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)

The DNA-cleaving, antitumor antibiotic bleomycin (BLM) causes pulmonary fibrosis, but the essential early events initiating the fibrotic state have not been well characterized. Thus, we have directly examined BLM-mediated pulmonary cell injury by monitoring lactate dehydrogenase (LDH) release and nuclear poly(ADP-ribose) polymerase (PAP) activity, which is stimulated by DNA breakage, using lung slices isolated from BLM-sensitive (C57B1/6) and BLM-resistant (BALB/c) mice. Lung slices were incubated continuously with or without the PAP inhibitor, 3-aminobenzamide (3-AB), and exposed to BLM for 45 min. LDH release from C57B1/6 lung slices increased 2-fold by 8.5 h after treatment with BLM. In contrast, BLM failed to enhance cumulative LDH release by BALB/c mouse lung slices. Co-incubation of C57B1/6 lung slices with 3-AB prevented BLM-induced LDH release. Nuclear PAP was activated 3- to 4-fold 1.25 h after exposure of C57B1/6 lung slices to BLM but returned to control levels by 3.75 h. Nuclear PAP was only marginally affected at these times in BALB/c lung slices. Co-incubation of C57B1/6 slices with 3-AB prevented the early increases in PAP activity. These results demonstrate that murine strain sensitivity to acute cell injury and early PAP activation by BLM in lung slices parallels the in vivo sensitivity of lungs. In addition, 3-AB suppresses PAP activation and acute cell injury in lung slices. Differential activation of PAP appears to govern murine strain variation in response to BLM and is consistent with the hypothesis that activation of PAP participates in acute pneumocyte injury, initiating the process of BLM-induced fibrosis.
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PMID:Murine strain differences in acute lung injury and activation of poly(ADP-ribose) polymerase by in vitro exposure of lung slices to bleomycin. 128 Apr 51

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

Analysis of bronchoalveolar lavage fluid (BAL) is an effective method of detecting an inflammatory response in the lungs of animals in toxicological studies. Alterations in BAL that are the most sensitive indications of an inflammatory response are an increased content of serum proteins and an influx of neutrophils (PMNs). Elevation of the cytoplasmic enzyme lactate dehydrogenase (LDH) is a useful indicator of cytotoxicity. The pulmonary inflammatory response to particles (either mineral dusts or soot) in the lung includes greatly increased activities of such lysosomal enzymes as beta-glucuronidase and beta-N-acetylglucosaminidase in BAL. Examination of alterations in BAL in rats and mice during chronic exposure to high levels of diluted diesel exhaust revealed that steadily increasing levels of LDH, beta-glucuronidase, and hydroxyproline in BAL correlated better with the development of pulmonary fibrosis than did measures of an inflammatory response (protein, PMNs). Analysis of BAL has proven useful, both for detection of lung injury in toxicological screening tests and for determination of the mechanisms of developing chronic lung disease. Future work shows promise of developing assays for BAL analysis to identify the specific site or type of pulmonary injury present.
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PMID:New approaches for the evaluation of pulmonary toxicity: bronchoalveolar lavage fluid analysis. 389 79

Paraquat (PQ) is a herbicide known to generate O2 radicals and to injure lung epithelial cells, leading eventually to pulmonary fibrosis. To test for the possible existence of a direct cytotoxic action of PQ on endothelial cells, we have studied, for up to 5 days, the action of 10(-6) to 10(-4) M PQ on primary cultures of pig aortic endothelial cells and compared these effects to those obtained with exposure to 95% O2-5% CO2. The decrease in DNA and protein content of Petri dishes and the increase in lactate dehydrogenase release were found to depend on PQ concentration and the duration of exposure to PQ. The toxic effects of hyperoxia were intermediate, ranging between those obtained with 10(-5) and 10(-4) M PQ. Hyperoxia and 10(-4) M PQ produced a similar marked inhibition of DNA synthesis after a 1-day period of exposure. Combined exposure to both PQ and hyperoxia resulted in changes comparable to those obtained with hyperoxia alone (decrease in protein and DNA content) or PQ alone (lactate dehydrogenase release). Additive effects were seen only for the inhibition of DNA synthesis. The selenomethionine-related increase in glutathione peroxidase activity had a protective effect against hyperoxia-induced lactate dehydrogenase release but not against PQ induced cytolysis. Finally, shorter exposures to O2 and PQ revealed the existence of a trend toward recovery only for cells exposed to hyperoxia. The prolonged toxic action of PQ could not be related to PQ accumulation and storage by endothelial cells. These studies indicate that PQ can exert a direct, dose-dependent, and prolonged cytotoxic effect on cultured endothelial cells.
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PMID:Direct toxic effects of paraquat and oxygen on cultured endothelial cells. 396 1

