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)

It is currently believed that reperfusion injury of the ischemic or hypoxic myocardium can be attributed, at least in part, to an overproduction of reactive oxygen species (ROS). The aim of the present study was to determine whether ischemia (of different severity or duration) followed by reperfusion can affect the activity of endogenous scavenger enzymes in isolated perfused rat hearts. Isolated Langendorff perfused rat hearts were subjected to either total (10, 20 or 30 min; zero-flow) or partial (30, 60 or 90 min; low-flow of 0.10 or 0.35 ml/min) ischemia, followed by 10 min of reperfusion. Enzymatic activities of total superoxide dismutase (SOD), catalase and glutathione peroxidase (GPx) were determined in cardiac tissues at the end of the perfusion protocol. Basal scavenger enzyme activities measured in control hearts (perfused under normoxic conditions) were 33.90 +/- 4.88, 31.20 +/- 5.32 and 1.61 +/- 0.29 IU/mg protein (mean +/- SD, n = 6 per group) for SOD, catalase and GPx respectively. Our results indicate that neither total SOD, GPx, nor catalase myocardial activities were changed whatever the perfusion protocol followed. The present study shows that the endogenous pool of catalytic ROS scavengers is not dramatically altered during ischemia or upon reperfusion. This suggests that ROS scavengers are not directly involved in the development of ischemia/reperfusion injuries. These results also support the premise that excessive radical generation does not occur in this model, where the isolated heart is subjected to ischemia.
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PMID:Relationship between severity of ischemia and oxidant scavenger enzyme activities in the isolated rat heart. 775 83

Adaptation to various forms of stress has been found to be associated with increased cellular tolerance to myocardial ischemia. In this study, the effects of myocardial adaptation to oxidative stress was examined by injecting rats with endotoxin (0.5 mg/kg) and its non-toxic derivative, lipid A (0.5 mg/kg). Both compounds exerted oxidative stress within 1 h of treatment as evidenced by enhanced malonaldehyde formation. The oxidative stress disappeared steadily and progressively with time in concert with the appearance of the induction of glutathione and antioxidative enzymes that included superoxide dismutase, catalase, glutathione peroxidase and glutathione reductase. After 24 h of endotoxin or lipid A treatment, the amount of oxidative stress and antioxidant enzyme levels were significantly lower and higher, respectively, compared to those at the baseline levels. Corroborating these results, both endotoxin and lipid A provided protection against myocardial ischemia and reperfusion injury as evidenced by a significantly improved postischemic recovery of left ventricular functions. The data presented here demonstrates that a controlled amount of oxidative stress induces the expression of intracellular antioxidants that can result in enhanced myocardial tolerance to ischemia. This suggests that myocardial adaptation to oxidative stress may be a potential tool for reduction of ischemic/reperfusion injury.
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PMID:Oxidative stress adaptation improves postischemic ventricular recovery. 779 47

The impact of cardiac hypertrophy on myocardial biochemical and physiological responses to ischaemia-reperfusion (I-R) was investigated in vivo. Hypertrophy was produced by aortic constriction (PH) or swimming training (TH). Open-chest rat hearts in PH, TH and a sedentary control group (SC) were subjected: (1) to ischaemia, by surgical occlusion of the main descending branch of the left coronary artery for 30 min; (2) to I-R, by releasing the occluded blood vessel for 15 min; or (3) to a sham operation. Ischaemia per se had little effect on heart oxidative and antioxidant status, or lipid peroxidation. However, I-R significantly decreased glutathione (GSH) content, increased glutathione disulfide (GSSG) content, and reduced GSH/GSSG ratio in the SC hearts. These alterations were associated with decreased activities of GSH peroxidase and GSSG reductase, and an increase in lipid peroxidation. Myocardial ATP, total adenine nucleotide content and energy charge in SC were significantly decreased after ischaemia, whereas levels of purine nucleotide derivatives, particularly adenosine, were elevated. No significant alteration of GSH status of adenine nucleotide metabolism occurred after ischaemia or I-R in hypertrophied hearts. In both PH and TH, glutathione content was significantly higher than in SC, whereas activities of GSH peroxidase and GSSG reductases were lower. TH rats maintained a higher heart rate (HR), peak systolic pressure, and energy charge during I-R. These data indicate that hypertrophied but well-functioned hearts may be more resistant to I-R induced disturbances of myocardial oxidative and antioxidant functions.
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PMID:Cardiac hypertrophy alters myocardial response to ischaemia and reperfusion in vivo. 797 1

