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)

Oxidants are ubiquitous in our aerobic environment and could play an etiological role in aging and neurodegenerative diseases such as Alzheimer's disease. All cells contain several antioxidant enzymes, most importantly, superoxide dismutases (MnSOD and CuZnSOD), glutathione peroxidase (GSH-Px), glutathione reductase and catalase. The individual contribution of these antioxidant enzymes in neuronal protection during aging and under in vivo conditions remains unknown. We feel that the use of genetic manipulations to construct cells and/or transgenic mice that specifically overexpress or lack a single function represent a way to an understanding of the role of the individual antioxidant enzymes in neuronal aging. Copper-zinc superoxide dismutase (CuZnSOD) is one of the genes encoded by chromosome 21. As a consequence of gene dosage excess, CuZnSOD activity and protein are increased by 50% in all tissues of Down syndrome (DS) patients. It has been suggested that this increment, by accelerating hydrogen peroxide formation, might promote oxidative damage within DS cells and might be involved in the various neurobiological abnormalities found in DS such as premature aging and Alzheimer-type neurological lesions. Moreover, the level of CuZnSOD protein and mRNA is particularly high in pyramidal hippocampal neurons susceptible to degenerative processes in Alzheimer's disease, and in dopaminergic melanized-neurons vulnerable in Parkinson's disease. In order to test this hypothesis, we have created transfected cells and transgenic mice which express human CuZnSOD gene. An oversupply of this enzyme is not beneficial to the brain of transgenic mice and causes increased thiobarbituric-reactive substances (TBARS), an index of lipid peroxidation, and may be due to peroxides generated by an imbalance between enzymatic activities of CuZnSOD and GSH-Px. Unlike what has been observed in transfected cells with the human CuZnSOD gene, but similar to what was found in the DS fetal brain, the GSH-Px activity was not increased in the brain of transgenic mice. One possibility to explain this discrepancy could be the differential cellular localization of these two enzymes in the brain (CuZnSOD in neurons and GSH-Px in glial cells). This heterogeneous cellular distribution of the enzymes implicated in oxygen-free radicals detoxification could participate to a selective neuronal degeneration. Interestingly, overexpression of CuZnSOD in the brain of transgenic mice is associated with an increased MnSOD activity, the mitochondrial form of the enzyme. This increased MnSOD might be a defense response to protect mitochondria from oxidative damage.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Transgenic mice overexpressing copper-zinc superoxide dismutase: a model for the study of radical mechanisms and aging]. 801 10

Male Wistar rats received an aqueous solution of ammonium metavanadate (AMV) of 0.15 mg/V/ml concentration instead of water for 14 days. The erythrocyte count and haemoglobin level in blood were not changed; the haematocrit index was slightly increased. The spontaneous lipid peroxidation in kidney and liver homogenates was increased. The Fe(II)- or ascorbate-induced lipid peroxidation was more pronounced in the kidney than in the liver. No changes in lipid peroxidation were observed in erythrocytes after AMV treatment. The AMV treatment resulted in a decrease in the activity of the antioxidant enzymes, catalase and glutathione peroxidase in the kidney and liver; the cytosolic Cu,Zn-SOD and mitochondrial Mn-SOD were unchanged. The activity of the enzymes in blood was not changed. The results are discussed with a view to the participation of lipid peroxidation in vanadium toxicity.
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PMID:Lipid peroxidation and antioxidant enzymes in vanadate-treated rats. 806 48

Our previous in vivo study demonstrated that methylprednisolone (MP) activates glomerular antioxidant enzymes and attenuates glomerular oxidant injuries, including those in experimental nephrosis. The present study investigates the cellular mechanism of the MP-induced activation of antioxidant enzymes and their contribution to the attenuation of cellular oxidant toxicity. When bovine glomerular endothelial cells (GECs) were treated with 10 microM MP, cellular manganese superoxide dismutase (Mn-SOD, 3.95 +/- 0.33 mu/mg protein, M +/- SE) and catalase (1.64 +/- 0.06 k/mg protein) activities were significantly (P < 0.05) elevated above control GECs (2.23 +/- 0.43 mu/mg protein and 1.06 +/- 0.09 k/mg protein, respectively). When GECs pretreated with MP (10 microM 24 hrs) were exposed to xanthine (0.1 mM)+xanthine oxidase (5 mU/ml) for four hours, levels of specific membrane lipid peroxidation products, that is, phosphatidylcholine- and phosphatidylethanolamine-hydroperoxides, remained at levels 10 to 25% of those measured in non-MP-treated (xanthine/xanthine oxidase-exposed) control cells. Moreover, the degree of cell damage following exposure to the superoxide generating system, assessed by 51Cr release, was significantly attenuated in MP-treated cells (approximately 50% of MP-non-treated controls, N = 6). Thus, MP-treated GECs with elevated antioxidant enzyme activities by MP were more resistant to the toxic effect of reactive oxygen metabolites. The mechanism of antioxidant enzyme induction by MP was studied for Mn-SOD. MP was shown to enhance Mn-SOD mRNA in bovine GECs and rat glomerular mesangial cells (GMCs) in dose-dependent manners.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of manganese superoxide dismutase by glucocorticoids in glomerular cells. 812 10

