UMLS:C0034069 - FACTA Search

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Query: UMLS:C0034069 (pulmonary fibrosis)
7,050 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After the first description of the myofibroblast in granulation tissue of an open wound by means of electron microscopy, as an intermediate cell between the fibroblast and the smooth muscle cell, the myofibroblast has been identified both in normal tissues, particularly in locations where there is a necessity of mechanical force development, and in pathological tissues, in relation with hypertrophic scarring, fibromatoses and fibrocontractive diseases as well as in the stroma reaction to epithelial tumors. It is now accepted that fibroblast/myofibroblast transition begins with the appearance of the protomyofibroblast, whose stress fibers contain only beta- and gamma-cytoplasmic actins and evolves, but not necessarily always, into the appearance of the differentiated myofibroblast, the most common variant of this cell, with stress fibers containing alpha-smooth muscle actin. Myofibroblast differentiation is a complex process, regulated by at least a cytokine (the transforming growth factor-beta1), an extracellular matrix component (the ED-A splice variant of cellular fibronectin), as well as the presence of mechanical tension. The myofibroblast is a key cell for the connective tissue remodeling that takes place during wound healing and fibrosis development. On this basis, the myofibroblast may represent a new important target for improving the evolution of such diseases as hypertrophic scars, and liver, kidney or pulmonary fibrosis.
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PMID:Tissue repair, contraction, and the myofibroblast. 1565 31

Pulmonary fibrosis is characterized by a loss of lung epithelial cells, replaced by interstitial myofibroblasts to deposit extracellular matrix (ECM) proteins. Previous studies demonstrated that hepatocyte growth factor (HGF) improved lung fibrosis in murine models, whereas molecular mechanisms whereby HGF improved lung fibrosis have yet to be fully understood. When MRC-5 human lung fibroblasts were treated with transforming growth factor-beta1, the cells underwent phenotypic change similar to myofibroblasts and this was associated with up-regulation of c-Met/HGF receptor expression. For the myofibroblast-like cells, HGF increased activities of MMP-2/-9, predominant enzymes for breakdown of fibronectin (FN). Under such conditions, HGF induced caspase-dependent apoptosis, linked with a decrease in a FN central cell binding (CCB) domain involved in FAK phosphorylation. When MMI270 (a broad-spectrum MMP inhibitor) was added together with HGF, decreases in FN-CCB domain expression and FAK phosphorylation by HGF were restored, and these events were associated with an inhibition of HGF-induced apoptosis, suggesting that increased activities of MMPs underlie the major mechanism of HGF-mediated apoptosis in myofibroblasts. In bleomycin-treated mice, c-Met expression was found on interstitial myofibroblasts and HGF increased apoptosis in culture of myofibroblasts isolated from bleomycin-treated murine lungs. Furthermore, administration of recombinant HGF to bleomycin-treated mice increased lung MMP activities and enhanced myofibroblast apoptosis, while in vivo MMI270 injections together with HGF inhibited such MMP activation, leading to suppressed myofibroblast apoptosis. In conclusion, we identified HGF as a key ligand to elicit myofibroblast apoptosis and ECM degradation, whereas activation of the HGF/c-Met system in fibrotic lungs may be considered a target to attenuate progression of chronic lung disorders.
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PMID:HGF reduces advancing lung fibrosis in mice: a potential role for MMP-dependent myofibroblast apoptosis. 1566 32

Integrin signaling plays a critical role in many aspects of normal growth, differentiation, and injury response. In the adult, alpha8beta1 is expressed in alveolar myofibroblasts and is upregulated in pulmonary fibrosis and other models of organ injury. Following injury, survival of fibronectin-producing myofibroblasts cells is an important determinant of development of fibrosis. Using stable alpha8-transfected cell lines, we show that interactions of alpha8beta1 with its ligand, fibronectin, promote cell survival during serum deprivation. Multiple cell signaling pathways were activated following fibronectin adhesion, including PI3 kinase and MAP kinase. However, the alpha8-mediated cell survival was blocked by LY294002, a PI3 kinase inhibitor, but not by staurosporine, a PKC inhibitor, or PD98059, a MAPK kinase inhibitor. A dominant negative construct of PI3 kinase also inhibited alpha8-mediated cell survival. Therefore, alpha8-mediated survival appears to be mediated by the PI3 kinase pathway. Survival of alpha8-expressing myofibroblasts may contribute to persistent fibrosis following injury.
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PMID:Integrin alpha8beta1-fibronectin interactions promote cell survival via PI3 kinase pathway. 1572 7

