EC:1.11.1.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.6 (catalase)
55,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alterations in the expression of free radical scavenging enzymes and production of reactive oxygen species (ROS) in tissue cells may contribute to the pathogenesis of mitochondrial diseases such as chronic progressive external ophthalmoplegia (CPEO) syndrome. Since the mitochondria with impaired respiratory function in affected tissues generate more ROS via electron leakage, we examined the expression levels of free radical scavenging enzymes in primary culture of muscle fibroblasts of eight patients with CPEO syndrome. The results showed that the enzyme activity and protein levels of Mn-SOD of the fibroblasts from CPEO patients were significantly increased but those of Cu,Zn-SOD, catalase and glutathione peroxidase (GPx) were not increased compared with controls. A similar pattern was observed in the mRNA levels of Mn-SOD and GPx in muscle fibroblasts of all CPEO patients. The activity ratios of Mn-SOD/catalase and Mn-SOD/GPx in muscle fibroblasts of the CPEO patients were increased 1.7-3.4 and 1.8- to 5.3-fold, respectively, compared to those of the controls. Moreover, by using flow cytometry we found that the production of O2(*-) and H2O2 in the fibroblasts was about 2 times higher than those of controls. The 8-OHdG/dG ratios in total DNA of muscle biopsies from three CPEO patients were much higher than those of age-matched controls as determined by high performance liquid chromatography (HPLC). In the light of these findings, we suggest that the increase in expression of Mn-SOD, ROS production and oxidative damage in affected tissues may play an important role in the pathogenesis and progression of the CPEO syndrome.
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PMID:Increased expression of manganese-superoxide dismutase in fibroblasts of patients with CPEO syndrome. 1468 Sep 79

Although peroxisome proliferators are considered non-genotoxic agents, most of them, nevertheless, were found to promote and/or induce, hepatocellular carcinoma (HCC) in rodents. The aim of the present study is, first, to investigate whether the peroxisome proliferator perfluorooctanoic acid (PFOA) possesses inherent liver cancer promoting activity, and second, to study the possible mechanisms involved. To acheive these aims two protocols have been applied, a biphasic protocol (initiation by diethyl-nitrozamine (DEN) 200 mg/kg i.p. followed by treatment with 0.005% or 0.02% perflourooctanoic acid (PFOA) for 14 and 25 weeks) and a triphasic initiation, selection-promotion (IS) protocol (initiation by giving 200 mg/kg DEN i.p. followed by a selection procedure for 2 weeks consisting of giving 0.03% 2-acetylaminofluorene (2-AAF) in diet). In the middle of this treatment a single oral dose of carbon tetrachloride (2.0 ml/kg) was given, followed by giving diet containg 0.015% of PFOA for 25 weeks. After applying both protocols, our results showed slight increase in the catalase activity while acyl CoA oxidase activity was markedly increased. Both experiments indicated that PFOA has a liver cancer promoting activity. Other groups of rats were given either basal diet or diet containing 0.02% PFOA. Five or nine weeks later they were sacrificed and the levels of 8-hydroxydeoxyguanosine in the isolated DNA were estimated. The data showed a slight nonetheless insignificant increase in 8-hydroxydeoxyguanosine. From the present data, it is concluded that PFOA is a true liver cancer promoter that may not require extensive initial DNA damage for its promoting activity.
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PMID:Peroxisomal enzymes and 8-hydroxydeoxyguanosine in rat liver treated with perfluorooctanoic acid. 1475 43

