Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.9 (glutathione peroxidase)
 22,002 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of anti-oxidant enzymes in the brains of newborn piglets were studied under the condition of ischemic hypoxia followed by reperfusion. The activity of superoxide dismutase, catalase, glutathione peroxidase, glutathione reductase and glucose-6-phosphate dehydrogenase, was determined in the brain tissue of control animals and animals exposed to 60 min of hypoxia followed by 30 min of normoxia. The results showed that the activities of these enzymes were not significantly affected by hypoxia and subsequent reperfusion, suggesting that under these conditions the anti-oxidant system is not a target for, nor is its inhibition a cause of, cellular damage. It is proposed that the anti-oxidant enzyme system in the brain is non-responsive to and may not play a role during hypoxia/ischemia and subsequent reperfusion.
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PMID:Anti-oxidant enzymes in the brain of newborn piglets during ischemia followed by reperfusion. 235 95

Recently, oxygen free radicals have appeared to play a major role in injury after ischemia, especially that followed by normoxic reperfusion. To clarify the mechanisms of reperfusion injury, the activities of both oxygen radical producing enzymes and radical scavenging enzymes were measured in the ischemic rat kidney followed by reperfusion. All defensive enzymes activities significantly decreased; superoxide dismutase 2.15 +/- 0.14----1.71 +/- 0.11, catalase 186.6 +/- 12.7----116.5 +/- 7.1, glutathione peroxidase 30.0 +/- 2.6----19.1 +/- 2.9, glutathione reductase 118 +/- 5.1----39.9 +/- 6.8 (U/mg protein). Conversion from xanthine dehydrogenase to xanthine oxidase was only 12% of total activity, and all of them were reversible type oxidase. However, it was suggested by the electron spin resonance method that the tissue xanthine oxidase freed of superoxide dismutase could produce oxygen free radicals. In conclusion, reperfusion injury is caused not only by the increase of oxygen free radicals but by the destruction of scavenging systems.
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PMID:[Mechanisms of reperfusion injury of rat kidney]. 237 11

The purposes of this study were to determine whether exercise training induces increases in skeletal muscle antioxidant enzymes and to further characterize the relationship between oxidative capacity and antioxidant enzyme levels in skeletal muscle. Male Sprague-Dawley rats were exercise trained (ET) on a treadmill 2 h/day at 32 m/min (8% incline) 5 days/wk or were cage confined (sedentary control, S) for 12 wk. In both S and ET rats, catalase (CAT), superoxide dismutase (SOD), and glutathione peroxidase (GPX) activities were directly correlated with the percentages of oxidative fibers in the six skeletal muscle samples studied. Muscles of ET rats had increased oxidative capacity and increased GPX activity compared with the same muscles of S rats. However, SOD activities were not different between ET and S rats, but CAT activities were lower in skeletal muscles of ET rats than in S rats. Exposure to 60 min of ischemia and 60 min of reperfusion (I/R) resulted in decreased GPX and increased CAT activities but had little or no effect on SOD activities in muscles from both S and ET rats. The I/R-induced increase in CAT activity was greater in muscles of ET than in muscles of S rats. Xanthine oxidase (XO), xanthine dehydrogenase (XD), and XO + XD activities after I/R were not related to muscle oxidative capacity and were similar in muscles of ET and S rats. It is concluded that although antioxidant enzyme activities are related to skeletal muscle oxidative capacity, the effects of exercise training on antioxidant enzymes in skeletal muscle cannot be predicted by measured changes in oxidative capacity.
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PMID:Skeletal muscle oxidative capacity, antioxidant enzymes, and exercise training. 238 14