To determine the effect of oxidative stress on expression of extracellular superoxide dismutase (EC-SOD), CuZn-SOD and Mn-SOD, two fibroblast lines were exposed for periods of up to 4 days to a wide concentration range of oxidizing agents: xanthine oxidase plus hypoxanthine, paraquat, pyrogallol, alpha-naphthoflavone, hydroquinone, catechol, Fe2+ ions, Cu2+ ions, buthionine sulphoximine, diethylmaleate, t-butyl hydroperoxide, cumene hydroperoxide, selenite, citiolone and high oxygen partial pressure. The cell lines were cultured both under serum starvation and at a serum concentration that permitted growth. Under no condition was there any evidence of EC-SOD induction. Instead, the agents uniformly, dose-dependently and continuously reduced EC-SOD expression. We interpret the effect to be due to toxicity. Enhancement of the protection against oxidative stress by addition of CuZn-SOD, catalase and low concentrations of selenite did not influence the expression of any of the SOD isoenzymes. Removal of EC-SOD from cell surfaces by heparin also did not influence SOD expression. Mn-SOD was moderately induced by high doses of the first 11 oxidants. Apart from reduction at high toxic doses, there were no significant effects on the CuZn-SOD activity by any of the treatments. Thus EC-SOD, previously shown to be profoundly influenced by inflammatory cytokines, was not induced by its substrate or other oxidants. In a similar fashion, Mn-SOD, previously shown to be greatly induced and depressed by cytokines, was only moderately influenced by oxidants. We suggest that the regulation of these SOD isoenzymes in mammalian tissues primarily occurs in a manner co-ordinated by cytokines, rather than as a response of individual cells to oxidants.
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PMID:Effects of oxidative stress on expression of extracellular superoxide dismutase, CuZn-superoxide dismutase and Mn-superoxide dismutase in human dermal fibroblasts. 813 41

Human bronchial epithelium is exquisitely sensitive to high O2 levels, with tracheobronchitis usually developing after 12 h of exposure to 100% O2. To evaluate whether this vulnerability results from inability of the bronchial epithelium to provide adequate antioxidant protection, we quantified antioxidant gene expression in bronchial epithelium of normal volunteers at baseline and after exposure to 100% O2 in vivo. After 14.8 +/- 0.2 h of 100% O2, 24 of 33 individuals had evidence of tracheobronchitis. Baseline gene expression of CuZn superoxide dismutase (SOD), MnSOD, and catalase in bronchial epithelium was very low (CuZnSOD 4.1 +/- 0.8 transcripts/cell, MnSOD 5.1 +/- 0.9, catalase 1.3 +/- 0.2), with control gamma-actin expression relatively abundant (50 +/- 6 transcripts/cell). Importantly, despite 100% O2 exposure sufficient to cause tracheobronchitis in most individuals, antioxidant mRNA transcripts/cell in bronchial epithelium did not increase (P > 0.5). Catalase activity in bronchial epithelium did not change after exposure to hyperoxia (P > 0.05). Total SOD activity increased mildly (P < 0.01) but not sufficiently to protect the epithelium. Together, the very low levels of expression of intracellular antioxidant enzymes and the inability to upregulate expression at the mRNA level with oxidant stress likely have a role in human airway epithelium susceptibility to hyperoxia.
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PMID:In vivo antioxidant gene expression in human airway epithelium of normal individuals exposed to 100% O2. 822 38

