Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04179 (MnSOD)
 2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species (ROS) such as superoxide anion (O(2)(*-)), hydrogen peroxide (H(2)O(2)) and hydroxyl radical (*OH) are produced constantly in aerobic organisms. Submandibular glands of rats treated with isoproterenol (ISO) were analysed in respect to the level of superoxide dismutase (SOD), lipoperoxidation, protein oxidation and glutathione (GSH)/GSSG. Although ISO response is very well studied in salivary glands cells, the effect of ISO treatment on ROS productions or on SOD activation is not known. SOD activity increased after isoproterenol subcutaneous injection. In contrast, cycloheximide, a protein synthesis inhibitor, was found to decrease the total SOD activity. The GSH/GSSG ratio and the lipoperoxidation were also found to be increased after isoproterenol injection, while the protein oxidation was not affected by the same treatment. Injection of isoproterenol after cycloheximide treatment resulted in the recovery of the total SOD activity. This increase of activity is related to the amount of MnSOD isoform as shown by Western blot analysis. Our results suggest that the antioxidant protection of SOD may be activated during the salivary glands ISO treatment and that the mitochondrial MnSOD has an important role in the oxidative stress process.
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PMID:Modulation of SOD activity in rat submandibular glands. 1264 32

Renin-angiotensin system (RAS) inhibition can attenuate the effects of aging on renal function and structure; however, its effect on mitochondrial aging is unknown. To investigate whether an angiotensin-converting enzyme inhibitor (enalapril) or an angiotensin II receptor blocker (losartan) could mitigate age-associated changes in kidney mitochondria, male Wistar rats (14 mo old) received during 8 mo water containing either enalapril (10 mg/kg/day) (Enal), or losartan (30 mg/kg/day) (Los), or no additions (Old). Four-month-old untreated rats (Young) were also studied. In Old rats mitochondrial respiratory control, ADP/O, nitric oxide synthase activity, and uncoupling protein 2 levels were lower (46, 42, 27, and 76%, respectively), and Mn-SOD activity was higher (70%) than in Young, Enal, and Los rats. In Old rats mitochondrial hydrogen peroxide production was higher than in both Young (197%) and Enal or Los (40%) rats. In Old rats, kidney GSH/GSSG was lower than in both Young (80%) and Enal (57%) or Los (68%) rats. In Old rats electron microscopy showed effacement of microvilli in tubular epithelial cells, ill-defined mitochondrial cristae, lower mitochondrial numbers, and enhanced number of osmiophilic bodies relative to Young, Enal, or Los rats. In conclusion, enalapril and losartan can protect against both age-related mitochondrial dysfunction and ultrastructural alterations, underscoring the role of RAS in the aging process. An association with oxidative stress modulation is suggested.
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PMID:Enalapril and losartan attenuate mitochondrial dysfunction in aged rats. 1270 17

The aim of this work was to examine the effect of fluoride ions on antioxidative enzyme activity in the pancreas of rats exposed during 4 months to NaF in drinking water. The study was carried out in 30 four-week-old male Wistar FL rats, that were randomly assigned to three equal groups and given distilled water ad libitum for three weeks. Subsequently, two examined groups of animals were exposed to NaF in drinking water: group 1 (10 rats) at 50 mg F(-)/L (2.63 mmol/L), group 2 (10 rats) at 100 mg F(-)/L (5.26 mmol/L). The control group (10 rats) received distilled water. After 4 months the animals were anesthetized with ether prior to collection of pancreas and cardiac blood. Serum concentrations of glucose and fluoride, as well as activities of the cytoplasmic (CuZn-SOD) and the mitochondrial (Mn-SOD) superoxide dismutase, glutathione peroxidase (GSH-Px) and concentrations of malondialdehyde (MDA) in the homogenized pancreas were measured. The activity of CuZn-SOD was reduced by 50% and a tendency to lower activities of Mn-SOD was observed. No changes were noted in the activity of GSH-Px or concentrations of MDA. We conclude that: 1) the fluoride caused hyperglycemia in rats in this study is not accompanied by an activation of the free radical production in the pancreas; 2) the hyperglycemia in the exposed rats cannot be attributed to pancreatic damage caused by fluoride ions (the cause in this case appears to be extrapancreatic); 3) the inhibition of pancreatic CuZn-SOD is probably due to the direct action of fluoride on the enzyme.
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PMID:Activity of pancreatic antioxidative enzymes and malondialdehyde concentrations in rats with hyperglycemia caused by fluoride intoxication. 1275 3

