Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
 8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three forms of non-injurious ischemic preconditioning were tested for their effects on endogenous antioxidant activity and subsequent ischemic injury. Test ischemia alone, consisting of 1 h occlusion of both carotid arteries (BCAs) and one middle cerebral artery (MCA), elicited an average volume of cerebral infarction of 143.4 +/- 15.0 mm3 (mean +/- s.e.m.). Twenty minutes occlusion of the MCA only or MCA and BCAs (but not BCAs only) 24 h before test ischemia significantly increased the activity of the antioxidant enzyme superoxide dismutase and significantly reduced the cerebral infarction volume. These findings demonstrate that brief focal ischemia can attenuate the injurious impact of subsequent ischemia and that an upregulation of endogenous antioxidant activity may play a key role in this neuroprotective effect.
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PMID:Induction of ischemic tolerance and antioxidant activity by brief focal ischemia. 914 Oct 50

Recent evidence has suggested that ischemia-reperfusion injury is fundamental to the pathogenesis of acute pancreatitis. This study was designed to determine whether acute pancreatitis is associated with elevated serum manganese superoxide dismutase (MnSOD), a key antioxidant enzyme, considered a marker of ischemia-reperfusion injury in myocardial infarction. Thirty-four patients with acute pancreatitis had measurements of MnSOD on days 0, 2, and 5 after recruitment. The patients were recruited within 12 h of admission to hospital and had measurements of MnSOD on days 0, 2, and 5. Patients with severe acute pancreatitis had significantly elevated serum MnSOD concentrations on days 2 and 5 compared with patients with mild acute pancreatitis, but not on the day of recruitment. Elevated serum MnSOD correlated with peripheral plasma markers of lipid peroxidation (malondialdehyde) and neutrophil activation (myeloperoxidase) and was associated with decreased plasma ascorbic acid concentrations. The serial measurement of serum MnSOD may prove useful as a marker of the effectiveness of treatment designed to limit ischemia-reperfusion injury in patients with severe acute pancreatitis.
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PMID:Manganese superoxide dismutase: a marker of ischemia-reperfusion injury in acute pancreatitis? 921 96

Oxygen free radicals are postulated to participate in the pathogenesis of ischemic brain injury. The present study investigated the response of the endogenous antioxidant enzyme, superoxide dismutase (SOD), in a model of transient focal ischemia in the rat neocortex. SOD activity was increased significantly in the penumbra region at 6-24 h postischemia, while no significant changes in SOD activity were observed in either the core region or striatum. These results indicate that endogenous antioxidant activity is differentially affected by the intensity of ischemic challenge and suggest that the regional effects of oxygen free radicals may vary substantially following ischemia-reperfusion.
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PMID:Differential induction of superoxide dismutase in core and penumbra regions after transient focal ischemia in the rat neocortex. 938 88

The activities of rat hepatic subcellular antioxidant enzymes were studied during hepatic ischemia/reperfusion. Ischemia was induced for 30 min (reversible ischemia) or 60 min (irreversible ischemia). Ischemia was followed by 2 or 24 h of reperfusion. Hepatocyte peroxisomal catalase enzyme activity decreased during 60 min of ischemia and declined further during reperfusion. Peroxisomes of normal density (d = 1.225 gram/ml) were observed in control tissues. However, 60 min of ischemia also produced a second peak of catalase specific activity in subcellular fractions corresponding to newly formed low density immature peroxisomes (d = 1.12 gram/ml). The second peak was also detectable after 30 min of ischemia followed by reperfusion for 2 or 24 h. Mitochondrial and microsomal fractions responded differently. MnSOD activity in mitochondria and microsomal fractions increased significantly (p < 0.05) after 30 min of ischemia, but decreased below control values following 60 min of ischemia and remained lower during reperfusion at 2 and 24 h in both organelle fractions. Conversely, mitochondrial and microsomal glutathione peroxidase (GPx) activity increased significantly (p < 0.001) after 60 min of ischemia and was sustained during 24 h of reperfusion. In the cytosolic fraction, a significant increase in CuZnSOD activity was noted following reperfusion in animals subjected to 30 min of ischemia, but 60 min of ischemia and 24 h of reperfusion resulted in decreased CuZnSOD activity. These studies suggest that the antioxidant enzymes of various subcellular compartments respond to ischemia/reperfusion in an organelle or compartment specific manner and that the regulation of antioxidant enzyme activity in peroxisomes may differ from that in mitochondria and microsomes. The compartmentalized changes in hepatic antioxidant enzyme activity may be crucial determinant of cell survival and function during ischemia/reperfusion. Finally, a progressive decline in the level of hepatic reduced glutathione (GSH) and concomitant increase in serum glutamate pyruvate transaminase (SGPT) activity also suggest that greater tissue damage and impairment of intracellular antioxidant activity occur with longer ischemia periods, and during reperfusion.
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PMID:Studies on hepatic injury and antioxidant enzyme activities in rat subcellular organelles following in vivo ischemia and reperfusion. 940 79

The goal of this study was to examine whether chronic administration of propranolol offers protection against ischemia-reperfusion injury and whether it induces any change in the myocardial endogenous antioxidant enzyme activities and their gene expression. Rats were treated with propranolol (10 mg/kg/day, i.p.) for either 6 or 18 days. Forty-eight h after the last propranolol injection, isolated hearts were subjected to 60 min of global ischemia and 40 min of reperfusion. Resting tension in the control and treated groups after ischemia was 385+/-30 and 150+/-15%; and upon reperfusion was 140+/-11 and 49+/-6%, respectively, as compared to the pre-ischemic values. Recovery of the contractile function in globally ischemic hearts upon reperfusion was about 35% in the treated group as compared to about 16% in the control group at 10 and 20 min. A positive response to catecholamine was observed in hearts from propranolol group (C, 3.41+/-0.36; epi, 6.03+/-0.47 g/g) and was comparable to control hearts (C, 3.55+/-0.31; epi, 6.48+/-0.42 g/g). Myocardial antioxidants, catalase and glutathione peroxidase enzyme activities, in the treated group, prior to ischemia-reperfusion were increased by 67+/-9 and 45+/-11%, respectively, over those in controls. Superoxide dismutase activity did not show any change. The mRNA expression for the three antioxidant enzymes did not change in the hearts of the treated group as compared to control. Lipid peroxidation, both before and after the ischemia-reperfusion episode, was significantly reduced in the propranolol-treated hearts compared to the control group. Hearts studied at the end of reperfusion showed no difference in enzyme activities between treated and control groups. These data show that propranolol treatment of the animals protects against ischemia-reperfusion injury in isolated hearts in the absence of beta-blockade. Increased endogenous antioxidant enzyme activities due to propranolol treatment may have a role in this protection.
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PMID:Chronic treatment with propranolol induces antioxidant changes and protects against ischemia-reperfusion injury. 944 39

We have recently developed a porcine model with naturally occurring hypertrophic cardiomyopathy (HCM). Similar to humans, occluded intramural coronary artery and damaged mitochondria are frequently observed in these animals in which the disease is thought to be associated with the local ischemia of myocardium. In view of antioxidant functions involved in the ischemic injury, we measured the expression of endogenous antioxidant enzymes in the tissues with and without HCM. The results showed a significant increase of Cu,Zn-superoxide dismutase (SOD), but not Mn-SOD, and decrease of catalase (CAT) activities in the various areas of HCM hearts. It was demonstrated that SOD/CAT ratios in the HCM hearts were significantly higher than those in normals and were found to be dramatically correlated with the severity of cardiac hypertrophy. The altered SOD/CAT ratio was also consistent with increase in lipid damage. We hypothesize that the elevated SOD combined with an inadequate amount of H2O2 scavenging enzyme may lead HCM heart at oxidative stress risk. However, the pathogenic role of imbalanced antioxidant enzyme needs to be further explored.
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PMID:Alteration of endogenous antioxidant enzymes in naturally occurring hypertrophic cardiomyopathy. 944 21

The effects of Vitamin E administration on antioxidant enzyme activities and nitrite-nitrate levels of the reperfused rat kidney tissues were investigated by performing a 60 min ischemia followed by 24 and 72 hours of reperfusion. Vitamin E administration or the placebo (SF) was applied as 100 mg/kg BW. As expected, catalase (CAT) (p<0.05) and superoxide dismutase (SOD) (p<0.05) activities of ischemia/reperfused (I/R) kidney tissue were lower and malondialdehyde (MDA) levels were higher than control kidneys in both SF and vitamin E treated groups following 24 h reperfusion. During reperfusion of long term (72 h), vitamin E triggered a decrease in the MDA levels in the ischemic tissue, while it did not provoke a significant effect on SOD and catalase activities. Total nitrite levels of ischemic tissues in both of the groups were higher than matched control kidneys and this elevation was more clear in the vitamin E treated group. Our results showed that vitamin E has a protective effect on I/R injury, by a direct chain breaking effect on lipid peroxidation (LPO) and hence preventing the nitric oxide (NO) reservoir of ischemic tissue. Alfa-tocopherol may be a promising agent for the prevention of tissue injury caused by free oxygen radicals.
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PMID:Effect of vitamin E on antioxidant enzymes and nitric oxide in ischemia-reperfused kidney injury. 962 81