To investigate the functional role of renal intrinsic antioxidant enzymes (AOEs), the levels of AOE activities in isolated glomeruli and the changes in renal function to oxidant insults were assessed in normal control rats (NC, N = 23) and rats subjected to 30-minutes of complete renal ischemia for three days (day-3, N = 20) or six days (day-6, N = 23) prior to study. When compared to NC, the activities of total and manganese (cyanide-insensitive) superoxide dismutase, glutathione peroxidase, and catalase were increased more than twofold in day-6 animals, on average, from 36 +/- 4 U/mg protein, 9 +/- 1 U/mg protein, 129 +/- 21 U/mg protein and 1.32 +/- 0.20 k/mg protein, respectively, to 80 +/- 5, 27 +/- 3, 283 +/- 41 and 3.20 +/- 0.20, respectively (P less than 0.05 for all). There were no changes in AOE activities in day-3 animals. In day-6 animals, however, the activities of non-AOEs, LDH and fumarase were found to be unaffected. Separate groups of NC (N = 12), day-3 (N = 5) and day-6 (N = 12) rats were subjected to either 30 minutes of ischemia plus 60 minutes of reperfusion (I/R) or unilateral i.a. infusion of hydrogen peroxide (H2O2, 35 mu moles in 1 hr). The degree of reduction in inulin and para-amino hippurate clearance rates following I/R were significantly less in day-6 (-21 +/- 3% and -12 +/- 2, respectively) compared to NC (-69 +/- 9% and -59 +/- 11, respectively) or day-3 rats (-73 +/- 7% and -62 +/- 10, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of intrinsic antioxidant enzymes in renal oxidant injury. 240 19

Clinical and experimental evidence demonstrates that hypertrophied cardiac tissue is more sensitive to ischemic injury than is normal myocardium. Recent studies indicate that cardiac ischemia-reperfusion injury involves the generation of toxic oxygen free radicals. We used the spontaneously hypertensive rat (SHR) model, with its otherwise genetically identical control (the Wistar-Kyoto [WKY] rat), to investigate the potential role of enzymes that generate and detoxify oxygen radicals in the sensitivity of hypertrophied heart to ischemia and reperfusion. Because hypertension develops progressively with age in SHRs, we assayed xanthine oxidase, superoxide dismutase, catalase, and glutathione peroxidase at three different time points and found significant fluctuations at different ages. At age 26 weeks, physiological measurements demonstrated hypertension and increased sensitivity to ischemia and reperfusion, measured as significantly decreased left ventricular recovery after injury. At this age, xanthine oxidase, which may generate oxygen radicals, was significantly increased in SHR compared with WKY rats (p = 0.003). Superoxide dismutase, which is a principal step in oxygen-radical detoxification, was significantly lower (p = 0.044). These data suggest that differences in the constitutive levels of oxygen-radical metabolic pathways are different in hypertrophied myocardium, and it is suggested that this finding may play a role in the response of these hearts to ischemia-reperfusion injury.
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PMID:Response to ischemia-reperfusion injury in hypertrophic heart. Role of free-radical metabolic pathways. 253 7

I have developed the new procedure for the preparation of experimental ischemic spinal cord from dog. Using this preparation, I have measured the enzymatic activities of superoxide dismutase (SOD), catalase, and glutathione peroxidase. The ischemic spinal cords, monitored by the evoked spinal cord potential, were obtained after clamping bilateral subclavian arteries and aorta distal to the origin of the left subclavian artery. Total SOD activity of the normal spinal cord was one ninth lower than that of the brain. But its catalase activity was eight times higher. Total SOD, Mn-SOD, and glutathione peroxidase activities of my experimental ischemic spinal cord didn't change as compared with those of the normal ones. The catalase activity was decreased after spinal cord ischemia. These results indicate that the catalase plays the main of protection against peroxidative damage in the spinal cord induced by reperfusion, Ca++-dependent protease system may be involved in the decrease for catalase activity in addition to the high turnover rate of this enzyme. In summary, ischemic injury of spinal cord could be induced from the active oxygen species as well as disorder of Ca++ in the tissue.
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PMID:[Experimental studies on the mechanism of spinal cord ischemia--the state of free radical scavengers]. 254 42

Hearts isolated from rats pretreated 24 hr before with endotoxin had increased myocardial catalase activity, but the same superoxide dismutase, glutathione peroxidase, glutathione reductase, and glucose-6-phosphate dehydrogenase activities, as hearts from untreated rats. Hearts isolated from rats pretreated with endotoxin 24 hr before also had increased myocardial function (decreased injury) after ischemia and reperfusion (Langendorff apparatus, 37 degrees C), as assessed by measurement of ventricular developed pressure, contractility (+dP/dt), and relaxation rate (-dP/dt), compared to control hearts. In contrast, hearts isolated from rats pretreated with endotoxin 1 hr before isolation or hearts perfused with endotoxin did not have increased catalase activity or decreased injury following ischemia and reperfusion. Aminotriazole pretreatment prevented increases in myocardial catalase activity and myocardial function after ischemia-reperfusion in hearts from endotoxin-pretreated rats. The results suggest that endotoxin pretreatment decreases cardiac ischemia-reperfusion injury and that increases in endogenous myocardial catalase activity contribute to protection.
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PMID:Endotoxin pretreatment increases endogenous myocardial catalase activity and decreases ischemia-reperfusion injury of isolated rat hearts. 264 6

Reperfusion syndrome and lipid peroxidation due to toxic effects of free oxygen radicals might be one pathophysiological cause of the oedema that develops during the first week after a femoro-popliteal reconstruction. This paper reports the activity of the protecting antioxidant enzymes superoxide dismutase (SOD), glutathione peroxidase and catalase in gastrocnemic muscle before and after reperfusion of chronically ischaemic legs with comparison to activities in non-ischaemic muscle. Furthermore the susceptibility to lipid peroxidation in the muscle was measured as thiobarbituric acid reactive material (TBAR). The activities of CuZn SOD, Mn SOD and glutathione peroxidase were equal in normally perfused and chronically ischaemic muscle and there was no difference after reperfusion. Muscle catalase activity was low compared to activity of red blood cells and could not be reliably estimated. There was no difference in iron-stimulated lipid peroxidation of ischaemic and non-ischaemic muscle but in reliably estimated. There was no difference in iron-stimulated lipid peroxidation of ischaemic and non-ischaemic muscle but in muscle biopsied 10 min after reperfusion there was a significant increase in production of TBAR indicating an increased susceptibility for lipid peroxidation at this time. The finding is compatible with the occurrence of an oxidant insult on the muscle at reperfusion. Ischaemia--or reperfusion--induced reductions in activity of antioxidant enzymes are however not related to this reaction.
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PMID:Lipid peroxidation and activity of antioxidant enzymes in muscle of the lower leg before and after arterial reconstruction. 280 70

In the rabbit myocardium, ischemia (produced by ligation of the left circumflex coronary artery) is associated with a reduction in antioxidant capacity. This is reflected by an increased glutathione depletion and production of thiobarbituric acid reactive substances following in vitro oxidative challenge with t-butylhydroperoxide. This effect is greatly intensified by reperfusion following periods of ischemia longer than 20 mins, thereby paralleling the onset of irreversible injury. Chronic allopurinol pretreatment (1 mg/mL in drinking water or approximately 75 mg/kg/day for seven days prior to ligation) provides significant protection of the ischemic/reperfused myocardium to t-butylhydroperoxide induced glutathione depletion and production of thiobarbituric acid reactive substances. This protection was not associated with any significant alterations in levels of tissue ATP or in the activities of the myocardial antioxidant enzymes catalase, copper,zinc-superoxide dismutase or glutathione peroxidase, suggesting that allopurinol may exert its effects by direct radical scavenging or by some other mechanism unrelated to xanthine oxidase inhibition.
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PMID:Altered antioxidant status in the ischemic/reperfused rabbit myocardium: effects of allopurinol. 281 60

We hypothesize that oxygen free radicals are involved in the genesis and maintenance of volume and pressure overload heart failure. Pressure and volume overload would produce myocardial ischemia. During ischemia there will be an increase in xanthine and xanthine oxidase; and a decrease in the superoxide dismutase and glutathione peroxidase activity leading to an increase in the oxygen free radicals. A decrease in the cellular pH during ischemia would release phospholipase which would, in turn, release arachidonic acid from phospholipids. Leukotrienes and prostaglandins will be synthesized through arachidonic acid metabolism. During this synthesis not only oxygen free radicals will be produced but also there will be formation of leukotriene, LTB4, which is known to activate neutrophil and hence increased secretion of oxygen free radicals. Increased circulatory catecholamines due to compensatory mechanism would also lead to an increase in the oxygen free radicals. Oxygen free radicals are known to depress Ca++ binding and uptake of sarcoplasmic reticulum which would lead to a decrease in the myocardial contractility. We have shown that oxygen free radicals depress cardiac function and cardiac contractility. It is, therefore, suggested that oxygen free radicals might be involved in the development of heart failure. The use of agents that reduce the amount of oxygen free radicals would be of value in the prevention and treatment of heart failure.
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PMID:Oxygen free radicals and heart failure. 283 9


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