To assess right colic artery blood flow and relevance of xanthine dehydrogenase/xanthine oxidase after experimentally induced strangulation obstruction and reperfusion of the colon, 5 ponies were subjected to 2.5 hours of complete ischemia of the left dorsal and ventral colons, allowed to recover from surgery, and monitored during a 48-hour reperfusion period. Five ponies were subjected to sham surgery and served as controls. All ponies had a Doppler ultrasound blood flow monitor implanted on the right colic artery near the pelvic flexure 10 to 14 days prior to the ischemic period. Colic artery blood flow was monitored prior to, during, and for 4 hours after surgery. Blood samples from the right colic artery and vein distal to the obstruction site were collected during surgery (prior to ischemia, after 1 and 2 hours of ischemia, and after 10 and 60 minutes of reperfusion) for determination of arterial and venous blood gas tensions and electrolytes. Prior to surgery, blood selenium and plasma vitamin E (alpha-tocopherol) concentrations and blood glutathione peroxidase (GPX) activity were determined to assess the status of endogenous antioxidants. Combined xanthine dehydrogenase (XDH) plus xanthine oxidase (XO) activity, and XO activity alone (nanomoles per minute per gram of tissue) were determined, using a dual-spectrophotometric technique. Xanthine dehydrogenase and oxidase activities were determined prior to ischemia, after 1 and 2 hours of ischemia, and at 1 and 48 hours after reperfusion. Median blood flow in the experimental and control groups (156 ml/min and 110 ml/min, respectively) was not statistically different before surgery, and was significantly (P < 0.02) lower in the experimental (4 ml/min) vs the control group (72.5 ml/min) during the ischemic period. Experimental ponies had significantly (P < 0.03) lower right colic artery blood flow during the 4 hours immediately after recovery from anesthesia. Significant difference was not observed in right colonic venous bicarbonate concentration between groups at any time. Median right colonic venous PCO2, pH, and standard base excess were different (P < 0.001) between groups during the ischemic period only. Median venous oxygen saturation and median venous PO2 were significantly (P < 0.001) lower in the experimental ponies at the end of 2 hours of ischemia, but were significantly (P < 0.05) increased during the reperfusion phase. Median venous potassium concentration was significantly (P < 0.01) higher in experimental ponies during the ischemic and reperfusion phases. Vitamin E and GPX values were within normal limits for all ponies.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Measurements of blood flow and xanthine oxidase activity during postischemic reperfusion of the large colon of ponies. 797 59

Earlier, we reported that rat liver peroxisomes contain Cu-Zn superoxide dismutase (J. Biol. Chem. 267, 6870), thereby suggesting a new antioxidant role for this organelle in free radical metabolism. In this study, we report for the first time that mammalian peroxisomes also contain glutathione peroxidase. Using highly purified rat liver peroxisomes isolated by Nycodenz gradient, we found that peroxisomes contain glutathione peroxidase which shows enzymatic activity with different substrates such as hydrogen peroxide, cumene hydroperoxide, and t-butyl hydroperoxide. This activity could be inhibited in vitro by mercaptosuccinate. Western blot analysis revealed that peroxisomes from control and ciprofibrate-treated livers show immunoreactive bands with antibodies raised against glutathione peroxidase. The intraperoxisomal distribution of glutathione peroxidase was investigated by using peroxisomal membrane and matrix proteins. The results revealed that glutathione peroxidase is a matrix enzyme. The presence of glutathione peroxidase in peroxisomes provides an alternate enzyme system responsible for the degradation of organic peroxides and the degradation of H2O2 under conditions in which catalase is inactivated (e.g., ischemia-reperfusion and endotoxemia). These findings suggest that glutathione peroxidase in peroxisomes may play a novel role in the cellular antioxidant responses to various oxidative stress conditions.
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PMID:Demonstration of glutathione peroxidase in rat liver peroxisomes and its intraorganellar distribution. 798 75