Oxidative stress has been discussed as crucial mechanism of neuronal cell death in the adult brain. However, it was not clear until now whether neurons are more sensitive to oxidative stress than the other cells in the brain, e.g. astrocytes. Therefore both cell types were exposed to oxidative stress provoked by the redox-cycling compound paraquat. Cortical neurons were found to be more sensitive towards paraquat toxicity than astrocytes as shown by MTT and Neutral Red assay, two different cytotoxicity assays. Mitochondrial functions were determined by the mitochondrial membrane potential and intracellular ATP concentrations. Again cortical neurons were more severely impaired (by paraquat than astrocytes). The production of reactive oxygen species after paraquat exposure was much higher in cortical neurons than in astrocytes and correlated with a higher depletion of GSH (intracellular glutathion). Lipid peroxidation could be shown in astrocytes via the breakdown product malondialdehyde (MDA) whereas in cortical neurons 4-hydroxynonenal (4-HNE) was detected as this endpoint. If and how oxidative stress influences the antioxidant defense was determined via changes in the expression of antioxidant enzymes. Paraquat exposure lead to a 2-3 fold increase of catalase, MnSOD and CuZnSOD mRNA expression in astrocytes. In contrast to astrocytes, in cortical neurons catalase and MnSOD mRNA levels were only marginally elevated above 1.5-fold by treatment with paraquat. Expression levels of glutathione peroxidase (GPx) mRNA were the only one that were not changed in both cell types after paraquat exposure. It is concluded that the more marked increase in expression levels of antioxidant enzymes may render astrocytes more resistant to oxidative stress than neuronal cells.
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PMID:Oxidative stress in rat cortical neurons and astrocytes induced by paraquat in vitro. 1282 88

Many individuals with cardiovascular diseases undergo physical conditioning with or without medication. Therefore, this study investigated the interaction of exercise training and chronic nitroglycerin treatment on blood pressure (BP) and changes in cardiac nitric oxide (NO) and antioxidants in rats. Fisher 344 rats were divided into four groups treated as: (1) sedentary control, (2) exercise training for 8 weeks, (3) nitroglycerin (15 mg/kg, s.c. for 8 weeks), and (4) training+nitroglycerin for 8 weeks. Respiratory exchange ratio (RER), BP, and heart rate (HR) were monitored weekly for 8 weeks. The animals were sacrificed 24 h after last treatments, hearts isolated, and analyzed. Physical conditioning significantly increased RER, cardiac NO levels, and endothelial eNOS protein expression. Training significantly enhanced cardiac glutathione (GSH) levels, GSH/GSSG ratio, and the up-regulation of cardiac copper/zinc-superoxide dismutase (CuZn-SOD), manganese (Mn)-SOD, catalase (CAT), glutathione peroxidase (GSH-Px) activities, and protein expression. Training also caused depletion of cardiac malondialdehyde (MDA) and protein carbonyls with a significant increase in RER without any change in BP and HR. Chronic nitroglycerin administration significantly increased cardiac NO levels and eNOS protein expression. Nitroglycerin administration significantly enhanced cardiac Mn-SOD, CAT, and GST activities, and protein expression with decreased MDA levels and BP. Interaction of training and chronic nitroglycerin treatment increased cardiac NO levels with enhanced eNOS and iNOS protein expressions, GSH/GSSG ratio, and the up-regulation of antioxidant enzymes. This interaction normalized BP and HR and increased RER. The data suggest that the interaction of physical training and chronic nitroglycerin treatment resulted in the maintenance of BP and RER by up-regulating the antioxidants and NO levels and by reducing the oxidative stress in the rat heart.
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PMID:Interaction of physical training and chronic nitroglycerin treatment on blood pressure, nitric oxide, and oxidants/antioxidants in the rat heart. 1286 Apr 43

