Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0034067 (emphysema)
 11,506 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elastolytic enzymes and active oxygen species derived from leukocytes and alveolar macrophages during exposure to tobacco smoke, together with active oxygen species directly derived from tobacco smoke, are thought to play a crucial role in the pathogenesis of pulmonary emphysema by inactivating alpha 1 protease inhibitor (alpha 1 PI), a novel anti-elastase. We studied the inhibitory effect of probucol, an oral hypocholesterolemic agent, on tobacco smoke-induced decrease in plasma anti-elastase activity (EIA) and ferroxidase activity (FA) in conscious venous catheter instrumented rats. Rats exposed to the smoke of 5 cigarettes (nicotine 11 mg, tar 115 mg) in a plastic chamber showed a prompt increase in plasma COHb to 17.9 +/- 2.7%, and a prompt decrease in plasma EIA by -17.9% (p less than 0.05) and FA by -14.8% (p less than 0.01), which lasted for 6 hours after exposure. Rats administered probucol (1% probucol in food) for 3 days showed normal cholesterol plasma levels, and rats administered probucol for 4 weeks showed hypocholesterolemic plasma levels. EIA and FA were not depressed after smoking, and lipid peroxide product (TBA reactive substance) in lung tissue (p less than 0.05) and serum (p less than 0.1) showed a smaller increase in association with a smaller decrease in the ratio of lung tissue GSH/GSSG (p less than 0.01) compared with control rats. These results indicate that probucol, via its antioxidant action rather than its cholesterol lowering effect, has a protective effect on lung exposed to tobacco smoke in terms of protease-antiprotease balance and oxidant-antioxidant balance.
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PMID:[Probucol inhibits tobacco smoke-induced decrease in plasma anti-elastase activity and ferroxidase activity in rats]. 140 72

Adult male albino rats, maintained on normal or protein deficient diets from weanling, were exposed to repeated doses of MIC vapour (0.32 mg/L for 8 min for 5 consecutive days) under static conditions. Histopathology and the activities of alkaline and acid phosphatases and GSH content of lung were studied upto day 14 after exposure. Mild but repeated exposures of MIC vapour caused severe pulmonary lesions like denudation of bronchiolar epithelial lining tissue, cellular infiltration, edema, emphysema followed by hyperplasia, hypertrophy, fibrosis and intraluminal fibroplasia. The activities of alkaline and acid phosphatases were increased at earlier intervals while GSH content decreased significantly and remained low throughout the experimental duration. Protein deficiency was found to aggravate the toxic potentials of MIC in present condition.
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PMID:Histobiochemical changes in lung of protein deficient rats following repeated exposures of MIC vapour. 781 83

In inflammatory lung disorders, oxidants and proteases complement each other in their potential to destroy lung parenchyma. It is therefore rational to combine therapeutic strategies aimed at augmenting the antiproteolytic defenses of the lung in diseases such as emphysema with antioxidant strategies. In the healthy lung, the oxidant burden is balanced by the local antioxidant defenses. However, both an increased oxidant burden and/or decreased antioxidant defenses may reverse the physiologic oxidant-antioxidant balance in favor of oxidants, leading to lung injury. This concept points to an obvious therapeutic strategy: augmentation of the antioxidant screen of the lung to prevent oxidant-mediated tissue damage. Studies using reduced glutathione (GSH), the major pulmonary antioxidant, as a model therapeutic agent demonstrated that GSH can be administered directly to the respiratory epithelial surface by aerosol and is fully functional as an antioxidant both in vitro and in vivo. In pulmonary diseases such as idiopathic pulmonary fibrosis or following HIV infection, GSH aerosol therapy not only normalized deficient pretherapy GSH levels in the lung, but was capable of favorably influencing cellular events such as oxidant release by pulmonary inflammatory cells. The same was true for oral antioxidant therapy with N-acetylcysteine, a glutathione precursor. These results suggest that it is possible to use antioxidants to reverse the imbalance between oxidants and antioxidants at the site of oxidant injury to prevent the progressive tissue damage in lung disorders characterized by high oxidant states. Antioxidants, alone and in combination with antiproteases, merit further long-term studies for clinical therapy.
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PMID:Oxidant-protease interaction in the lung. Prospects for antioxidant therapy. 898 63