In 14 beagle dogs, paraquat was infused in fractional doses to produce pulmonary fibrosis while avoiding fatal liver and kidney lesions. Activity of the three enzymes of the pentose pathway: glucose-6-phosphate dehydrogenase (G-6-PDH), glutathione reductase (GR) and glutathione peroxidase (GSH Px), which supply reduced equivalents against oxidant agents, were measured in the mediastinal lobe of the lung. After a single low dose (2-3 mg/kg body weight), GR and GSH Px activities were reduced. After repeated paraquat doses, pentose pathway enzyme activities were higher than after a single low dose; however, they did not significantly exceed the normal values as determined in control dogs. The activities of G-6-PDH, GR and GSH Px correlated with the total paraquat dose and with the extent of pulmonary fibrosis measured with an electronic image analyzer. The activity of pulmonary lactate dehydrogenase, which was also reduced after a single low dose of paraquat, did not show the same correlations.
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PMID:Pentose pathway in pulmonary fibrosis due to chronic paraquat poisoning. 744 87

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

Medical records of five patients with scleroderma (SSc), each of whom had pericardial effusion with an estimated volume of more than 200 ml, were reviewed to study the clinical and immunological significance of massive pericardial effusion in SSc. Diffuse SSc (4/5), with a wide area of pigmentation (4/5), flexion contracture (4/5), oesophageal hypomotility (5/5), pulmonary fibrosis (4/5) and autoantibodies to topoisomerase I (3/5) were the common features in this group. High protein, lactate dehydrogenase and low white blood cell count were the characteristics of pericardial fluid. None of the patients had signs of acute pericarditis. Four of the five cases died within 9 months of the diagnosis of pericarditis; two with renal failure, one with cardiac tamponade and another with sudden death. The pericarditis in diffuse SSc, especially in cases with anti-topoisomerase I, may be characterized by a chronic form of pericarditis with poor prognosis, often complicated by renal failure.
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PMID:Massive pericardial effusion in scleroderma: a review of five cases. 876 Dec 3

Asbestos causes the fibrotic lung disease asbestosis, but the biologic basis for this is unknown. Lung epithelial dysfunction including increased permeability is hypothesized to contribute to lung scarring in other forms of pulmonary fibrosis. Lung epithelial permeability is increased in both animals and humans exposed to asbestos. It is not known whether the increased epithelial permeability results from direct effects of asbestos or occurs as a result of the inflammatory reaction to asbestos fibers. To address this question we used a cultured human lung epithelial model, and we measured the direct effect of asbestos on lung epithelial barrier integrity as measured by mannitol permeability. We exposed the monolayer to chryogenically ground, respirable-sized chrysotile asbestos particles. This chrysotile asbestos caused a dose- and time-dependent increase in mannitol permeability across the epithelial monolayer. Increased mannitol permeability occurred both in the presence and in the absence of serum, was not due to cytotoxicity as measured by lactate dehydrogenase release, and was not associated with altered actin cytoskeleton at the light microscopic level. Permeability to 70 kDa neutral dextran also increased after asbestos exposure; however, the absolute permeability to dextran was less than mannitol permeability. Neither latex beads nor tantalum caused any change in permeability, suggesting that our findings are not explained by nonspecific effects of particles. Increased permeability did not reverse in the continued presence of asbestos and persisted even after removing the asbestos. Finally, surface-bound iron did not appear to be necessary for this effect because neither chelating iron with deferoxamine nor iron-loading the asbestos altered the effect on mannitol permeability. These results show that asbestos has direct effects on lung epithelial permeability. Together with the recent observation that asbestos directly increases epithelial fibrinolytic activity, our results suggest a novel mechanism for asbestos-induced lung injury.
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PMID:Asbestos directly increases lung epithelial permeability. 769 46

