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

Cell injury and inflammation caused by asbestos are critical to the pathogenesis of pulmonary fibrosis (asbestosis). Our goal in studies here was to investigate the possible modulation of asbestos-related cell death using antioxidants in both target and effector cells of asbestosis. After exposure to crocidolite asbestos at a range of concentrations (2.5-25 micrograms/cm2 dish), the viability of a normal rat lung fibroblast line (RL-82) and freshly isolated alveolar macrophages (AM) was determined by exclusion of trypan blue and nigrosin, respectively. In comparison to fibroblasts, AM were more resistant to the cytotoxic effects of asbestos. Cytotoxic concentrations of asbestos then were added to both cell types in combination with the antioxidants, superoxide dismutase (SOD), a scavenger of superoxide (O2-.), and catalase, an enzyme scavenging H2O2. Dimethylthiourea (DMTU), a scavenger of the hydroxyl radical (OH.) and deferoxamine, an iron chelator, also were evaluated in similar studies. Results showed significant dosage-dependent reduction (P less than 0.001) of asbestos-associated cell death with all agents. In contrast, asbestos-induced toxicity was not ameliorated after addition of chemically inactivated SOD and catalase or bovine serum albumin. Results above suggest asbestos-induced cell damage is mediated by active oxygen species. In this regard, the iron associated with the fiber and/or its interaction with cell membranes might be critical in driving a modified Haber-Weiss (Fenton-type) reaction resulting in production of OH(.).
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PMID:Prevention of asbestos-induced cell death in rat lung fibroblasts and alveolar macrophages by scavengers of active oxygen species. 311 71

A single endotracheal administration of bleomycin causes pulmonary fibrosis in several animal species. In view of the functional deficits in neutrophil function as a result of the beige mouse (bg/bg) mutation, its effect on bleomycin-induced pulmonary fibrosis was examined to evaluate the role of the neutrophil in such a response. Neutrophils from beige mice showed a selective defect in the ability to degranulate in response to cytochalasin B and formyl-methionyl-leucyl-phenylalanine, without impairing their ability to produce superoxide anion and H2O2 in response to the same stimuli as well as phorbol myristate acetate. Despite this functional deficit, beige mice responded more intensely to bleomycin than did their heterozygote controls at both 2 wk and 1 month after drug instillation, as assessed by both lung collagen and deposition. This suggests that the inability to mobilize hydrolytic enzymes has no effect on the ability to mount a fibrogenic response, and it would even be detrimental by enhancing such a response caused by decreased connective tissue catabolism as a consequence of the inability to release the granule enzymes to the extracellular space.
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PMID:Effect of the beige mutation on bleomycin-induced pulmonary fibrosis in mice. 618 93

The intrapulmonary instillation into rat lung of enzymes that generate oxygen metabolites results in acute lung injury. The injection of xanthine oxidase and xanthine produces acute lung injury that, in the presence of superoxide dismutase, but not in the presence of catalase, can be significantly diminished, suggesting that O2- has the capacity to injure the lung. Instillation of a generator of H2O2, namely glucose oxidase, will, in sufficient quantities, produce acute injury that is not neutrophil-dependent. When either a low dose of glucose oxidase alone or lactoperoxidase alone is employed, little lung injury occurs. However, instilling the combination of the two enzymes produces severe, acute injury that can be blocked in a dose-dependent manner by catalase, but not by superoxide dismutase. Purified human leukocytic myeloperoxidase, but not horseradish peroxidase, will substitute for lactoperoxidase in the model of lung injury. The lung damaging effects of these enzymes cannot be attributed to the presence of contaminating proteases. Acute lung injury produced by the instillation of glucose oxidase and lactoperioxidase progresses to interstitial fibrosis. These studies represent a direct application of generators of oxygen metabolites to the in vivo induction of lung injury. The data suggest that rat lung is susceptible to injury by a variety of oxygen metabolites, including O2-, H2O2 and its lactoperoxidase or myeloperoxidase-produced derivatives. The studies also indicate that lung injury produced by oxygen metabolites can result in interstitial pulmonary fibrosis.
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PMID:In vivo damage of rat lungs by oxygen metabolites. 689 54