Lung carcinoma often occurs in patients with chronic lung disease such as tobacco-related emphysema and asbestos-related pulmonary fibrosis. These diseases are characterized by dramatic alterations in the content and composition of the lung extracellular matrix, and we believe this "altered" matrix has the ability to promote lung carcinoma cell growth. One extracellular matrix molecule shown to be altered in these lung diseases is fibronectin (Fn). We previously reported increased growth and survival of non-small cell lung carcinoma (NSCLC) cells exposed to Fn. Thus Fn may serve as a mitogen/survival factor for NSCLC and therefore represents a novel target for anti-cancer strategies. To this end, we studied the effects of the PPARgamma ligands 15d-PGJ(2), rosiglitazone (BRL49653), and troglitazone on Fn expression in NSCLC cells and found that they were able to inhibit Fn gene transcription. Inhibition of Fn expression by BRL49653 and troglitazone, but not by 15d-PGJ(2), was prevented by the specific PPARgamma antagonist GW-9662 and by PPARgamma small interfering RNA. Working with Fn deletion and mutated promoter constructs, we found that the region between -170 and -50 bp downstream from the transcriptional start site of the promoter was involved in PPARgamma ligand inhibition. PPARgamma ligands also diminished the phosphorylation of CREB, diminished Sp1 nuclear protein expression, and prevented the binding of these transcription factors to CRE and Sp1 sites, respectively, within the Fn promoter. In summary, our results demonstrate that PPARgamma ligands inhibit Fn gene expression in NSCLC cells through PPARgamma-dependent and -independent pathways that affect both CREB and Sp1.
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PMID:Peroxisome proliferator-activated receptor-gamma ligands suppress fibronectin gene expression in human lung carcinoma cells: involvement of both CRE and Sp1. 1590 79

Interleukin-1beta (IL-1beta) mediates destruction of matrix collagens in diverse inflammatory diseases including arthritis, periodontitis, and pulmonary fibrosis by activating fibroblasts, cells that interact with matrix proteins through integrin-based adhesions. In vitro, IL-1beta signaling is modulated by focal adhesions, supramolecular protein complexes that are enriched with tyrosine kinases and phosphatases. We assessed the importance of tyrosine phosphatases in regulating cell-matrix interactions and IL-1beta signaling. In human gingival fibroblasts plated on fibronectin, IL-1beta enhanced the maturation of focal adhesions as defined by morphology and enrichment with paxillin and alpha-actinin. IL-1beta also induced activation of ERK and recruitment of phospho-ERK to focal complexes/adhesions. Treatment with the potent tyrosine phosphatase inhibitor pervanadate, in the absence of IL-1beta, recapitulated many of these responses indicating the importance of tyrosine phosphatases. Immunoblotting of collagen bead-associated complexes revealed that the tyrosine phosphatase, SHP-2, was also enriched in focal complexes/adhesions. Depletion of SHP-2 by siRNA or by homologous recombination markedly altered IL-1beta-induced ERK activation and maturation of focal adhesions. IL-1beta-induced tyrosine phosphorylation of SHP-2 on residue Y542 promoted focal adhesion maturation. Association of Gab1 with SHP-2 in focal adhesions correlated temporally with activation of ERK and was abrogated in cells expressing mutant (Y542F) SHP-2. We conclude that IL-1beta mediated maturation of focal adhesions is dependent on tyrosine phosphorylation of SHP-2 at Y542, leading to recruitment of Gab1, a process that may influence the downstream activation of ERK.
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PMID:Tyrosine phosphatase SHP-2 regulates IL-1 signaling in fibroblasts through focal adhesions. 1625 12

The etiology of idiopathic pulmonary fibrosis (IPF) is unknown. Because viral pathogenesis of IPF has been suggested, we have established a murine model of progressive pulmonary fibrosis by infecting IFN-gammaR-deficient mice (IFN-gammaR(-/-)) with the murine gamma-herpesvirus 68. Because alveolar macrophages in humans with IPF have been implicated in driving the profibrotic response, we studied their role in our model. Chronic herpesvirus infection of the lung was associated with recruitment of alveolar macrophages to areas with epithelial hyperplasia and fibrosis in infected lungs. Using immunohistochemistry, Western blot, and RT-PCR techniques, we demonstrated that recruited alveolar macrophages showed high levels of expression of the proteins Ym1/2, FIZZ1 (found in inflammatory zone 1), insulin-like growth factor-1, and arginase I, and also active transcription of fibronectin, indicative of activation of macrophages by an alternative pathway. Arginase I expression was also evident in interstitial fibroblasts, and increased arginase activity was found in lungs of infected animals. Lung tissue from patients with IPF showed increased expression of arginase I in epithelial cells, fibroblast foci, and alveolar macrophages compared with normal lung. These results suggest that virus-induced upregulation of arginase I could be a mechanism driving lung fibrogenesis.
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PMID:Activation of alveolar macrophages via the alternative pathway in herpesvirus-induced lung fibrosis. 1670 58

