UMLS:C0034069 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

We studied the role of macrophages in the process of pulmonary fibrosis, focusing on gene expressions of cytokines. TGF-alpha is a factor which stimulates fibroblasts or endothelial cells to proliferate, by combining to receptors of EGF competitively with EGF in vitro. Total RNA was extracted from alveolar macrophages recovered by bronchoalveolar lavage from patients with idiopathic pulmonary fibrosis or normal healthy volunteers, and the expression of TGF-alpha mRNA was evaluated by Northern analysis. There was no detectable TGF-alpha mRNA in alveolar macrophages from normal healthy volunteers; however, in patients with idiopathic pulmonary fibrosis, a considerable level of mRNA of TGF-alpha could be detected. Using an experimental rat model of alveolitis induced by bleomycin, the expression of TNF-alpha mRNA in alveolar macrophages recovered by BAL was evaluated by Northern analysis. Alveolar macrophages from bleomycin-treated rats expressed a significant level of TNF-alpha mRNA. Both TGF-alpha and TNF-alpha have proliferative activity on fibroblasts, and may have an important role in the process of fibrosis of the lung.
...
PMID:[Cytokine gene expression in interstitial lung diseases]. 143 13

Increased production of EGF or TGF-alpha by the respiratory epithelial cells has been associated with the pathogenesis of various forms of lung injury. Growth factors and cytokines are thought to act locally, via paracrine and autocrine mechanisms, to stimulate cell proliferation and matrix deposition by interstitial lung cells resulting in pulmonary fibrosis. To test whether TGF-alpha mediates pulmonary fibrotic responses, we have generated transgenic mice expressing human TGF-alpha under control of regulatory regions of the human surfactant protein C (SP-C) gene. Human TGF-alpha mRNA was expressed in pulmonary epithelial cells in the lungs of the transgenic mice. Adult mice bearing the SP-C-TGF-alpha transgene developed severe pulmonary fibrosis. Fibrotic lesions were observed in peribronchial, peribronchiolar, and perivascular regions, as well as subjacent to pleural surfaces. Lesions consisted of fibrous tissue that included groups of epithelial cells expressing endogenous SP-C mRNA, consistent with their identification as distal respiratory epithelial cells. Peripheral fibrotic regions consisted of thickened pleura associated with extensive collagen deposition. Alveolar architecture was disrupted in the transgenic mice with loss of alveoli in the lung parenchyma. Pulmonary epithelial cell expression of TGF-alpha in transgenic mice disrupts alveolar morphogenesis and produces fibrotic lesions mediated by paracrine signaling between respiratory epithelial and interstitial cells of the lung.
...
PMID:Respiratory epithelial cell expression of human transforming growth factor-alpha induces lung fibrosis in transgenic mice. 816 70

In the past several years, significant progress in many aspects of pulmonary fibrosis research has been made. Among them, the finding that a variety of cytokines play important roles in the complex process appears most intriguing. These cytokines include at least transforming growth factor-beta (TGF-beta), tumor necrosis factor-alpha (TNF-alpha), platelet-derived growth factor, fibroblast growth factors, (TGF-alpha), interleukin-1, monocyte chemoattractant protein-1 and macrophage inflammatory protein-1 alpha. These cytokines have been demonstrated to be produced at the sites of active fibrosis where they appear to be expressed by activated inflammatory cells, such as macrophages and eosinophils. More interestingly, other noninflammatory lung cells including mesenchymal cells, such as myofibroblasts, and epithelial cells, have been found to be significant sources as well, albeit in most instances at somewhat different time points than those by inflammatory cells. Study of the individual cytokines in vitro has revealed a variety of potential roles for these cytokines in the regulation of the fibrotic process in vivo, including chemoattractant, mitogenic activities for fibroblasts, stimulation of extracellular matrix and alpha-smooth muscle actin gene expression, alteration of the contractile phenotype of fibroblasts and regulation of diverse functions of lung inflammatory and epithelial cells which can further impact on the fibrotic process by autocrine and paracrine mechanisms. Of these cytokines, it appears that TGF-beta is probably the most important cytokine in terms of the direct stimulation of lung matrix expression which typifies fibrosis. Recently however, there is accumulating evidence to indicate that the situation is much more complex than any one single cytokine being solely responsible for the fibrotic response. The concept of complex lung cytokine networks, orchestrated by a few key cytokines, such as TNF-alpha, being responsible for this response has received strong support from recent studies. This means that it is the balance of positive (profibrogenic) and negative (antifibrogenic) forces generated from interaction among the various cytokines constituting these networks, which may finally determine the outcome of lung injury and inflammation. The importance of these cytokines also suggests new potential targets for designing new therapies for progressive pulmonary fibrosis, and perhaps their utility in prognostication as well.
...
PMID:Cytokines and pulmonary fibrosis. 889 Nov 99

Growth factors are known not only to cause a mitogenic response and alter differentiated characteristics of the target cells, but also to play important roles in intercellular signaling. Many growth factors are expressed in the embryonic and regulate embryogenesis. Pulmonary fibrosis is characterized by a complex process involving chronic inflammatory reaction, fibroblast proliferation, and abnormal deposition of interstitial collagen as a result of excess healing reaction. In the early phases, TNF-alpha, IL-beta and GM-CSF secreted by alveolar macrophages regulate and enhance pulmonary inflammation. On the contrary, TGF-alpha, KGF and HGF have been reported to enhance repair of alveolar epithelium and vascular endothelium in the injured lung. Furthermore, growth factors produced by alveolar macrophages and epithelium, such as PDGF, TGF-beta and activin A and belongs to the TGF-beta supergene family are known to play cardinal roles in fibroblast proliferation and pulmonary fibrosis. Further works concerning this complex growth factors (cytokines) network are required to provide a basis of the pathophysiology of pulmonary fibrosis.
...
PMID:[Growth factors in the process of inflammation and fibrosis in the lung]. 974 56

Inhalation of numerous fibrogenic agents causes interstitial pulmonary fibrosis (IPF) in humans and in a number of animal models. Several of these models provide evidence that certain peptide growth factors (GF) are playing a role in the disease process. Transforming growth factor beta 1 (TGF-beta1) is a potent inducer of extracellular matrix production by mesenchymal cells, and we have shown that this peptide is produced in the lung after asbestos exposure. We used in situ hybridization to demonstrate that the mRNA for TGF-beta1 is rapidly expressed post-exposure at sites of initial asbestos-induced lung injury in both rats and mice. The TGF-beta1 is expressed by bronchiolar-alveolar epithelial cells as well as by mesenchymal cells and lung macrophages in exposed animals. Normal rats and mice express little TGF-beta1, as we have demonstrated previously for PDGF-A and -B, TGF-alpha, and TNF-alpha. TGF-beta1 expression is accompanied by collagen and fibronectin production in asbestos-exposed animals. Most interesting, TGF-beta1 expression is largely absent in the lungs of TNF-alpha receptor knockout mice that fail to develop asbestos-induced IPE We have shown previously that the mRNAs and cognate peptides of PDGF-A and -B and TGF-alpha, but not TNF-alpha, are reduced in the fibrosis-resistant knockout mice. In this article, we show that TGF-beta1 is included in this group of cytokines, supporting the postulate that TNF-alpha is necessary for the expression of other, more downstream growth factors, and the consequent development of idiopathic pulmonary fibrosis (IPF).
...
PMID:Increased TGF-beta1 in the lungs of asbestos-exposed rats and mice: reduced expression in TNF-alpha receptor knockout mice. 1139 17

Increased transforming growth factor (TGF)-alpha has been observed in neonatal chronic lung disease. Lungs of transgenic mice that overexpress TGF-alpha develop enlarged air spaces and pulmonary fibrosis compared with wild-type mice. We hypothesized that these pathological changes may alter the mechanical coupling of viscous and elastic forces within lung parenchyma. Respiratory impedance was measured in open-chested, tracheostomized adult wild-type and TGF-alpha mice by using the forced oscillation technique (0.25-19.63 Hz) delivered by flexiVent (Scireq, Montreal, PQ). Estimates of airway resistance (Raw), inertance (I), and the coefficients of tissue damping (G(L)) and tissue elastance (H(L)) were obtained by fitting a model to each impedance spectrum. Hysteresivity (eta) was calculated as G(L)/H(L). There was a significant increase in eta (P < 0.01) and a trend to a decrease in H(L) (P = 0.07) of TGF-alpha mice compared with the wild-type group. There was no significant change in Raw, I, or G(L). Structural abnormality present in the lungs of adult TGF-alpha mice alters viscoelastic coupling of the tissues, as evidenced by a change in eta.
...
PMID:Overexpression of TGF-alpha increases lung tissue hysteresivity in transgenic mice. 1171 40

To determine whether overexpression of transforming growth factor (TGF)-alpha in the adult lung causes remodeling independently of developmental influences, we generated conditional transgenic mice expressing TGF-alpha in the epithelium under control of the doxycycline (Dox)-regulatable Clara cell secretory protein promoter. Two transgenic lines were generated, and following 4 days of Dox-induction TGF-alpha levels in whole lung homogenate were increased 13- to 18-fold above nontransgenic levels. After TGF-alpha induction, transgenic mice developed progressive pulmonary fibrosis and body weight loss, with mice losing 15% of their weight after 6 wk of TGF-alpha induction. Fibrosis was detected within 4 days of TGF-alpha induction and developed initially in the perivascular, peribronchial, and pleural regions but later extended into the interstitium. Fibrotic regions were composed of increased collagen and cellular proliferation and were adjacent to airway and alveolar epithelial sites of TGF-alpha expression. Fibrosis progressed in the absence of inflammatory cell infiltrates as determined by histology, without changes in bronchiolar alveolar lavage total or differential cell counts and without changes in proinflammatory cytokines TNF-alpha or IL-6. Active TGF-beta in whole lung homogenate was not altered 1 and 4 days after TGF-alpha induction, and immunostaining was not increased in the peribronchial/perivascular areas at all time points. Chronic epithelial expression of TGF-alpha in adult mice caused progressive pulmonary fibrosis associated with increased collagen and extracellular matrix deposition and increased cellular proliferation. Induction of pulmonary fibrosis by TGF-alpha was independent of inflammation or early activation of TGF-beta.
...
PMID:Conditional expression of transforming growth factor-alpha in adult mouse lung causes pulmonary fibrosis. 1466 Apr 83

Clinical studies have associated increased transforming growth factor (TGF)-alpha and EGF receptor with lung remodeling in diseases including bronchopulmonary dysplasia (BPD). BPD is characterized by disrupted alveolar and vascular morphogenesis, inflammation, and remodeling. To determine whether transient increases in TGF-alpha are sufficient to disrupt postnatal lung morphogenesis, we utilized neonatal transgenic mice conditionally expressing TGF-alpha. Expression of TGF-alpha from postnatal days 3 to 5 disrupted postnatal alveologenesis, causing permanent enlargement of distal air spaces in neonatal and adult mice. Lung volume-to-body weight ratios and lung compliance were increased in adult TGF-alpha transgenic mice, whereas tissue and airway elastance were reduced. Elastin fibers in the alveolar septae were fragmented and disorganized. Pulmonary vascular morphogenesis was abnormal in TGF-alpha mice, with attenuated and occasionally tortuous arterial branching. The ratios of right ventricle weight to left ventricle plus septal weight were increased in TGF-alpha mice, indicating pulmonary hypertension. Electron microscopy showed gaps in the capillary endothelium and extravasation of erythrocytes into the alveolar space of TGF-alpha mice. Hemorrhage and inflammatory cells were seen in distal air spaces at 1 mo of age. In adult TGF-alpha mice, alveolar remodeling, nodules, proteinaceous deposits, and inflammatory cells were seen. Immunostaining for pro-surfactant protein C showed that type II cells were abundant in the nodules, as well as neutrophils and macrophages. Trichrome staining showed that pulmonary fibrosis was minimal, apart from areas of nodular remodeling in adult TGF-alpha mice. Transient induction of TGF-alpha during early alveologenesis permanently disrupted lung structure and function and caused chronic lung disease.
...
PMID:Transient induction of TGF-alpha disrupts lung morphogenesis, causing pulmonary disease in adulthood. 1535 62

Transforming growth factor (TGF)-alpha and its receptor, the epidermal growth factor receptor, are induced after lung injury and are associated with remodeling in chronic pulmonary diseases, such as pulmonary fibrosis and asthma. Expression of TGF-alpha in the lungs of adult mice causes fibrosis, pleural thickening, and pulmonary hypertension, in addition to increased expression of a transcription factor, early growth response-1 (Egr-1). Egr-1 was increased in airway smooth muscle (ASM) and the vascular adventitia in the lungs of mice conditionally expressing TGF-alpha in airway epithelium (Clara cell secretory protein-rtTA(+/-)/[tetO](7)-TGF-alpha(+/-)). The goal of this study was to determine the role of Egr-1 in TGF-alpha-induced lung disease. To accomplish this, TGF-alpha-transgenic mice were crossed to Egr-1 knockout (Egr-1(ko/ko)) mice. The lack of Egr-1 markedly increased the severity of TGF-alpha-induced pulmonary disease, dramatically enhancing airway muscularization, increasing pulmonary fibrosis, and causing greater airway hyperresponsiveness to methacholine. Smooth muscle hyperplasia, not hypertrophy, caused the ASM thickening in the absence of Egr-1. No detectable increases in pulmonary inflammation were found. In addition to the airway remodeling disease, vascular remodeling and pulmonary hypertension were also more severe in Egr-1(ko/ko) mice. Thus, Egr-1 acts to suppress epidermal growth factor receptor-mediated airway and vascular muscularization, fibrosis, and airway hyperresponsiveness in the absence of inflammation. This provides a unique model to study the processes causing pulmonary fibrosis and ASM thickening without the complicating effects of inflammation.
...
PMID:Early growth response-1 suppresses epidermal growth factor receptor-mediated airway hyperresponsiveness and lung remodeling in mice. 1918 57

Transforming growth factor (TGF)-alpha is a ligand for the epidermal growth factor receptor (EGFR). EGFR activation is associated with fibroproliferative processes in human lung disease and animal models of pulmonary fibrosis. Overexpression of TGF-alpha in transgenic mice causes progressive and severe pulmonary fibrosis; however, the intracellular signaling pathways downstream of EGFR mediating this response are unknown. Using a doxycycline-regulatable transgenic mouse model of lung-specific TGF-alpha expression, we observed increased PCNA protein and phosphorylation of Akt and p70S6K in whole lung homogenates in association with induction of TGF-alpha. Induction in the lung of TGF-alpha caused progressive pulmonary fibrosis over a 7-week period. Daily administration of rapamycin prevented accumulation of total lung collagen, weight loss, and changes in pulmonary mechanics. Treatment of mice with rapamycin 4 weeks after the induction of TGF-alpha prevented additional weight loss, increases in total collagen, and changes in pulmonary mechanics. Rapamycin prevented further increases in established pulmonary fibrosis induced by EGFR activation. This study demonstrates that mammalian target of rapamycin (mTOR) is a major effector of EGFR-induced pulmonary fibrosis, providing support for further studies to determine the role of mTOR in the pathogenesis and treatment of pulmonary fibrosis.
...
PMID:Rapamycin prevents transforming growth factor-alpha-induced pulmonary fibrosis. 1924 1

1 2 Next >>