We examined the effects of inhibition of Cu,Zn superoxide dismutase (Cu,Zn SOD) and catalase (Cat) activities on the steady-state mRNA levels of the three major antioxidant enzymes [Cu,Zn SOD, Cat, and glutathione peroxidase (GP)] in human umbilical vein endothelial cells under normoxia and hyperoxia. Inhibition of Cat activity by aminotriazole was not associated with alteration of the other antioxidant enzymes or with potentiation of cell injury. On the other hand, inhibition of Cu,Zn SOD activity by N-N'-diethyl-dithiocarbamate (DDC) was associated with an increase in Cu,Zn SOD mRNA level and a decrease in Cat and GP mRNA level. The combination of DDC and hyperoxia treatments was associated with an additive effect on Cu,Zn SOD message. We propose that these coordinate mRNA changes might be an adaptation to the oxidative environment. This proposal supports the concept that the intracellular O2 metabolites themselves could be the signals that trigger the antioxidant enzymes gene expression.
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PMID:Effects of inhibition of catalase and superoxide dismutase activity on antioxidant enzyme mRNA levels. 827 80

The effects of near ultraviolet (NUV) light on a NUV chromophore-containing oxidant-sensitive enzyme, dihydroxyacid dehydratase (DHAD), were measured in seven strains of Escherichia coli. The strains differed in production of the oxidant-defense enzymes, superoxide dismutases (Fe-SOD and Mn-SOD), and catalases HPI and HPII. With the stress of aerobic growth but without NUV exposure, the strains lacking either Fe or Mn SOD or both SODs had 57%, 25%, and 12%, respectively, of the DHAD-specific activity of the parent (K12) strain. Under the same conditions, the catalase strains that were wild type, overproducing, and deficient had comparable DHAD-specific activities. When aerobic cultures were exposed for 30 min to NUV with a fluence of 216 J/m2/s at 310-400 nm, the percentage decreases in DHAD-specific activities were similar (ranging from 75% to 89%) in strains with none, either, or both SODs missing, and in the catalase-overproducing strain. However, the decreases were only 58% and 52% in the strain with catalase missing and in its parent, respectively. The NUV-induced loss of DHAD enzyme activity was not accompanied by any detectable loss of the DHAD protein as measured by polyclonal antibody to DHAD.
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PMID:Near ultraviolet light inactivation of dihydroxyacid dehydratase in Escherichia coli. 839 20

A canine model with cyclic flow variations (CFVs) in stenosed and endothelium-injured coronary arteries was used to examine the role of active oxygen species in platelet aggregation in vivo. We studied 90 anesthetized dogs in which the pericardial cavity was opened and the heart was exposed. The velocity of blood flow in the left anterior descending coronary artery (LAD) was monitored by a pulsed Doppler flow probe. In 67 dogs, the LADs were stenosed by applying external constrictors at the site where the endothelium was mechanically injured. CFVs developed in all 67 dogs. Treatment with the antioxidants recombinant human copper-zinc superoxide dismutase (r-h-CuZnSOD), recombinant human manganese superoxide dismutase (r-h-MnSOD), and catalase eliminated platelet aggregation-associated coronary CFVs in 63%, 62%, and 64% of animals, respectively. Intravenous infusion of epinephrine restored CFVs in most dogs. Ketanserin, a serotonin (5-hydroxytryptamine2) receptor antagonist, abolished epinephrine-restored CFVs and eliminated CFVs in dogs in which CFVs had not been eliminated by free radical scavengers. In an additional 23 dogs, the LADs were stenosed but not mechanically injured. For control studies, saline was infused into the LADs of 5 dogs. Xanthine/xanthine oxidase was infused into the LADs of 8 dogs and induced CFVs in 4. Hydrogen peroxide was infused into the other 10 dogs and induced CFVs in 9. Histological analysis of the coronary artery revealed that the intima was significantly injured by the infusion. In ex vivo platelet aggregation studies, the in vivo treatment with r-h-CuZnSOD, r-h-MnSOD, and catalase significantly inhibited platelet aggregation induced by platelet-activating factor. Thus, active oxygen species are involved in mediating platelet aggregation and cyclic flow variations in stenosed and endothelium-injured canine coronary arteries in vivo.
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PMID:Active oxygen species play a role in mediating platelet aggregation and cyclic flow variations in severely stenosed and endothelium-injured coronary arteries. 840 65

