transcription factor 1,/vascular endothelial growth factor,mediated pathway in immunodeficient miceARTHRITIS & RHEUMATISM, Issue 10 2009Manuel J. del Rey Objective Hyperplasia and phenotypic changes in fibroblasts are often observed in chronic inflammatory lesions, and yet the autonomous pathogenic contribution of these changes is uncertain. The purpose of this study was to analyze the intrinsic ability of fibroblasts from chronically inflamed synovial tissue to drive cell recruitment and angiogenesis. Methods Fibroblasts from patients with rheumatoid arthritis (RA) or osteoarthritis (OA), as well as fibroblasts from healthy synovial tissue and healthy skin, were cultured and subcutaneously engrafted into immunodeficient mice. Cell infiltration and angiogenesis were analyzed in the grafts by immunohistochemical studies. The role of vascular endothelial growth factor (VEGF), CXCL12, and hypoxia-inducible transcription factor 1, (HIF-1,) in these processes was investigated using specific antagonists or small interfering RNA (siRNA),mediated down-regulation of HIF-1, in fibroblasts. Results Inflammatory (OA and RA) synovial fibroblasts, compared with healthy dermal or synovial tissue fibroblasts, induced a significant enhancement in myeloid cell infiltration and angiogenesis in immunodeficient mice. These activities were associated with increased constitutive and hypoxia-induced expression of VEGF, but not CXCL12, in inflammatory fibroblasts compared with healthy fibroblasts. VEGF and CXCL12 antagonists significantly reduced myeloid cell infiltration and angiogenesis. Furthermore, targeting of HIF-1, expression by siRNA or of HIF-1, transcriptional activity by the small molecule chetomin in RA fibroblasts significantly reduced both responses. Conclusion These results demonstrate that chronic synovial inflammation is associated with stable fibroblast changes that, under hypoxic conditions, are sufficient to induce inflammatory cell recruitment and angiogenesis, both of which are processes relevant to the perpetuation of chronic inflammation. [source] Galectin 3 induces a distinctive pattern of cytokine and chemokine production in rheumatoid synovial fibroblasts via selective signaling pathwaysARTHRITIS & RHEUMATISM, Issue 6 2009Andrew Filer Objective High expression of galectin 3 at sites of joint destruction in rheumatoid arthritis (RA) suggests that galectin 3 plays a role in RA pathogenesis. Previous studies have demonstrated the effects of galectins on immune cells, such as lymphocytes and macrophages. This study was undertaken to investigate the hypothesis that galectin 3 induces proinflammatory effects in RA by modulating the pattern of cytokine and chemokine production in synovial fibroblasts. Methods Matched samples of RA synovial and skin fibroblasts were pretreated with galectin 3 or tumor necrosis factor , (TNF,), and the levels of a panel of cytokines, chemokines, and matrix metalloproteinases (MMPs) were determined using enzyme-linked immunosorbent assays and multiplex assays. Specific inhibitors were used to dissect signaling pathways, which were confirmed by Western blotting and NF-,B activation assay. Results Galectin 3 induced secretion of interleukin-6 (IL-6), granulocyte,macrophage colony-stimulating factor, CXCL8, and MMP-3 in both synovial and skin fibroblasts. By contrast, galectin 3,induced secretion of TNF,, CCL2, CCL3, and CCL5 was significantly greater in synovial fibroblasts than in skin fibroblasts. TNF, blockade ruled out autocrine TNF,-stimulated induction of chemokines. The MAPKs p38, JNK, and ERK were necessary for IL-6 production, but phosphatidylinositol 3-kinase (PI 3-kinase) was required for selective CCL5 induction. NF-,B activation was required for production of both IL-6 and CCL5. Conclusion Our findings indicate that galectin 3 promotes proinflammatory cytokine secretion by tissue fibroblasts. However, galectin 3 induces the production of mononuclear cell,recruiting chemokines uniquely from synovial fibroblasts, but not matched skin fibroblasts, via a PI 3-kinase signaling pathway. These data provide further evidence of the role of synovial fibroblasts in regulating the pattern and persistence of the inflammatory infiltrate in RA and suggest a new and important functional consequence of the observed high expression of galectin 3 in the rheumatoid synovium. [source] | ||||||||||