UNIPROT:P30044 - FACTA Search

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Query: UNIPROT:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Supplements of antioxidants, superoxide dismutase (SOD), catalase, cyclic guanylate (cGMP), and theophylline, or omission of iron and copper from the medium are therapeutic for the inferior growth and viability of yeast mutants doubly deficient in mitochondrial and exocellular SOD isozymes under oxidative stresses. Cyclic adenylate tends to be ineffective or counterproductive. Oxy-stress resistant revertants are cross-resistant to other oxy-stresses and acquire one, the other, or both isozymes. The principal conclusions are: i) a genetic defect in cGMP metabolism probably compromises regulation of the enzymes' synthesis; ii) the enzymes are only essential for growth and viability under oxidative stresses; iii) oxidative toxicity is mediated by both exo- and endocellular oxy-radicals, particularly hydroxyl radicals; and iv) the pharmacogenetic features and the mutants' phenotypes are quite similar to those of negative antioxidant enzyme regulatory mutants of the related ascomycete Neurospora.
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PMID:Pharmacogenetics of cyclic guanylate, antioxidants, and antioxidant enzymes in Saccharomyces. 217 Feb 45

Efforts to reduce reperfusion injury have focused on exogenous therapies; however, endogenous attenuation of reperfusion injury can be induced by a single sublethal dose of endotoxin (ETX) prior to ischemia. The purposes of this study were to investigate (i) the early neutrophil-endothelial (PMN-EC) adherence, (ii) the associated myocardial oxidant stress, (iii) the relationship of oxidant stress to antioxidant enzyme activity, and (iv) the correlation of increased antioxidant enzyme activity to myocardial recovery following ischemia/reperfusion (I-R) injury at 36 hr. Rats were administered a sublethal dose (2% of LD50) of endotoxin (500 micrograms/kg, ip, Salmonella typhimurium). At 6 hr, myocardial neutrophil accumulation (histology), hydrogen peroxide (H2O2) levels, and myocardial tissue glutathione (glutathione and oxidized glutathione) levels were determined. At 24 hr myocardial tissue glutathione levels and catalase (CAT) activity were assayed. At 36 hr, myocardial tissue superoxide dismutase, glutathione peroxidase, glutathione reductase, catalase, and glucose-6-phosphate dehydrogenase (G-6-PD) were assayed. At 36 hr, hearts were subjected to a standard (20 min, global, 37 degrees C) ischemic insult followed by reperfusion. At 40 min of reperfusion, ventricular function was assessed (ventricular balloon; ventricular developed pressure +dP/dt, and -dP/dt).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of endogenous tissue antioxidant enzyme activity attenuates myocardial reperfusion injury. 219 33

A comparative investigation of antioxidant enzyme activity and lipid hydroperoxide concentration in red blood cells of the whole and anticoagulant-containing blood of 33 donors was conducted to elucidate the causes of increasing the permeability of red blood cell membrane during blood coagulation in vitro. It has been shown that one of the causes of intensified red blood cell peroxidation during blood coagulation is a disturbed ratio of superoxide dismutase and catalase activities leading to a decrease in the antioxidant enzymatic protection.
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PMID:[Activation of lipid peroxidation in erythrocytes during blood coagulation in vitro]. 221 Mar 27

We have previously demonstrated that induction of the heat-shock response in rats results in improved recovery of isolated Langendorff-perfused rat hearts subjected to low-flow ischemia followed by reperfusion (Currie et al., 1988). The mechanisms underlying this protective effect of heat-shock are uncertain although the protection was associated with enhanced content of the antioxidant enzyme catalase but not superoxide dismutase or glutathione peroxidase (Currie et al., 1988). Various investigators have suggested the importance of improved energy metabolism in determining recovery following ischemia (Pasque and Wechsler, 1984; Haas et al., 1984; Devous and Lewandowski, 1987). We therefore examined, using a working rat heart model subjected to 10 or 15 min zero flow ischemia whether changes in energy metabolites could account for the protective effect of the heat-shock response. Hearts perfused 24 h after induction of heat-shock failed to demonstrate significant improvement of recovery following 10 min ischemia, however recovery was significantly enhanced in hearts reperfused after 15 min ischemia. Ischemia produced a depression in both ATP and creatine phosphate (CP) content whereas a moderate elevation in ADP and AMP and a marked increase in tissue lactate were evident. These changes were unaffected by prior heat-shock treatment. For both durations of ischemia tissue metabolites were determined during early (5 min) and late (30 min) reperfusion. Although partial recovery in high energy phosphates and a return of ADP, AMP and lactate to near-normal levels were evident, no differences in energy products were observed between hearts from normal or heat-shocked animals, in spite of significantly enhanced recovery.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Improved post-ischemic ventricular recovery in the absence of changes in energy metabolism in working rat hearts following heat-shock. 223 33

The ethanol-preferring (EP) rats have a higher level of lipid peroxidation in the brain and blood serum than the water-preferring rats. At the same time it was found that EP rats have a decreased antioxidant enzyme activity in the brain tissue (catalase and superoxide dismutase) and blood serum (ceruloplasmin and superoxide dismutase). This antioxidant status can lead to a greater sensitivity of the EP rat brain to ethanol toxicity. The increased catalase activity in blood of EP rats reflects the elevated metabolic tolerance of this group of animals to ethanol.
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PMID:[The characteristics of the enzyme status of the antioxidant protection and the level of lipid peroxidation in the brain tissue and blood of rats with differing preferences for ethanol]. 225 54