Cyclophosphamide (CYC) is a metabolically activated, DNA-alkylating, antitumor agent that causes pulmonary fibrosis. BALB/cN (B) mice are sensitive and C57Bl/6N (C) mice are resistant to CYC-induced fibrosis. Pulmonary bioactivation may contribute to strain sensitivity. Therefore, we tested the intrinsic susceptibility of murine lung slices to cell injury by direct exposure to CYC for 2-8 hr. Injury was measured by release of lactate dehydrogenase (LDH). DNA damage activates the nuclear enzyme poly(ADP-ribose) polymerase (PAP, EC 2.4.2.30), causing depletion of its substrate, NAD. NAD can also be decreased by phosphorylation to NADP, as seen with oxidative stress. Depletion of NAD can lead to loss of ATP. Thus, we measured LDH release, PAP activation, NAD, NADP and ATP in slices incubated with or without the PAP-inhibitor, 3-aminobenzamide (3-AB). CYC (0.1 to 1.0 mg/mL for 4-8 hr) caused LDH release in slices from both murine strains, but LDH release was significantly greater in B lung slices than in C slices. After an 8-hr incubation 63.9 +/- 3.7% (mean +/- SEM) of total LDH was released from B lung slices with 1.0 mg CYC/mL, whereas only 45.8 +/- 2.6% was released from C lung slices (P < 0.05). 3-AB reduced LDH release to 44.7 +/- 2.4% in B slices and 28.1 +/- 2.0% in C slices (P < 0.05 vs CYC only). PAP activity in nuclei isolated from CYC-treated B lung slices was increased 2- to 4-fold after 2 hr of incubation with 0.5 and 1.0 mg CYC/mL. PAP activation was delayed and reduced with incubation in 3-AB. PAP was activated 2-fold in nuclei from C slices treated with 0.5 mg CYC/mL for 2 hr. NAD was decreased at 2 and 4 hr in B slices treated with 0.5 and 1.0 mg CYC/mL, and at 4 hr with 0.1 mg CYC/mL. NAD depletion occurred only at 4 hr in the resistant C slices treated with 1.0 mg CYC/mL. CYC increased NADP by a similar extent in B and C lung slices. In B slices, NAD losses were approximately 4 times the increases in NADP. CYC did not decrease ATP in B slices and ATP dropped 25% only after 4 hr in the resistant C slices. We conclude that CYC is directly toxic to lung tissue and observe that strain sensitivity in vitro mirrors the sensitivity to fibrosis in vivo. PAP activation and oxidative stress may contribute to this toxicity.
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PMID:Acute pneumocyte injury, poly(ADP-ribose) polymerase activity, and pyridine nucleotide levels after in vitro exposure of murine lung slices to cyclophosphamide. 798 Jun 45

The angiotensin converting enzyme (ACE) inhibitor captopril, a free-thiol compound used widely as an antihypertensive agent, also inhibits radiation-induced pulmonary fibrosis in rats (Ward et al., Int J Radiat Oncol Biol Phys 19:1405, 1990). In an attempt to clarify the antifibrotic mechanism of captopril in vivo, the present study examined the effect of the drug on proliferation of human lung fibroblasts in culture. Captopril produced a drug dose-dependent reduction in fibroblast proliferation and 3H-thymidine incorporation during a 24-72-hr incubation. This cytostatic action of captopril was not the result of cytotoxicity as assessed by trypan blue exclusion, or by 51Cr or lactate dehydrogenase (LDH) release. Fibroblasts stimulated to proliferate by basic FGF were more sensitive to the antimitotic effect of captopril than were unstimulated cells. The ability of captopril to inhibit 3H-thymidine incorporation was not reversed by exogenous angiotensin 2, and was not mimicked by the nonthiol ACE inhibitor lisinopril. These data indicate that the cytostatic effect of captopril was not attributable to ACE inhibition. Penicillamine, a thiol compound with virtually no ACE inhibitory activity, also reduced fibroblast 3H-thymidine incorporation, indicating that the antimitotic action of captopril may represent a nonspecific sulfhydryl effect. This study suggests that the antifibrotic activity of captopril in irradiated lung may result in part from a direct inhibition of fibroblast proliferation, particularly in fibroblasts responding to mitogenic stimuli.
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PMID:Captopril inhibits proliferation of human lung fibroblasts in culture: a potential antifibrotic mechanism. 811 54


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