Oxygen free radicals have been implicated in the pathogenesis of ischemic cell injuries. These free radicals are normally scavenged by antioxidant enzymes. Adenosine is normally released during ischemia and protects against ischemic injuries by interacting with adenosine receptors (ARs). The mechanism underlying its cytoprotective action is unclear. In this report, we provide evidence that activation of a unique A3AR in rat basophilic leukemia cells (RBL-2H3) leads to a 2 to 3 fold increase in activity of superoxide dismutase, catalase and glutathione peroxidase and also increases in the activity of glutathione reductase. Similar increases in enzyme activity were elicited in bovine and human endothelial cells, rat cardiac myocytes and smooth muscle cells. Increases in enzyme activity were attenuated by theophylline (an antagonist of the A3AR) and by pertussis toxin, implicating a role of A3AR/Gi protein in the activation. Importantly, activation of the A3AR decreased the degree of lipid peroxidation in these cells. These data provide strong evidence that the cytoprotective action of adenosine during ischemic cell injuries is mediated, at least in part, via a novel mechanism-activation of the cellular antioxidant enzymes.
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PMID:Adenosine acts as an endogenous activator of the cellular antioxidant defense system. 800 80

Recently we have shown that intracellular low molecular weight (LMW) iron increases during ischemia. It is hypothesized that this increase in LMW iron during ischemia underlies the reported hydrogen peroxide toxicity toward ischemic hearts. To investigate this hypothesis, rat hearts were subjected to 15 min of no-flow ischemia and reperfused with buffer saturated against 95% N2 and 5% CO2 (anoxic reperfusion) for 7 min. Hearts were then switched to buffer saturated against 95% O2 and 5% CO2 (reoxygenation) to assess functional recovery. The cardiac function recovered to 80 +/- 7% of the preischemic value. When the anoxic reperfusion was applied in the presence of 10 microM hydrogen peroxide, functional recovery after reoxygenation was 47 +/- 7%. Hearts that were perfused with deferoxamine before ischemia and then subjected to ischemia and anoxic reperfusion in the presence of 10 microM hydrogen peroxide recovered to 78 +/- 8%. Immediate reoxygenation after ischemia led to only 45 +/- 6% recovery of function. During ischemia, LMW iron increased from 49 +/- 45 to 183 +/- 45 pmol/mg protein (p < .05) and decreased to 58 +/- 38 pmol/mg protein (p < .05) during the subsequent anoxic perfusion. Rat hearts preloaded with deferoxamine showed a slightly higher LMW iron content than normal (85 +/- 23 and 49 +/- 45 pmol/mg protein, respectively; n.s.), which showed a small, nonsignificant increase up to 136 +/- 42 pmol/mg protein after 15 min of ischemia. No significant changes were found in reduced and oxidized glutathione content and glutathione peroxidase or catalase activities under those conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The increased susceptibility to hydrogen peroxide of the (post-)ischemic rat heart is associated with the magnitude of the low molecular weight iron pool. 800 30

In 20 patients receiving cold crystalloid cardioplegia (n = 10) or cold blood cardioplegia (n = 10) during elective coronary artery bypass grafting, the atrial myocardium was tested for glutathione-related antioxidant defenses and lipid peroxidation. In both groups, ischemia and reperfusion induced a significant increase in lipid peroxidation values (p < 0.05) that was associated with a depression of nonprotein thiol compound levels (p < 0.05). Compared with the cold crystalloid cardioplegia-treated patients, the cold blood cardioplegia-treated patients showed a lower lipid peroxidation (p < 0.05) and higher values of nonprotein thiol compounds (p < 0.05). Moreover, a significant ischemia and reperfusion-dependent activation of glutathione transferase was observed only in the cold crystalloid cardioplegia-treated patients. Selenium-dependent glutathione peroxidase and glutathione reductase activities did not change after release of the aortic cross-clamp and did not differ between the two groups. The highest postoperative plasma level of the myocardial-specific isoenzyme of creatine kinase was significantly more elevated in the cold crystalloid cardioplegia patients. