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

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

Rats were exposed to saline or cadmium chloride (CdCl2) at 25, 100, or 400 micrograms/kg body weight by intratracheal instillation. At 3, 7, 14, and 28 days after exposure five animals/treatment were euthanized, the lungs were lavaged, and bronchoalveolar lavage fluid (BALF) was analyzed for lactate dehydrogenase (LDH), total protein, N-acetylglucosamindase (NAG), and cell number, type, and viability. Lung hydroxyproline concentration was characterized as a marker of lung collagen. Alveolar macrophages (AM) obtained in BALF were cultured and the release of fibronectin and TNF was determined. Lung tissue was examined microscopically at 28 and 90 days after exposure. Exposure to CdCl2 resulted in lung injury and inflammation demonstrated by increases in BALF LDH, total protein, NAG, and inflammatory cells. AM TNF release was not significantly changed by CdCl2 treatment. All doses of CdCl2 stimulated AM fibronectin secretion, a response which persisted throughout the 28-day postexposure period examined. Pulmonary fibrosis was demonstrated biochemically and/or histologically (trichrome staining tissue) at all CdCl2 dose levels. The association of CdCl2-induced AM fibronectin release with lung fibrosis confirms and extends previous observations relating AM-derived fibronectin to the development of interstitial lung disease and provides further evidence that the persistent increase in AM fibronectin release represents an early indicator of fibrosis.
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PMID:Stimulation of rat alveolar macrophage fibronectin release in a cadmium chloride model of lung injury and fibrosis. 152 50

A major role of TNF in pulmonary fibrosis is supported by the following evidences obtained from pulmonary fibrosis induced in mice by bleomycin or silica particles; 1) these diseases are associated with a marked and lasting increase of the TNF mRNA within the lung, 2) they can be prevented by a treatment with anti TNF antibody or aggravated by a perfusion of mouse recombinant TNF, 3) an infusion of TNF-alpha can reproduce the alterations observed during pulmonary fibrosis such as growth of fibroblasts, collagen deposition, cell necrosis.
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PMID:Is "tumor necrosis factor" the major effector of pulmonary fibrosis? 171 90

Prolonged asbestos and silica inhalation is associated with pulmonary inflammation and fibrosis. Several studies suggest that TNF may play a role in the development of inflammation and fibrosis. We studied TNF production in a murine model of asbestosis and silicosis. Asbestos fibers caused a significant inflammatory response at two weeks and pulmonary fibrosis beginning at one month. Pulmonary inflammation was principally caused by an accumulation of neutrophils (0.88 x 10(5) neutrophils/compared to 0.05 x 10(5) in controls). TNF production by bronchoalveolar cells was higher in asbestos-instilled mice at two weeks, but was significantly diminished in older mice. Pulmonary inflammation was observed until six months in silica-instilled mice. Neutrophils were also the principal protagonists of the inflammation. In this group, severe fibrosis was observed at two weeks. TNF production in silica-instilled mice was similar to controls, possibly due to the presence of large numbers of neutrophils (3.3 x 10(5)/lavage) that could adsorb TNF. In vitro experiments showed an augmentation of TNF production by bronchoalveolar cells in the presence of silica. Taken together, our data suggest that asbestos and silica stimulate alveolar macrophages to produce TNF, which can be involved in pulmonary inflammation and fibrosis.
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PMID:Pulmonary inflammation and fibrosis in a murine model of asbestosis and silicosis. Possible role of tumor necrosis factor. 275 23

Interstitial pneumonia has been reported to be a side effect of treatment with interferon, and Sho-saiko-to (Xiao-Chai-Hu-Tang) may enhance this side effect. It is well known that activated neutrophils are important mediators of pulmonary fibrosis, so we studied the effects of interferon and Sho-saiko-to on neutrophil activation. Homogenized lung myeloperoxidase (MPO) activity was assayed after intraperitoneal injection of interferon with or without pretreatment with Sho-saiko-to. Although Sho-saiko-to alone did not change the lung MPO content, MPO in the lung was significantly increased by interferon administration. The increase was enhanced further by pretreatment with Sho-saiko-to. When the accumulated neutrophils are activated by some cytokines, such as TNF alpha or IL-1 beta from monocytes/macrophages, they may damage lung tissue. We therefore studied the effects of Sho-saiko-to and interferon on TNF alpha production in freshly isolated human monocytes. Sho-saiko-to increased the production of TNF alpha, but interferon did not. In addition, Sho-saiko-to significantly increased the production of TNF alpha by monocytes stimulated by lipopolysaccharide. Taken together, these data indicate that interferon causes neutrophils to accumulate in the lung. Sho-saiko-to alone may not injure lung tissue, but it increases the effect of interferon. When stimulated by some antigen, Sho-saiko-to may overstimulate the neutrophils. Granulocytes elastase and oxygen radicals released from activated neutrophils may damage lung tissue. The fibroblasts that repair the damaged tissue may increase the risk of pulmonary fibrosis.
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PMID:[A possible mechanism of interstitial pneumonia during interferon therapy with sho-saiko-to]. 754 Jun 98

The present study was undertaken to further define the role of alveolar macrophages (AM) in the pulmonary response to crocidolite fibers. Briefly, groups of 4 male F344 rats were intratracheally instilled with saline or saline suspensions of crocidolite at 2 or 20 mg/kg body weight. Animals were sacrificed 3, 7, 14, and 28 d after exposure and the lung response was characterized by analysis of bronchoalveolar lavage fluid (BALF) for markers of lung injury and inflammation. AM obtained in BALF were cultured and their production of the pro-inflammatory cytokines, tumor necrosis factor alpha (TNF alpha), and interleukin-1 (IL-1) were characterized along with fibronectin, a protein known to stimulate fibroblast migration and proliferation. Lung hydroxyproline content was determined 28 d after exposure and lung histopathology was characterized on d 28 and 90 after exposure. Crocidolite instillation resulted in transient dose-related pulmonary inflammation as evidenced by increased numbers of BALF neutrophils at the low dose and neutrophils, macrophages, and lymphocytes at the high dose. Cytotoxicity and increased permeability were demonstrated by increased levels of BALF lactate dehydrogenase (LDH) and total protein, respectively. AM TNF alpha and IL-1 production were increased only at the high crocidolite dose. This cytokine response was greatest at d 3 and decreased thereafter. AM TNF alpha and IL-1 release were positively correlated with the increased BALF neutrophils. In contrast to TNF alpha and IL-1, AM fibronectin release was increased at both the low and high doses, with the magnitude of response increasing over time. Consistent with previous acute asbestos inhalation studies, histopathology revealed inflammation localized at the level of the terminal bronchioles and alveolar ducts. Fibrosis was demonstrated at both doses by increased trichrome staining of lung tissue sections. Only the high dose resulted in a detectable increase in lung hydroxyproline. Given the bioactivities of TNF alpha, IL-1, and fibronectin, their increased production after crocidolite exposure indicates they contribute to the pulmonary inflammation and fibrosis occurring with this mineral fiber. In addition, the correlation of increased AM TNF alpha and IL-1 production with increased BALF neutrophils supports a role for these cytokines in crocidolite-induced inflammatory cell recruitment. Lastly, association of a persistent increase in AM fibronectin production with an eventual increase in lung collagen deposition extends the growing database indicating this response is a predictive marker of pulmonary fibrosis.
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PMID:Alveolar macrophage cytokine and growth factor production in a rat model of crocidolite-induced pulmonary inflammation and fibrosis. 756 15

Pulmonary fibrosis corresponds to an accumulation of collagens and other proteins of the extracellular matrix in the interstitium and alveoli. Biochemical and cellular mechanisms of pulmonary fibrogenesis remain poorly understood. The cells of the alveolitis (macrophages, lymphocytes and neutrophils) play a key role in producing the factors which regulate the proliferation, chemotactism and secretory activity of the fibroblasts. Amongst these factors the cytokines (interleukins, interferons and growth factors) play a definite but very complex role. Certain cytokines stimulate in vitro the attraction and activation of cells of the alveolitis, as well as the multiplication, migration and secretory activity of fibroblasts. The following cytokines are involved: tumour necrosis factor alpha: (TNF alpha), interleukin 1 (IL-1), interleukin 6 (IL-6) interleukin 8 (IL-8) transforming growth factor beta (TGF beta), platelet derived growth factor (PDGF), insulin like growth factor 1 (IGF-1), fibronectin, monocyte chemotactic protein 1: (MCP-1). Other cytokines, principally the interferons (of alpha, beta or gamma type: IFN alpha, IFN beta, IFN gamma) inhibit in vitro and in vivo the proliferation and the production of collagen by fibroblasts. During the course of human pulmonary fibrosis or in experimental situations, the majority of the cytokines mentioned above are produced in excess in the lung. Without doubt they play an important role in the pathogenesis of fibrosis, even if it is not yet very well known how they interact and contribute in vitro to the process of fibrogenesis. Certain cytokines potentially regulating in the fibrosis are yet to be identified. In the future the use of cytokines and of their inhibitors will perhaps provide new therapies in pulmonary fibrosis.
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PMID:[Cytokines and pulmonary fibroses]. 768 79

The role of alveolar and interstitial macrophages in asbestos-induced pulmonary fibrosis is discussed. Asbestosis is thought to result from a series of cellular interaction involving the pulmonary macrophages and lung fibroblasts. Inhaled asbestos fibres activate serum complement-dependent chemoattractant for macrophages which accumulate at alveolar duct bifurcations playing a central role in phagocytosis fibers and forming early pulmonary lesions. After phagocytic stimulation macrophages release various chemotactic factors for neutrophils and other inflammatory cells including TNF, neutrophil chemotactic factor and many proinflammatory mediators such as prostaglandins, leukotrienes, thromboxane. Apart from that, macrophages produce free radical oxygen and release lysosome enzymes which may cause lung tissue injury. There is also concomitant accumulation of fibroblasts proliferating in response to macrophages-derived growth factors, interleukin-1 and fibronectin. As a result of those processes collagen production increase and pulmonary fibrosis develops.
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PMID:[The role of pulmonary macrophages in the development of pulmonary fibrosis caused by asbestos]. 796 4