Chronic obstructive pulmonary disease (COPD) is often characterized by an impaired skeletal muscle energy metabolism, which is at least partly related to chronic hypoxia and a reduced diffusing capacity. We have found that muscle glutamate (Glu), which is negatively influenced by these conditions, was reduced in patients with severe COPD. The aim of this study was to investigate whether the reduced intracellular Glu level in patients with emphysema is associated with an increased muscle glycolytic metabolism. Since Glu is an important substrate in the synthesis of glutamine (Gln) and glutathione (GSH), the influence of Glu status on muscle GSH and Gln was also examined. In 13 patients with emphysema and 25 control patients, arterial blood and biopsies from the vastus lateralis muscle were obtained. Expressed as a percentage of the control values, the patients with emphysema had reduced values for muscle Glu (64 +/- 12%; p < 0.001), GSH (76 +/- 23%; p < 0.01), and Gln (93 +/- 5%; p < 0.01), and higher values for lactate (p < 0.01) and pyruvate (p < 0.05). No differences were found in plasma values. Muscle Glu was highly associated with GSH (R(2) = 0.61; p < 0.001), but not with Gln. This study illustrates that reduced Glu levels in skeletal muscle of patients with emphysema are possibly related to an enhanced glycolytic activity and associated with decreased GSH levels.
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PMID:Altered glutamate metabolism is associated with reduced muscle glutathione levels in patients with emphysema. 1061 4

Loading of skeletal muscles is associated with increased generation of oxidants, which in turn may impair muscle contractility. We investigated whether the load on the hamster diaphragm imposed by pulmonary emphysema induces oxidative stress, as indicated by glutathione oxidation, and whether the degree of glutathione oxidation is correlated with contractility of the diaphragm. In addition, the effect of 12 wk of treadmill exercise training on contractility and glutathione content in the normal (NH) and emphysematous hamster (EH) diaphragm was investigated. Training started 6 mo after elastase instillation. After the training period, glutathione content and in vitro contractility of the diaphragm were determined. Twitch force and maximal tetanic force were significantly reduced (by approximately 30 and approximately 15%, respectively) in EH compared with NH. In sedentary hamsters, the GSSG-to-GSH ratio was significantly elevated in the EH compared with the NH diaphragm. A significant inverse correlation was found between GSSG-to-GSH ratio and twitch force in the diaphragm (P < 0. 01). Training improved maximal tetanic force and reduced fatigability of the EH diaphragm but did not alter its glutathione content. In conclusion, 1) emphysema induces oxidative stress in the diaphragm, 2) training improves the contractile properties of the EH diaphragm, and 3) this improvement is not accompanied by changes in glutathione redox status.
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PMID:Effects of emphysema and training on glutathione oxidation in the hamster diaphragm. 1084 18

Cigarette smoke, the major risk factor for the development of emphysema, contains over 4,700 chemical compounds, including free radicals and other oxidants (10(14)/puff). An imbalance between oxidants and antioxidants has been proposed in the pathogenesis of chronic obstructive pulmonary disease. Inhibition of repair processes has been suggested to be one pathway contributing to the development of emphysema. We hypothesized that cigarette smoke inhibition of repair might result from a shift of the oxidant/antioxidant balance in favor of oxidants. To evaluate this hypothesis, N-acetyl-L-cysteine (NAC), which serves as a substrate for glutathione (GSH) production, and buthionine sulfoximine (BSO), which inhibits GSH production, were incubated in the presence and absence of cigarette smoke extract (CSE) with fibroblasts in three-dimensional collagen gels. Neither agent alone altered gel contraction. CSE inhibition of gel contraction, however, was mitigated by NAC and potentiated by BSO. Parallel effects were observed on cigarette smoke inhibition of fibronectin production and mRNA expression as well as by changes in intracellular GSH content. Pretreatment of fibroblasts with NAC or BSO resulted in similar effects, suggesting that neither agent was acting directly on smoke but, rather, was altering cellular response to smoke. In conclusion, smoke inhibition of fibroblast repair, as reflected by collagen gel contraction and fibronectin production, may be modulated by intracellular GSH levels.
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PMID:Glutathione prevents inhibition of fibroblast-mediated collagen gel contraction by cigarette smoke. 1211 3