This study investigates the oxidative damage of biomolecules in livers of mice treated with morphine intraperitoneally. The oxidative damage of DNA as measured by single cell electrophoresis and high-performance liquid chromatography equipped with electrochemical and UV detection, the protein carbonyl content was measured by 2,4-dinitrophenylhydrazine method, and the malondialdehyde content was measured by the HPLC method. The activities of antioxidative enzymes, superoxide dismutase, catalase and glutathione peroxidase, and the activity of alanine aminotransferase were assayed by spectrophotometer method. Glutathione and oxidized glutathione were detected by fluorescence spectrophotometer method. All the indexes of oxidative damage, such as 8-OHdG, protein carbonyl group and malondialdehyde content, and the activity of alanine aminotransferase (n=27) increased significantly compared to those of control (n=27) (P<0.01) in livers of morphine-administered alone mice, while the indexes related with the in vivo antioxidative capacity, such as the ratio of glutathione and oxidized glutathione, activities of superoxide dismutase, catalase and glutathione peroxidase significantly decreased (P<0.01). When mice were treated with morphine combined with exogenous antioxidants, glutathione and ascorbic acid, all the indexes of oxidative damage and the activity of alanine aminotransferase showed no changes as compared to those of control (P>0.05), i.e., both glutathione and ascorbic acid completely abolished the damage of morphine on the hepatocyte. These results implied that morphine caused a seriously oxidative stress in mice livers and hence caused hepatotoxicity, while exogenous antioxidants were able to prevent the oxidative damage of biomolecules and hepatotoxicity caused by morphine. Thus, blocking oxidative damage may be a useful strategy for the development of a new therapy for opiate abuse.
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PMID:Oxidative damage of biomolecules in mouse liver induced by morphine and protected by antioxidants. 1537 80

According to the mitochondrial theory of aging, an age-related increase in oxidative stress is responsible for cellular damage and ultimately cell death. Despite compelling evidence that supports the mitochondrial theory of aging in some tissues, data regarding aging skeletal muscle are inconsistent. We collected resting muscle biopsies from the vastus lateralis, and 24 h urine samples from, young (N = 12, approximately 22 yr), and older (N = 12 approximately 72 yr) men. Urinary 8-OHdG was significantly higher in older as compared to younger men (Old: 7714 +/- 1402, Young: 5333 +/- 1191 ng g(-1) creatinine: p = 0.005), as were levels of protein carbonyls (Old: 0.72 +/- 0.42, Young: 0.26 +/- 0.14 nmol mg(-1) protein: p = 0.007). MnSOD activity (Old: 7.1 +/- 0.8, Young: 5.2 +/- 1.8 U mg(-1) protein: p = 0.04) and catalase activity (Old: 8.5 +/- 2.0, Young: 6.2 +/- 2.4 micro mol min(-1) mg(-1) protein: p = 0.03) were significantly higher in old as compared to young men, respectively, with no differences observed for total or CuZnSOD. Full-length mtDNA appeared lower in old as compared to young men, and mtDNA deletions were present in 6/8 old and 0/6 young men (p = 0.003). The maximal activities of citrate synthase, and complex II+III, and IV were not different between young and old men, however, complex I+III activity was marginally higher in older as compared to younger men (Old: 2.5 +/- 0.5, Young: 1.9 +/- 0.5 micromol min(-1) g(-1) w.w: p = 0.03) respectively. In conclusion, healthy aging is associated with oxidative damage to proteins and DNA, a compensatory up-regulation of antioxidant enzymes, and aberrations of mtDNA, with no reduction in electron transport chain maximal enzyme activity.
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PMID:Oxidative stress and the mitochondrial theory of aging in human skeletal muscle. 1548 62