Studies have indicated that soluble products, including chemotactic factors, released by activated lung macrophages and fibroblasts are critical mediators in the pathogenesis of asbestos-induced pulmonary fibrosis. We provide evidence that mediators produced by lung epithelial cells in response to asbestos may also contribute to lung disease. In the present study, the carcinogenic and fibrogenic fibers, chrysotile and crocidolite asbestos, were shown to directly stimulate the human pulmonary type-II epithelial cell line, A549, and to a lesser degree primary human bronchial epithelial cells, to elicit the chemotactic cytokine IL-8 in the absence of endogenous stimuli such as IL-1 and TNF. That the membrane signaling events responsible for asbestos-induced IL-8 production are distinct from those responsible for IL-8 induction by cytokines was confirmed by using membrane-stabilizing agents and protein synthesis inhibitors. Stimulation was not observed with nonfibrogenic fibers, wollastonite and titanium dioxide, and was the direct result of asbestos-induced initiation of transcription. Asbestos failed to stimulate the release of TNF, IL-1 beta, or monocyte chemoattractant protein-1 in A549 or primary bronchial epithelial cells, indicating that cytokine secretion by asbestos is highly selective. However, a slight release of IL-1 alpha, probably preformed, was released in human bronchial epithelial cells. These data suggest that epithelial cells may, in addition to macrophages and fibroblasts, be an important effector cell in the immunopathogenesis of asbestos-associated diseases and in particular, in the neutrophilic infiltration that is commonly observed after asbestos exposure.
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PMID:Asbestos stimulates IL-8 production from human lung epithelial cells. 808 96

Tetrandrine, an herbal drug, has been employed in China to treat pulmonary fibrosis. To date, the mechanisms governing the antifibrotic action of tetrandrine are unknown. The present study employs a fibroblast mitogenic assay to determine whether tetrandrine directly inhibits the ability of fibroblasts to respond to stimulation by growth factors. The data indicate that tetrandrine blocks proliferation and the incorporation of tritiated thymidine into DNA by fibroblasts stimulated with human serum, PDGF plus plasma, FGF plus plasma, or TNF plus plasma. Since tetrandrine inhibits the response to a variety of growth factors, its action does not appear to involve the blockade of a specific stimulatory receptor. Tetrandrine is effective in inhibiting thymidine incorporation when added up to 6 hr after stimulation of quiescent cells, suggesting either that tetrandrine does not block the attainment of competence by fibroblasts or that its activity is not limited to blocking the attainment of competence by these cells. Growth factor-induced mitogenesis is also inhibited by nitrendipine, a calcium channel blocker, and by cytochalasin B, a microfilament blocker. However, tetrandrine treatment of fibroblasts neither results in the changes of morphology seen with cytochalasin B nor is limited to the early events of stimulus-response coupling. Therefore, the mechanism of action for tetrandrine is not identical to that for either cytochalasin B or nitrendipine. In summary, these results suggest that the antifibrotic action of tetrandrine may be mediated in part by direct inhibition of fibroblast proliferation normally associated with the development and progression of silicosis.
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PMID:Inhibition of proliferative activity of pulmonary fibroblasts by tetrandrine. 810 60

Paraquat (PQ) is a herbicide which is highly pneumotoxic by generating reactive oxygen intermediates (ROI). Pro-inflammatory cytokines, particularly IL-1 and TNF, have been implicated in some ROI-mediated pathologies, including bleomycin toxicity and ischaemia/reperfusion injury. We have studied the effect of PQ on the expression of the neutrophil chemotactic cytokine, IL-8, by human peripheral blood mononuclear cells (PBMC). While almost no IL-8 mRNA was detected in unstimulated cells, PQ (100 microM) induced high mRNA expression with a maximum at 24 h of incubation. While PQ did stimulate the appearance of IL-8 mRNA, no significant production of IL-8 protein was detected. However, PQ potentiated the production of IL-8 in the presence of 1 ng/ml of endotoxin (lipopolysaccharide, LPS). This was paralleled by an increased production of chemotactic activity for neutrophils, indicating that the IL-8 was actually bioactive. Stimulation of IL-8 mRNA by PQ was suppressed by IL-4 and by free radical scavengers (dimethylsulfoxide, mannitol). Increased IL-8 expression by PQ was also observed in the human pulmonary epithelial cell line A549 indicating that the effect of PQ was not specific for PBMC. These findings suggest that IL-8 might be involved in the pulmonary effects of PQ and that its production might be stimulated following an oxidative insult, and might clarify the pathogenetic mechanisms of adult respiratory distress syndrome (ARDS) or oxidant-induced pulmonary fibrosis.
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PMID:The pneumotoxicant paraquat induces IL-8 mRNA in human mononuclear cells and pulmonary epithelial cells. 814 10


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