Mechanisms leading to fibroblast accumulation during pulmonary fibrogenesis remain unclear. Although there is in vitro evidence of lung alveolar epithelial-to-mesenchymal transition (EMT), whether EMT occurs within the lung is currently unknown. Biopsies from fibrotic human lungs demonstrate epithelial cells with mesenchymal features, suggesting EMT. To more definitively test the capacity of alveolar epithelial cells for EMT, mice expressing beta-galactosidase (beta-gal) exclusively in lung epithelial cells were generated, and their fates were followed in an established model of pulmonary fibrosis, overexpression of active TGF-beta1. beta-gal-positive cells expressing mesenchymal markers accumulated within 3 weeks of in vivo TGF-beta1 expression. The increase in vimentin-positive cells within injured lungs was nearly all beta-gal-positive, indicating epithelial cells as the main source of mesenchymal expansion in this model. Ex vivo, primary alveolar epithelial cells cultured on provisional matrix components, fibronectin or fibrin, undergo robust EMT via integrin-dependent activation of endogenous latent TGF-beta1. In contrast, primary cells cultured on laminin/collagen mixtures do not activate the TGF-beta1 pathway and, if exposed to active TGF-beta1, undergo apoptosis rather than EMT. These data reveal alveolar epithelial cells as progenitors for fibroblasts in vivo and implicate the provisional extracellular matrix as a key regulator of epithelial transdifferentiation during fibrogenesis.
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PMID:Alveolar epithelial cell mesenchymal transition develops in vivo during pulmonary fibrosis and is regulated by the extracellular matrix. 1692 2

Fibrocytes were first described over a decade ago as a population of cells in circulation with fibroblast-like properties, which were involved in tissue repair. Since that time, we have learned a significant amount about these bone marrow-derived cells, which contribute to wound healing and fibrosis. Fibrocytes express leukocyte markers such as CD34, CD45, and CD13 and also express mesenchymal markers such as pro-collagens I and III, vimentin, and fibronectin. In addition, they have been shown to express the chemokine receptors CXCR4 and CCR7, which appear to be important in cellular trafficking from the vascular to the extravascular compartment. Fibrocytes have been shown to contribute to a number of fibrotic disorders, and here, we review their involvement in lung diseases including pulmonary fibrosis, asthma, and vascular remodeling.
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PMID:Fibrocytes in lung disease. 1755 Sep 74

Transforming growth factor beta (TGF-beta) contributes to the progression of pulmonary fibrosis through up-regulation of alpha-smooth muscle actin (alpha-SMA) as lung myofibroblast differentiation. Bioactive sphingosine 1-phosphate (S1P) has been shown to mimic TGF-beta signals; however, the function of S1P in lung fibrotic process has not been well documented. We found, in a mouse model of bleomycin lung fibrosis, that SPHK1 and alpha-SMA were colocalized within lung fibrotic foci and that these expressions were significantly increased in primary cultured fibroblasts. Using human lung fibroblasts WI-38, we explored the rationale of sphingosine kinase (SPHK) with TGF-beta1 stimulation. SPHK inhibitors and small interference RNA (siRNA) targeted SPHK1 decreased alpha-SMA and fibronectin expression up-regulated by TGF-beta1. In the meantime, SPHK1 inhibition did not affect smad2 phosphorylation in response to TGF-beta1. Then we examined whether S1P receptors transactivation may affect TGF-beta signals. siRNA against S1P(2) and S1P(3), but not S1P(1), reduced alpha-SMA expression as well as Y-27632, Rho kinase inhibitor. We also detected activation of Rho GTPase upon stimulation of TGF-beta1 on the cell membrane where S1P(2) or S1P(3) was overexpressed. These data suggested that SPHK1 activation by TGF-beta1 leads to Rho-associated myofibroblasts differentiation mediated by transactivated S1P receptors in the lung fibrogenic process.
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PMID:Sphingosine kinase 1 regulates differentiation of human and mouse lung fibroblasts mediated by TGF-beta1. 1764 Dec 98

Pulmonary fibrosis is a phenotype that results from a variety of conditions and is associated with significant morbidity and mortality. Ongoing research in the field is driven by the need for effective treatments for pulmonary fibrosis. In this review, we highlight mechanisms that regulate gene expression in pulmonary fibrosis at multiple levels. Potential pathogenic mechanisms involve genetic background and transcriptional, posttranscriptional, translational, posttranslational, and epigenetic mechanisms. Pulmonary fibrosis results from abnormal gene expression and regulation that arise from a combination of inherited/acquired genetic alterations and environmental triggers. Collectively, these alterations result in increased expression of extracellular matrix components such as collagen and fibronectin and in the observed fibrosis. Insights gained from mechanisms identified to induce and/or perpetuate fibrosis in the lung will yield new targets for the development of more effective therapies.
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PMID:Gene expression in pulmonary fibrosis. 1819 85

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