Asbestos causes pulmonary fibrosis and various malignancies by mechanisms that remain uncertain. Reactive oxygen species in part cause asbestos toxicity. However, it is not known whether asbestos-induced free radical production causes alveolar epithelial cell (AEC) cytotoxicity by inducing DNA strand breaks (DNA-SB). We tested the hypothesis that asbestos-induced AEC injury in vitro is due to iron-catalyzed free radical generation, which in turn causes DNA-SB. We found that amosite asbestos damages cultured human pulmonary epithelial-like cells (WI-26 cells) as assessed by 51Cr release and that an iron chelator, phytic acid (500 microM), attenuates these effects. A role for iron causing these effects was supported by the observation that ferric chloride-treated phytic acid did not diminish WI-26 cell injury. Production of hydroxyl radical-like species (.OH) was assessed based upon the .OH-dependent formation of formaldehyde (HCHO) in the presence of dimethyl sulfoxide. A variety of mineral dusts induced significant levels of .OH formation (nmol HCHO at 30 min: carbonyl iron, 85 +/- 21; amosite asbestos, 14 +/- 2; chrysotile asbestos, 7 +/- 1; titanium dioxide, 2.5 +/- 0.5). Phytic acid significantly diminished the asbestos-induced .OH production. DNA damage to AEC was assessed by the alkaline unwinding, ethidium bromide fluorometric technique. Hydrogen peroxide caused dose-dependent DNA-SB in WI-26 cells after a 30-min exposure period [50% effective dose (ED50): 5 microM] that was similar to other cell lines. Amosite asbestos induced dose-dependent DNA-SB in WI-26, A549, and primary isolated rat alveolar type II cells maintained in culture for 7-10 days (alveolar type I-like). Lower doses of amosite (0.5-5 micrograms/ml or 0.25-2.5 micrograms/cm2) caused significant WI-26 cell DNA-SB after prolonged exposure periods (> or = 2 days). Phytic acid ameliorated DNA damage in all three cultured AEC. There was a direct correlation between mineral dust-induced .OH production at 30 min and DNA-SB in WI-26 cells at 4 h (P < 0.0005). These data suggest that mineral dusts can be directly genotoxic to relevant target cells of asbestos, AEC. Furthermore, these results provide additional support for the premise that iron-catalyzed free radicals mediate asbestos-induced pulmonary toxicity.
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PMID:Asbestos causes DNA strand breaks in cultured pulmonary epithelial cells: role of iron-catalyzed free radicals. 790 Aug 29

Synthesis of heat shock proteins (HSPs) is induced in all cells and tissues after exposure to elevated temperatures, or a variety of other types of injury, including oxidative injury. We have previously reported that stress proteins are induced in monocytes-macrophages during phagocytosis of red blood cells. Receptor-mediated phagocytosis is associated with activation of the respiratory burst, generation of the lipid mediators of inflammation, and increased production of cytokines. Similar activation events have been described in the alveolar macrophage (AM) during pulmonary fibrosis. We therefore analysed the pattern of proteins synthesized by human AMs recovered by bronchoalveolar lavage (BAL) in interstitial lung disease, both under basal conditions and after in vitro exposure to heat or hydrogen peroxide (H2O2). In two out of the 17 cases studied, we observed a high alveolar eosinophilia (10 and 24%, respectively) and phagocytosis, by the AMs, of eosinophilic material. Whereas exposure to heat or H2O2 induced in all AMs the synthesis of the classical HSPs, in these two cases, we found spontaneous synthesis of HSPs and of a 32 kD oxidation-specific stress protein, haeme oxygenase (HO). Exposure of AM to purified eosinophil-derived proteins, such as major basic protein (MBP), eosinophil peroxidase (EPO), eosinophil-derived neurotoxin (EDN), alone or in combination, did not induce stress protein synthesis, further suggesting that phagocytosis is involved in this induction. Stress protein synthesis by AMs may represent a new cellular marker of pulmonary injury and eosinophilic inflammation, and an autoprotective mechanism against oxidative stress.
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PMID:Spontaneous heat shock protein synthesis by alveolar macrophages in interstitial lung disease associated with phagocytosis of eosinophils. 849 Dec 97