Free radical production and lipid peroxidation are potentially important mediators in testicular physiology and toxicology. The cytochrome P450 enzymes of the steroidogenic pathway are known to produce free radicals. The present study was conducted to elucidate in vivo the gonadotropin regulation of free radical-mediated lipid peroxidation and the antioxidative defense system in the rat testis. GnRH antagonist (Org 30276; 1 mg/kg BW) and testosterone [40-mm SILASTIC brand (Dow-Corning) capsules] treatments were used to suppress serum gonadotropin levels. As expected, serum LH decreased to a very low level, whereas serum FSH decreased only slightly. Testosterone treatment for 8 days decreased the levels of the peroxide-metabolizing enzymes, catalase, glutathione peroxidase (GSH-Px), and glutathione transferase (-44%, -24%, and -31%, respectively; P < 0.01 for all). These changes predominately reflect the interstitial tissue, in which catalase and GSH-Px activities were much higher than in the seminiferous tubules. Testicular CuZn or Mn superoxide dismutase activities, which were high in the seminiferous tubules, were not affected by gonadotropin suppression. The total peroxyl radical-trapping capacity of the testis, or its components, vitamin E and ubiquinol 9, were not affected either. Lipid peroxidation was decreased after 8-day treatment, as detected by diminished formation of conjugated dienes and fluorescent chromolipids (-30% and -19%, respectively; P < 0.05 for both). Similar results of decreasing catalase and GSH-Px activities were found after gonadotropin suppression with GnRH antagonist treatment for 2 days or testosterone treatment for 5 days. Substitution with hCG, alone or in combination with recombinant human FSH, reversed the changes in enzyme activities, whereas FSH alone had no effect. After 5-day testosterone treatment, catalase messenger RNA expression was studied by Northern hybridization, and it was observed to parallel the changes in enzyme activity. The site of free radical production was studied by separating interstitial tissue and seminiferous tubules 5 h after hCG injection. GSH-Px was induced by hCG only in the interstitial tissue (+28%; P< 0.01), supporting the hypothesis of free radical production during steroidogenesis. Aminoglutethimide, an inhibitor of the P450 cholesterol side-chain cleavage enzyme, induced extensive lipid peroxidation in the testis. Presumably, aminoglutethimide leads to leakage of free radicals from the P450 enzyme when substrate oxygenation is prevented. In conclusion, the present study suggests that physiological LH action in the rat testis causes lipid peroxidation and maintains high activities of peroxide-metabolizing enzymes in the interstitial tissue.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Induction of lipid peroxidation during steroidogenesis in the rat testis. 853

cDNA clones for guinea pig antioxidant enzymes, copper-zinc (Cu-Zn) and manganese (Mn-) superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPx) were isolated by reverse transcription (RT)-polymerase chain reaction (PCR) cloning, to explore the mechanism regulating the differential expression of antioxidant enzymes (AOEs) in guinea pig lung and liver, during development. Increases in MnSOD, CAT and GPx mRNA expression in lung and, MnSOD mRNA in liver, were seen during the final period of gestation, whereas CuZnSOD and CAT mRNA expression in liver, which was constant during gestation, increased in the postnatal period. In lung, CuZnSOD mRNA level decreased just prior to birth while in liver, GPx mRNA expression declined markedly over the last third of gestation. In lung, while the mRNA levels of MnSOD, CAT, and GPx increased pre-natally, they declined following birth. In contrast, the postnatal increase in mRNA for CuZnSOD and CAT and the prenatal increase in MnSOD mRNA expression in liver remained at least to adolescence. In adolescent guinea pigs, CuZnSOD and CAT mRNA were most abundantly expressed in liver, while MnSOD and GPx mRNA were most abundant in heart and spleen, respectively. These results demonstrate markedly different developmental patterns of AOEs expression in guinea pig lung and liver during both the pre- and post-natal period. The short-lasting, late-gestational increases of MnSOD, CAT, and GPx mRNA expression in lung, may be responsible for the temporary increases in the activity of these antioxidants in the late gestational period, whereas the steady increases of CuZnSOD, CAT mRNA following birth, and also the prenatal increases in MnSOD mRNA expression, are probably responsible for the higher postnatal activity of these antioxidants in liver.
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PMID:Differential patterns of antioxidant enzyme mRNA expression in guinea pig lung and liver during development. 859 2


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