The roles of enzymatic antioxidant defenses in the natural tolerance of environmental stresses that impose changes in oxygen availability and oxygen consumption on animals is discussed with a particular focus on the biochemistry of estivation and metabolic depression in pulmonate land snails. Despite reduced oxygen consumption and PO2 during estivation, which should also mean reduced production of oxyradicals, the activities of antioxidant enzymes, such as superoxide dismutase and catalase, increased in 30 day-estivating snails. This appears to be an adaptation that allows the snails to deal with oxidative stress that takes place during arousal when PO2 and oxygen consumption rise rapidly. Indeed, oxidative stress was indicated by increased levels of lipid peroxidation damage products accumulating in hepatopancreas within minutes after arousal was initiated. The various metabolic sites responsible for free radical generation during arousal are still unknown but it seems unlikely that the enzyme xanthine oxidase plays any substantial role in this despite being implicated in oxidative stress in mammalian models of ischemia/reperfusion. We propose that the activation of antioxidant defenses in the organs of Otala lactea during estivation is a preparative mechanism against oxidative stress during arousal. Increased activities of antioxidant enzymes have also observed under other stress situations in which the actual production of oxyradicals should decrease. For example, antioxidant defenses are enhanced during anoxia exposure in garter snakes Thamnophis sirtalis parietalis (10 h at 5 degrees C) and leopard frogs Rana pipiens (30 h at 5 degrees C) and during freezing exposure (an ischemic condition due to plasma freezing) in T. sirtalis parietalis and wood frogs Rana sylvatica. It seems that enhancement of antioxidant enzymes during either anoxia or freezing is used as a preparatory mechanism to deal with a physiological oxidative stress that occurs rapidly within the early minutes of recovery during reoxygenation or thawing. Thus, a wide range of stress tolerant animals display coordinated changes in antioxidant defenses that allow them to deal with oxidative stress that occurs as part of natural cycles of stress/recovery that alter oxygen levels in tissues. The molecular mechanisms that trigger and regulate changes in antioxidant enzyme activities in these species are still unknown but could prove to have key relevance for the development of new intervention strategies in the treatment of cardiovascular ischemia/reperfusion injuries in humans.
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PMID:Antioxidant defenses and metabolic depression. The hypothesis of preparation for oxidative stress in land snails. 978 4

Reactive oxygen species (ROS) have been implicated in the pathogenesis of many clinical disorders such as adult respiratory distress syndrome, ischemia-reperfusion injury, atherosclerosis, neurodegenerative diseases, and cancer. Genetically engineered animal models have been used as a tool for understanding the function of various antioxidant enzymes in cellular defense mechanisms against various types of oxidant tissue injury. Transgenic mice overexpressing three isoforms of superoxide dismutase, catalase, and the cellular glutathione peroxidase (GSHPx-1) in various tissues show an increased tolerance to ischemia-reperfusion heart and brain injury, hyperoxia, cold-induced brain edema, adriamycin, and paraquat toxicity. These results have provided for the first time direct evidence demonstrating the importance of each of these antioxidant enzymes in protecting the animals against the injury resulting from these insults, as well as the effect of an enhanced level of antioxidant in ameliorating the oxidant tissue injury. To evaluate further the nature of these enzymes in antioxidant defense, gene knockout mice deficient in copper-zinc superoxide dismutase (CuZnSOD) and GSHPx-1 have also been generated in our laboratory. These mice developed normally and showed no marked pathologic changes under normal physiologic conditions. In addition, a deficiency in these genes had no effects on animal survival under hyperoxida. However, these knockout mice exhibited a pronounced susceptibility to paraquat toxicity and myocardial ischemia-reperfusion injury. Furthermore, female mice lacking CuZnSOD also displayed a marked increase in postimplantation embryonic lethality. These animals should provide a useful model for uncovering the identity of ROS that participate in the pathogenesis of various clinical disorders and for defining the role of each antioxidant enzyme in cellular defense against oxidant-mediated tissue injury.
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PMID:The nature of antioxidant defense mechanisms: a lesson from transgenic studies. 978 1

After an ischemic episode induced by the electrocoagulation of the left middle cerebral artery (MCA) in mouse, neurons within the damaged territory die either by an apoptotic or by a necrotic process. Most of the cortical neurons within the ischemic area display both morphological and biochemical signs of programmed cell death: nuclear condensation, DNA degradation, formation of apoptotic bodies, and glutathione depletion. In fact, apoptosis essentially contributes to the expansion of the ischemic lesion and the maximum of damaged territory is reached 24 h postocclusion. Several potentially neuroprotective pathways have been evidenced in different experimental models of ischemia including the activation of antioxidant enzyme activities and/or the recruitment of neurotrophic as well as antiapoptotic factors. In our model of permanent focal ischemia induced by MCA occlusion, we measured the temporal synthesis of nerve growth factor (NGF) and examined the status of antioxidant enzymes as well as Bcl-2 antiapoptotic product. We detected in both cortices a transient increase of NGF which peaks at 6 h. Moreover, we reported that glutathione peroxidase is recruited with a time course which parallels NGF synthesis. Finally, we observed the induction of Bcl-2 in safe neurons; this may represent a self-protective response against ischemia-induced apoptosis. We provide evidence that in a model of permanent focal ischemia, several neuroprotective pathways could be coactivated.
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PMID:Recruitment of several neuroprotective pathways after permanent focal ischemia in mice. 987 75


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