Lazaroids (21-amino steroids) are believed to be powerful scavengers of reactive oxygen species (ROS) and inhibitors of lipid peroxidation. Crystalline silica, a potent cytotoxic agent, causes pulmonary fibrosis in experimental animals and humans. ROS have been previously shown to be involved in crystalline silica-induced pulmonary injury and inflammation. In the present study, the reaction rate of lazaroid (U-75412E) with hydroxyl radical (.OH) generated by Fenton reaction (Fe(II) + H2O2 --> Fe(III) + OH- + .OH) was investigated using ESR spin-trapping competition reactions. The reaction rate constant was found to be 1.0 x 10(10) M(-1)s(-1), which was comparable with those of other efficient .OH radical scavengers. As indicators of crystalline silica-induced cytotoxicity and its protection by this antioxidant lazaroid (U-75412E) we measured lactate dehydrogenase, N-acetyl-beta-glucosaminidase, superoxide dismutase, glutathione peroxidase, and hydrogen peroxide released from rat alveolar macrophages. Lipid peroxidation, a prominent manifestation of .OH radical-induced cell injury, was also measured to evaluate the protective value of lazaroid. Alveolar macrophages treated with lazaroid (U-75412E) before crystalline silica exposure were protected against cell injury and lipid peroxidation as demonstrated by those indicators. Lazaroid (U-75412E) scavenges .OH radicals generated by crystalline silica-mediated reaction from H2O2 and inhibits lipid peroxidation in macrophages induced by these particles.
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PMID:Antioxidant activity of lazaroid (U-75412E) and its protective effects against crystalline silica-induced cytotoxicity. 955 64

Reactive oxygen species (ROS) play an important role in the pathogenesis of many human diseases, including the acute respiratory distress syndrome, Parkinson's disease, pulmonary fibrosis, and Alzheimer's disease. In mammalian cells, several genes known to be induced during the immediate early response to growth factors, including the protooncogenes c-fos and c-myc, have also been shown to be induced by ROS. We show that members of the STAT family of transcription factors, including STAT1 and STAT3, are activated in fibroblasts and A-431 carcinoma cells in response to H2O2. This activation occurs within 5 min, can be inhibited by antioxidants, and does not require protein synthesis. STAT activation in these cell lines is oxidant specific and does not occur in response to superoxide- or nitric oxide-generating stimuli. Buthionine sulfoximine, which depletes intracellular glutathione, also activates the STAT pathway. Moreover, H2O2 stimulates the activity of the known STAT kinases JAK2 and TYK2. Activation of STATs by platelet-derived growth factor (PDGF) is significantly inhibited by N-acetyl-L-cysteine and diphenylene iodonium, indicating that ROS production contributes to STAT activation in response to PDGF. These findings indicate that the JAK-STAT pathway responds to intracellular ROS and that PDGF uses ROS as a second messenger to regulate STAT activation.
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PMID:Activation of the JAK-STAT pathway by reactive oxygen species. 984 26

Pirfenidone is a newly developed antifibrotic drug that has been reported to retard the progression of pulmonary fibrosis induced by bleomycin and cyclophosphamide in animal models of lung fibrosis. The present in vitro studies using noncellular and cellular systems evaluated the antioxidant and cytotoxic properties of this drug. The Fenton reaction [Fe(II) + H2O2 --> Fe(III) + *OH + OH-] and the xanthine/xanthine oxidase system were used as sources of hydroxyl (*OH) and superoxide anion (O2*-) radicals, respectively. Electron spin resonance spin trapping was used for free radical detection and measurement. The reaction rate of pirfenidone with *OH was found to be 1.63 x 10(10) M(-1) s(-1), which is comparable to several well-established antioxidants, such as ascorbate, glutathione, cysteine, azide, and lipoic acid. Compared to *OH radicals, the O2*- scavenging was less efficient 42.36 M(-1) s(-1) with pirfenidone. Pirfenidone was also effective in inhibiting zymosan-stimulated chemiluminescence. In a noncellular model of lipid peroxidation, pirfenidone inhibited crystalline silica-induced lipid peroxidation. The inhibition of crystalline silica-induced cytotoxic reactions and lipid peroxidation combined with the efficient antioxidant properties of pirfenidone indicate that this agent may express its antifibrotic effects partly through its ability to scavenge reactive oxygen species.
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PMID:Effects of pirfenidone on the generation of reactive oxygen species in vitro. 1528 Dec 29