Endothelial cells are primary targets for injury by reactive oxygen species. Endothelial catalase, copper-zinc superoxide dismutase (CuZnSOD), and manganous superoxide dismutase (MnSOD) provide potential antioxidant enzymatic defenses against oxidant-induced cellular damage. Previous studies in vivo and in vitro have demonstrated that in certain cell types exposure to oxidants may increase the expression of one or more of these antioxidant enzymes, thus providing greater intracellular potential to withstand oxidant-induced cell stress. To test whether endothelial antioxidant enzyme expression is influenced by similar oxidant-induced stresses in vitro, we have exposed endothelial cells to tumor necrosis factor-alpha (TNF-alpha) and have measured levels of catalase, CuZnSOD and MnSOD mRNA, and protein. Our results demonstrate a selective increase of MnSOD mRNA, with coordinate increases of both MnSOD protein and enzyme activity in endothelial cells treated for 24/h with TNF-alpha. In contrast, levels of catalase and CuZnSOD mRNA and protein remained unchanged in these cells after TNF-alpha treatment. These observations were made in microvessel endothelial cells derived from murine and bovine sources. Our results indicate that TNF-alpha can act specifically to increase enzymatic antioxidant potential in endothelial cells by induction of a particular antioxidant enzyme encoding mRNA species. These data demonstrate the capacity of endothelial cells to mount an antioxidant defense in response to exposure to an inducer of oxidative damage.
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PMID:Expression of bovine and mouse endothelial cell antioxidant enzymes following TNF-alpha exposure. 225

Tracheal insufflation of tumor necrosis factor (TNF) enhances pulmonary antioxidant enzyme activities and protects rats against oxygen toxicity (J. Appl. Physiol. 68: 1211-1219, 1990). We now report that tracheal insufflation of TNF selectively induced pulmonary Mn-superoxide dismutase (SOD) mRNA in normoxia- and hyperoxia-exposed rats, leading to increased amounts of Mn-SOD specific protein and enzyme activity. Tracheal insufflation of TNF had no effect on the levels of pulmonary Cu,Zn-SOD mRNA or specific protein. Hyperoxia alone also selectively induced pulmonary Mn-SOD mRNA. However, the hyperoxia-induced increase in Mn-SOD mRNA was not associated with an increase in Mn-SOD specific protein or enzyme activity. The results suggest that the increased pulmonary Mn-SOD in TNF-insufflated rats may contribute to the TNF-induced protection against oxygen toxicity.
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PMID:Molecular basis for tumor necrosis factor-induced increase in pulmonary superoxide dismutase activities. 226 Jun 78

Oxidants are ubiquitous in our aerobic environment. While they are always toxic, they can also exert pathophysiological effects at low concentrations and play an etiological role in human disease. For example, oxidants can stimulate cell growth and act as tumor promoters. The cellular antioxidant defense system attenuates the effect of oxidants and consists of low molecular weight components and several enzymes. Most important are catalase (CAT), superoxide dismutases (SOD), and glutathione peroxidase. We are attempting to elucidate the role of CAT and Cu,Zn-SOD in oxidant tumor promotion of mouse epidermal cells JB6. We have found that the promotable clone 41 possesses 2- to 3-fold higher levels of activity, protein, and stationary mRNA of CAT and Cu,Zn-SOD than does the nonpromotable clone 30. We propose that the growth-stimulatory effect of oxidants is more pronounced in promotable clone 41 because it is better protected from oxidant toxicity. In order to corroborate this model, we have constructed JB6 cells with higher levels of Cu,Zn-SOD and CAT by transfection with expression vectors containing cDNA for these genes. On the other hand, cells with decreased amounts of Cu,Zn-SOD have been obtained by their stable transfection with a vector containing SOD-cDNA in the antisense orientation. These cell clones with modified antioxidant enzyme complements are being characterized. In particular, their promotability by oxidants and their sensitivity to killing and oxidative macromolecular damage are being measured. Certain tumor promoters that lack oxidizing properties may generate a cellular prooxidant state by a variety of mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic modulation of the cellular antioxidant defense capacity. 227 37

The changes in lipid peroxides (LP) content and antioxidant enzyme activities were investigated on airway surface during the aggravating process of bronchitis induced by SO2 exposure in rats. LP content in broncho-alveolar lavage fluid (BALF) has gradually increased from 3 weeks after starting of SO2 exposure. Whereas, the activities of antioxidant enzymes, superoxide dismutase and glutathione peroxidase, increased at 1 week and then gradually reduced from 3 weeks. The ratio of LP to each antioxidant enzyme activity in BALF of the exposed rats was higher than that of normal rats. Morphological changes of the lung, a decrease of PaO2 and an increase of PaCO2 of blood depended on the increase of LP on airway surface. These findings indicate that LP may be involved in the development of bronchitis.
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PMID:[Changes in lipid peroxides content and antioxidant enzyme activities on airway surface in SO2-induced bronchitic rats]. 227 53

Treatment with endotoxin protects rats against lung injury during hyperoxia (greater than 98% oxygen at 1 atmosphere absolute for 60 h). This study demonstrates that serum from endotoxin-treated donor rats also protects recipients from oxygen toxicity. Rats treated with serum from saline-treated donors were not protected, and protection was not explained by residual endotoxin in protective sera. Unlike endotoxin-protected rats (where lung antioxidant enzyme activity is elevated after hyperoxia), postexposure superoxide dismutase (SOD) and catalase (CAT) activities in the lungs of serum-protected rats were not affected. Levels of tumor necrosis factor (TNF) and interleukin 1 (IL-1) in protective sera were increased. This study demonstrates that increases in lung SOD and CAT activity are not required for endotoxin protection from hyperoxia and suggests that TNF and IL-1 may participate in the mechanism of endotoxin protection.
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PMID:Endotoxin protection of rats from pulmonary oxygen toxicity: possible cytokine involvement. 231 67

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