Intestinal mucosal damage in the inflammatory bowel diseases (IBD) Crohn's disease (CD) and ulcerative colitis (UC) involves reactive oxygen metabolites (ROMs). ROMs are neutralized by endogenous antioxidant enzymes in a carefully balanced two-step pathway. Superoxide dismutases (SODs) convert superoxide anion to hydrogen peroxide (H(2)O(2)), which is subsequently neutralized to water by catalase (CAT) or glutathione peroxidase (GPO). Remarkably changed expression levels of the three isoforms of SOD in paired non-inflamed and inflamed mucosae from CD and UC patients have been previously reported in comparison to normal control mucosa. Most notable was the strong up-regulation of Mn-SOD in inflamed epithelium. It was hypothesized that in order to provide optimal protection against ROM-mediated damage, these changes should be coordinately counterbalanced by an increased H(2)O(2)-neutralizing capacity. Therefore, the same tissue samples were used to assess the levels, activities, and/or localization of the most prominent mucosal H(2)O(2)-related antioxidants CAT, GPO, glutathione (GSH), myeloperoxidase (MPO), and metallothionein (MT). Quantitative measurements showed that in both CD and UC patients, intestinal inflammation was associated with increased activities of CAT, GPO, and MPO, whereas the mucosal GSH content was unaffected and the concentration of MT was decreased. Despite this overall increase in mucosal H(2)O(2)-metabolizing enzyme capacity, immunohistochemical analysis revealed a differentially disturbed antioxidant balance in IBD epithelium and lamina propria. In the lamina propria, the risk of direct H(2)O(2)-mediated damage seemed to be restrained by the increasing numbers of CAT- and MPO-positive monocytes/macrophages and neutrophils that infiltrated the inflamed areas. On the other hand, MPO overexpression might increase the lamina propria levels of hypochlorous acid, a stable ROM with multiple pro-inflammatory effects. In the epithelium, the number of cells that expressed CAT remained unchanged during inflammation and GPO was found in only a very low and constant number of epithelial cells. In addition, the inflamed epithelium displayed decreased expression of the hydroxyl radical (OH(*)) scavenger MT. In view of the high epithelial SOD levels in inflamed IBD epithelium, it is speculated that the efficient removal of excess H(2)O(2) is hampered in these cells, thereby increasing not only the risk of detrimental effects of H(2)O(2) directly, but also those of its extremely reactive derivatives such as OH(*). Taken together, the results suggest an imbalanced and inefficient endogenous antioxidant response in the intestinal mucosa of IBD patients, which may contribute to both the pathogenesis and the perpetuation of the inflammatory processes.
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PMID:Imbalanced secondary mucosal antioxidant response in inflammatory bowel disease. 1295 13

Mitochondria are the major site for the generation of ATP at the expense of molecular oxygen. Significant fractions (approximately 2%) of oxygen are converted to the superoxide radical and its reactive metabolites (ROS) in and around mitochondria. Although ROS have been known to impair a wide variety of biological molecules including lipids, proteins and DNA, thereby causing various diseases, they also play critical roles in the maintenance of aerobic life. Because mitochondria are the major site of free radical generation, they are highly enriched with antioxidants including GSH and enzymes, such as superoxide dismutase (SOD) and glutathione peroxidase, on both sides of their membranes to minimize oxidative stress in and around this organelle. The present work reviews the sites and mechanism of ROS generation by mitochondria, mitochondrial localization of Mn-SOD and Cu,Zn-SOD which has been postulated for a long time to be a cytosolic enzyme. The present work also describes that a cross-talk of molecular oxygen, nitric oxide (NO) and superoxide radicals regulates the circulation, energy metabolism, apoptosis, and functions as a major defense system against pathogens. Pathophysiological significance of ROS generation by mitochondria in the etiology of aging, cancer and degenerative neuronal diseases is also described.
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PMID:Mitochondrial generation of reactive oxygen species and its role in aerobic life. 1452 65

In this work, the topology of mitochondrial O2(-)(radical) and H2O2 generation and their interplay with matrix GSH in isolated heart mitochondria were examined. We observed that complex I releases O2(-)(radical) into the matrix (where it is converted to H2O2 by Mn-SOD) but not into the intermembrane space. No free radical generation was observed from complex II, but succinate treatment caused H2O2 generation from the matrix through a reverse electron flow to complex I. Complex III was found to release O2(-)(radical) into the matrix and into the intermembrane space. Antimycin, which increases steady-state levels of UQO>- (ubisemiquinone at the Qo site) in complex III, enhanced both H2O2 generation from the matrix and O2(-)(radical) production from the intermembrane space. On the other hand, myxothiazol, which inhibits UQO>- formation, completely inhibited antimycin induced O2(-)(radical) toward the intermembrane space and inhibited H2O2 generation from the matrix by 70%. However, myxothiazol alone enhanced H2O2 production from complex III, suggesting that other components of complex III besides the UQO- can cause O2(-)(radical) generation toward the matrix. As expected, mitochondrial GSH was found to modulate H2O2 production from the matrix but not O2- generation from the intermembrane space. Low levels of GSH depletion (from 0-40%, depending on the rate of H2O2 production) had no effect on H2O2 diffusion from mitochondria. Once this GSH depletion threshold was reached, GSH loss corresponded to a linear increase in H2O2 production by mitochondria. The impact of 50% mitochondrial GSH depletion, as seen in certain pathological conditions in vivo, on H2O2 production by mitochondria depends on the metabolic state of mitochondria, which governs its rate of H2O2 production. The greater the rate of H2O2 generation the greater the effect 50% GSH depletion had on enhancing H2O2 production.
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PMID:Effect of glutathione depletion on sites and topology of superoxide and hydrogen peroxide production in mitochondria. 1457 63