Agricultural workers are exposed to a variety of airborne dusts, including crystalline silica and other inorganic minerals. This study was designed to characterize the organic and inorganic components of agricultural dusts in California grape- and citrus-farm fields and to compare their cytotoxicity using in vitro toxicity bioassays as predictors of pathogenicity. Aerosolized dusts collected from farm fields were characterized by scanning-electron-microscopic energy-dispersive x-ray analysis, x-ray diffraction, trace metal analysis by plasma emission spectroscopy, and surface area measurements. As indicators of cytotoxicity, cell viability, release of alveolar enzymes activities (lactate dehydrogenase, N-acetyl glucosaminidase), production of reactive oxygen species (ROS), such as H2O2 and hydroxyl radical (OH), and lipid peroxidation were monitored after exposure of cells to grape- and citrus-farm dusts or inorganic components of these dusts. In addition, activation of nuclear factor kappa B and activator protein-1 were evaluated at the peak time for response of 36 h postexposure. All toxicity studies were done in comparison with crystalline silica of similar particle size and diameter using the same mass concentrations as farm dusts. The results showed that inorganic minerals in the aerosolized farm dust fractions were mostly composed of aluminum silicates, crystalline silica, and free iron. Crystalline silica used in these studies was more cytotoxic than grape- and citrus-farm dusts. However, in general, citrus farm dust exhibited the greatest ability to generate ROS and induce lipid peroxidation. These results support human epidemiologic studies, reporting an increased incidence of pulmonary fibrosis in farm workers, by documenting the potential of farm dusts to induce oxidative stress and initiate disease development.
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PMID:Comparative in vitro toxicity of grape- and citrus-farm dusts. 1736 69

Cigarette smoke toxicants are well known for their debilitating effects on lungs. Cigarette smoke toxicities cause various respiratory disorders including pulmonary emphysema, chronic obstructive pulmonary disease (COPD), pulmonary fibrosis and cancer. Farnesol, an isoprenoid, is known to possess anti-inflammatory and chemopreventive properties. In this study we report the protective efficacy of farnesol against massive lung inflammation, oxidative stress and consequent injuries caused by cigarette smoke toxicants. Farnesol was administered by gavage (50 and 100 mg/kg b.wt. in corn oil) one time daily for 7 days. On day 7 lung injuries were induced by intratracheal instillation of aqueous cigarette smoke extract (CSE). LDH, total cell count, total protein, phospholipid content and MDA formation were measured in bronchoalveolar lavage fluid (BALF). In lung tissue H2O2 content, reduced glutathione (GSH), glutathione reductase (GR), glutathione peroxidase (GPx) and catalase activities were evaluated. Prophylactic treatment with farnesol significantly shows lung protection by lowering the levels of LDH, total cell count, total protein and MDA in BALF. Farnesol maintained the phospholipid content of BALF in a positive manner. In lung tissue it positively modulated the CSE altered activities of GR, GPx and catalase. There was a marked increase in GSH content and decrease in H2O2 content of lung tissue by farnesol administration. Histopathological findings correlate with cellular and biochemical parameters of the lungs and potentiate the protective role of farnesol against CSE induced lung inflammation and injuries. These results suggest a potent role of farnesol in protection of lung against cigarette smoke toxicants induced lung injuries.
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PMID:Farnesol ameliorates massive inflammation, oxidative stress and lung injury induced by intratracheal instillation of cigarette smoke extract in rats: an initial step in lung chemoprevention. 1879 22


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