Cigarette smoking has been implicated in the pathogenesis of ischemic heart disease, emphysema, obstructive lung disease and neoplastic disorders. More than 1000 constituents of smoke, including many oxidants, pro-oxidants, free radicals and reducing agents, have been identified. The activities of erythrocyte superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GSH-Px), which are the important components of antioxidant defense system, were measured in 100 healthy volunteers. This study included heavy smokers (consuming cigarettes > or = 20 per day; n=30, group I), light smokers (consuming cigarettes<20 per day; n=30, group II), passive smokers (exposed to cigarette smoke in the indoor environment; n=20, group III), and non-smokers (n=20, the control group). While activities of SOD and CAT in erythro cytes were significantly lower in groups I, II and III than in the control group (p<0.01 for all), mean erythrocyte GSH-Px activity in group III was higher than that in groups l, II and in controls. These results suggest that the increased oxidative stress occurs in smokers, owing to the free radicals present in smoke. It might cause a decrease in antioxidant enzyme activities and oxidant/antioxidant imbalance. We also observed that passive smokers were affected by the environmental smoke to the same extent as active smokers.
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PMID:The changes of superoxide dismutase, catalase and glutathione peroxidase activities in erythrocytes of active and passive smokers. 1221 58

The possible effects of multigenerational administration of sodium fluoride (NaF) via drinking water on lung tissue morphology and biochemistry and body and lung weight were investigated in second-generation adult male rats. For this purpose we selected 45 Albino adult Wistar rats in nine cages, each of which consisted of four females and one male. Twenty-eight pregnant rats were selected for the experiment, divided into four groups of seven rats given 1 (control group), 10, 50 and 100 mg l(-1) NaF in drinking water during the gestation period. After gestation the rats had 165 pups in total. The mothers received fluoridated water during the lactation period and the offspring of the first generation had access to fluoridated water during the suckling period (21 days) and after the weaning period (30 days) until they became mature and at the start of the second part of the experiment. During this time 23 pups died and 79 female and 63 male first-generation rats survived. These first-generation rats were then used to obtain the second-generation offspring in the same manner as before, which were subjected to the same treatments. At the end of 6 months the rats were sacrificed and autopsied. Serum fluoride levels and the activities of principal antioxidant enzymes were determined in lung tissue samples taken from all groups. In addition, the lung tissues were submitted for histopathological examination. Histological findings showed alveolar congestion, alveolar cell hyperplasia and necrosis, prominent alveolar septal vessels, epithelial desquamation and macrophages in the alveolar spaces in the experimental groups. Additionally, there were inflammatory infiltrations in peribronchial, perivascular, intraparenchymal and respiratory tract lumen; intraparenchymal hyperaemic vessels; respiratory epithelial desquamation and proliferation; intraparenchymal thick walled vessels; parenchymal fibrosis; bronchiolitis; pneumonic and focal emphysematous areas. Furthermore, the lung parenchyma was observed to have a distorted appearance with loss of alveolar architecture. These histopathological findings were more pronounced for the rat groups of 50 and 100 mg l(-1) fluoride. No significant histopathological changes were observed in the rats of the control group. The increased activities of superoxide dismutase (SOD) and reduced glutathione peroxidase (GSH-Px) and the decreased activity of catalase (CAT) in the lung tissues with 10 mg l(-1) fluoride might indicate activation of the antioxidant defence mechanism. The decrease in SOD, GSH-Px and CAT activities with 50 and 100 mg l(-1) fluoride and the increase in thiobarbituric acid-reactive substance levels might be related to oxidative damage that occurred in the lung. This multigenerational evaluation of the long-term effect of different doses of fluoride intake through drinking water on lung damage shows that the lung tissues were damaged, there was emphysema and inflammation of lung parenchyma associated with loss of alveolar architecture and the degree of lung damage seemed to correlate with the increased dosage of fluoride. A similar relationship was observed between the degree of lung damage, body and lung weight and serum fluoride levels according to the fluoride dose. Therefore, these results contribute to a better understanding of chronic fluoride toxicity in lung tissue of second-generation rats, especially via drinking water, and the biochemical findings were in agreement with histological observations. In addition, increased fluoride concentration did not affect reproduction or the number of pups dying but the body weight and lung weight ratios were affected by the high dose of fluoride in a dose-related pattern.
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PMID:Histopathological and biochemical changes in lung tissues of rats following administration of fluoride over several generations. 1463 68