Regular resistance exercise increases muscle strength and induces muscle fibre hypertrophy in older adults. Although the underlying causes of aging remain unclear, like acute exercise, aging is associated with oxidative stress. In ageing, however, oxidative stress is closely associated with mitochondrial dysfunction as proposed by the mitochondrial theory of aging. The effect of regular resistance exercise upon mitochondrial function and oxidative stress in older adults is unknown. Twenty-eight older men and women (approximately 68.5+/-5.1 yr) performed whole-body resistance exercise training for 14 weeks. Muscle biopsies were taken before and 72 h following the last exercise bout from the vastus lateralis. Urine samples were also taken at the time of tissue collection. Resistance exercise training was associated with a decrease in 8-OHdG (Pre: 10783+/-5856, Post: 8897+/-4030 ng g(-1) creatinine; p<0.05). Protein content for CuZnSOD, MnSOD, and catalase, and enzyme activities for citrate synthase, mitochondrial ETC complex I+III, and complex II+III were not significantly different from baseline. However, complex IV activity was significantly higher after training as compared to before training (Pre: 2.2+/-0.5, Post: 2.9+/-0.9 micromol min(-1) g(-1)ww; p<0.05), as was the ratio of complex IV to complex I (Pre: 11.1+/-9.3, Post: 14.5+/-10.3; p<0.05). There were no apparent changes in normal mtDNA content or visible mtDNA deletion products as a function of training. These data suggest that regular resistance exercise decreases oxidative stress, but does not affect mtDNA. Moreover, increases in complex IV of the electron transport chain may have an indirect antioxidant effect in older adults and may improve function in daily activities.
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PMID:Resistance exercise training decreases oxidative damage to DNA and increases cytochrome oxidase activity in older adults. 1576 94

Although vitamin C is considered to act both as pro-oxidant and antioxidant, the mechanisms underlying these actions are still unclear. Using the oxygen-sensitive system of a strict anaerobe, Prevotella melaninogenica, we investigated both the pro-oxidant and antioxidant mechanisms of vitamin C. In the presence of vitamin C, the 8-hydroxydeoxyguanosine (8OHdG) formation induced by oxygen exposure was enhanced, probably due to the action of vitamin C on hydrogen peroxide generated during oxygen exposure: while catalase almost completely suppressed the enhancing effect of vitamin C, 8OHdG formation induced by hydrogen peroxide was enhanced by vitamin C. By contrast, the presence of vitamin C inhibited bacterial cell death, membrane damage, and lipid peroxidation induced by oxygen exposure. Sodium azide showed similar effects to vitamin C, thus the antioxidant action of vitamin C may be due to its quenching of the singlet oxygen generated in this system. Both the pro-oxidant and antioxidant effects of vitamin C were observed only in acidic conditions.
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PMID:Dual role of vitamin C in an oxygen-sensitive system: discrepancy between DNA damage and cell death. 1576 69

Hyperlipidemia may induce oxidative stress, which is important in the pathogenesis of atherosclerosis. Dioscorea rhizome (DR) is the powdered form of yams, and possesses antioxidant and hypolipidemic function. We therefore investigated the antioxidative and antiatherogenic effects of DR on hyperlipidemic rabbits. The control group was fed chow containing 0.5% cholesterol and 10% corn oil. The probucol and DR groups were fed the same diet as the control group but with the addition of 100 mg probucol/kg chow and 200 mg DR/kg chow, respectively. Total cholesterol and triacylglycerol plasma levels, RBC hemolysis T50, lucigenin chemiluminescence, and luminol chemiluminescence increased in the control group compared with the normal group, and decreased in the probucol and DR groups compared with the control group. The activity of antioxidant enzymes superoxide dismutase and catalase was significantly higher in the probucol and DR group than in the control group. The level of 8-hydroxy-2'-deoxyguanosine (8-OHdG) in liver DNA was lower in the probucol and DR group than in the control group. Eighty percent of the intimal surface of the thoracic aorta was covered with atherosclerotic lesions in the control group but only 40% of the surface was covered in the DR group. These results suggest that supplementation with DR reduces oxidative stress and attenuates atherosclerosis in hyperlipidemic rabbits.
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PMID:Reduction of oxidative stress and atherosclerosis in hyperlipidemic rabbits by Dioscorea rhizome. 1589 24

Extensive but fragmentary studies have shown: (i) heroin, morphine and opiates are able to induce reactive oxygen species (ROS) formation in several cells, (ii) they decrease the antioxidant defense system including enzymes, superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPx), and antioxidants, glutathione (GSH), Se, and vitamins. This study is to investigate the oxidative damage to DNA, proteins, and lipids in brain of mice administered heroin via intraperitoneal injection, and the effects of verbascoside and luteolin on this damage. All the indices of oxidative damage, such as 8-hydroxy-2'-deoxyguanosine (8-OHdG), protein carbonyl group and malondialdehyde (MDA) contents increased significantly compared to those of controls in the brains of heroin-administered mice, while the indices related to the in vivo antioxidative capacity, such as the ratio of GSH and oxidized glutathione (GSSG), and activities of SOD, CAT and GPx in the brain, and total antioxidant capacity (TAC) in serum significantly decreased. When heroin-dependent mice were treated with verbascoside or luteolin, oxidative stress status was limited.
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PMID:Effects of verbascoside and luteolin on oxidative damage in brain of heroin treated mice. 1607 83

We investigated whether habitual exercise (HE) modulates levels of oxidative DNA damage and responsiveness to oxidative stress induced by renal carcinogen Fe-nitrilotriacetic acid (Fe-NTA). During a ten week protocol, two groups of rats either remained sedentary or underwent swimming for 15--60 min per day, 5 days per week, with or without a weight equivalent to 5% of their body weight. Then we injected Fe-NTA and sacrificed the rats 1 h after the injection. We determined the activity of superoxide dismutase (SOD) in diaphragm and kidney, evaluated levels of 8-hydroxydeoxyguanosine (8OHdG), catalase, and glutathione peroxidase, and assayed OGG1 protein levels in kidney. SOD activity in the diaphragm and kidney was increased in HE rats. By itself, HE had no effect on the level of 8OHdG, but it did significantly suppress induction of 8OHdG by Fe-NTA, and the amount of suppression correlated with intensity of exercise. These results suggest that HE induces resistance to oxidative stress and, at least at the initiation stage, inhibits carcinogenesis.
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PMID:Habitual exercise induced resistance to oxidative stress. 1608 71

Alcohol drinking during pregnancy results in abnormal fetal development, including fetal alcohol syndrome (FAS) in humans and experimental animals. FAS is characterized by two major effects, including central nervous system (CNS) dysfunction and multiple anomalies recognizable mainly as a typical face. However, the mechanisms of alcohol-induced embryotoxicity have not been clearly demonstrated. The aim of the present study was to investigate the possible mechanisms underlying ethanol-induced FAS in the developing embryo. First, ethanol-induced developmental abnormalities were investigated in vitro. Postimplantation embryos at gestation day (GD) 9.5 were cultured for 48 h and observed for morphological changes. Ethanol-mediated changes in proteins regulated apoptosis (p53 and bcl-2), antioxidant (vitamin E and catalase) activities, generation of reactive oxygen species (ROS), and oxidative DNA damage shown as 8-hydroxy-2'-deoxyguanosine (8-OHdG) were measured in embryonic midbrain cells. Alcohol or acetaldehyde significantly induced cytotoxicity in cultured rat embryonic midbrain cells. The levels of p53, bcl-2, and 8-OHdG were concomitantly changed by alcohol and acetaldehyde treatment in midbrain cells. Injured cells induced by ROS were increased by alcohol or acetaldehyde treatment in midbrain cells. Cotreatment with alcohol or acetaldehyde and catalase decreased cytotoxicity in midbrain cells. In postimplantation embryo culture, alcohol or acetaldehyde-treated embryos showed retardation of embryonic growth and development in a concentration-dependent manner. These results indicate that alcohol and its metabolite acetaldehyde induce fetal developmental abnormalities by disrupting cellular differentiation and growth. Data demonstrate that some antioxidants can partially protect against the alcohol-induced embryonic developmental toxicity.
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PMID:Neurotoxic effects of alcohol and acetaldehyde during embryonic development. 1632 30

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