Because alcoholic liver disease has been linked to oxidative stress, we investigated the effect of a compromised antioxidant defense system, Cu, Zn-superoxide dismutase (Sod1) deficiency, on alcohol-induced liver injury. C57BL/129SV wild-type (Sod1(+/+)) and Sod1 knockout (Sod1(-/-)) mice were fed dextrose or ethanol (10% of total calories) liquid diets for 3 weeks. Histologic evaluation of liver specimens of Sod1(-/-) mice fed ethanol showed the development of liver injury ranging from mild to extensive centrilobular necrosis and inflammation. Sod1(+/+) mice fed ethanol showed mild steatosis; both Sod1(+/+) and Sod1(-/-) mice fed the dextrose diet had normal histology. Alanine transaminase levels were significantly elevated only in Sod1(-/-) mice fed ethanol. Cytochrome P450 2E1 (CYP2e1) activity was elevated about 2-fold by ethanol in Sod1(+/+) and Sod1(-/-) mice. Ethanol consumption increased levels of protein carbonyls and lipid peroxidation aldehydic products in the liver of Sod1(-/-) mice. Hepatic adenosine triphosphate (ATP) content was reduced dramatically in Sod1(-/-) mice fed ethanol in association with a decrease in the mitochondrial reduced glutathione (GSH) level and activity of MnSOD. Immunohistochemical determination of 3-nitrotyrosine (3NT) residues in liver sections of the Sod1 knockout mice treated with ethanol showed a significant increase of 3NT staining in the centrilobular areas. In conclusion, a rather moderate ethanol consumption promoted oxidative stress in Sod1(-/-) mice, with increased formation of peroxynitrite, protein carbonyls, and lipid peroxidation and decreased mitochondrial GSH and MnSOD. We speculate that the increased oxidative stress causes mitochondrial damage and reduction of ATP content, leading to alcoholic liver injury. This model may be useful in further mechanistic studies on alcohol-induced liver injury.
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PMID:Alcohol-induced liver injury in mice lacking Cu, Zn-superoxide dismutase. 1457 52

Lung epithelial cells produce increased reactive oxygen species (ROS) after hypoxia exposure, and they are more susceptible after hypoxia to injury by agents that generate superoxide [O2-; e.g., 2,3-dimethoxy-1,4-naphthoquinone (DMNQ)]. Cellular GSH and MnSOD both decrease in hypoxic lung epithelial cells, altering the redox state. Because ROS participate in signaling pathways involved in cell death or survival, we tested the hypothesis that mitogen-activated protein kinases (MAPK) were involved in a protective response against cellular injury during reoxygenation. Human lung epithelial A549 cells were incubated in hypoxia (<1% O2 for 24 h) and then reoxygenated by return to air. p38mapk and MKK3 phosphorylation both decreased after hypoxia. During reoxygenation, cells were incubated with DMNQ (0-50 microM), a redox cycling quinone that produces O2-. Hypoxia preexposure significantly increased epithelial cell lysis resulting from DMNQ. Addition of the p38mapk inhibitors SB-202190 or SB-203580 markedly increased cytotoxicity, as did the mitogen/extracellular signal-regulated kinase (MEK) 1/2 inhibitor PD-98059 (all 10 microM), suggesting a protective effect of downstream molecules activated by the kinases. Transfection of A549 cells with a dominant active MKK3 plasmid (MKK3[Glu]) partially inhibited cytolysis resulting from DMNQ, whereas the inactive MKK3 plasmid (MKK3[Ala]) had less evident protective effects. Stress-related signaling pathways in epithelial cells are modulated by hypoxia and confer protection from reoxygenation, since hypoxia and chemical inhibition of p38mapk and MEK1/2 similarly increase cytolysis resulting from O2-.
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PMID:p38mapk and MEK1/2 inhibition contribute to cellular oxidant injury after hypoxia. 1467 18


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