Lysyl oxidase (LO), a copper-dependent enzyme, plays a critical role in the formation and repair of the extracellular matrix (ECM) by catalyzing the crosslinking of elastin and collagen. To better understand mechanisms of cigarette smoke (CS)-induced emphysema, we examined changes in LO and its substrates, i.e., elastin and collagen type I, the major components of cellular thiols, i.e., metallothionein (MT) and glutathione (GSH), and gamma-glutamylcysteine synthetase (gamma-GCS), a key enzyme for GSH biosynthesis, in cigarette smoke condensate (CSC)-treated rat fetal lung fibroblasts (RFL6). Exposure of RFL6 cells to CSC decreased levels of LO catalytic activity, mRNA, and protein, i.e., the 46 kDa preproenzyme, the 50 kDa proenzyme and the 32 kDa mature enzyme in a dose-dependent manner. In addition, CSC also inhibited the expression of collagen type I and elastin, substrates of LO and important components of the lung ECM. Meanwhile, cellular thiols including MT and GSH as well as gamma-GCS were markedly upregulated in CSC-treated cells. To evaluate modulation of LO expression by cellular thiols, we further examined the effect of increased levels of GSH on LO expression at protein and catalytic levels. Interestingly, exposure of cells to glutathione monoethyl ester, a GSH delivery system, effectively elevated cellular GSH levels and induced a dose-dependent decrease in levels of the protein species and catalytic activity of LO. These results suggest that upregulation by CSC of cellular thiols may play an important role in the downregulation of LO and subsequently destabilization of the lung ECM in CS-induced emphysema.
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PMID:Downregulation of lysyl oxidase and upregulation of cellular thiols in rat fetal lung fibroblasts treated with cigarette smoke condensate. 1550 64

Cigarette smoke is the principal cause of emphysema. Recent attention has focused on the loss of alveolar fibroblasts in the development of emphysema. Fibroblasts may become damaged by oxidative stress and undergo apoptosis as a result of cigarette smoke exposure. Not all smokers develop lung diseases associated with tobacco smoke, a fact that may reflect individual variation among human fibroblast strains. We hypothesize that fibroblasts from different human beings vary in their ability to undergo apoptosis after cigarette smoke exposure. This could account for emphysematous changes that occur in the lungs of some but not all smokers. Primary human lung fibroblast strains were exposed to cigarette smoke extract (CSE) and assessed for viability, morphological changes, and mitochondrial transmembrane potential as indicators of apoptosis. We also examined the generation of intracellular reactive oxygen species (ROS), 4-hydroxy-2-nonenal, and changes in glutathione (GSH) and glutathione disulfide (GSSG) levels. Each human lung fibroblast strain exhibited a differential sensitivity to CSE as judged by changes in mitochondrial membrane potential, viability, ROS generation, and glutathione production. Interestingly, the thiol antioxidants N-acetyl-L-cysteine and GSH eliminated CSE-induced changes in fibroblast morphology such as membrane blebbing, nuclear condensation, and cell size and prevented alterations in mitochondrial membrane potential and the generation of ROS. These findings support the concept that oxidative stress and apoptosis are responsible for fibroblast death associated with exposure to tobacco smoke. Variations in the sensitivity of fibroblasts to cigarette smoke may account for the fact that only some smokers develop emphysema.
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PMID:Differential induction of apoptosis by cigarette smoke extract in primary human lung fibroblast strains: implications for emphysema. 1644 44


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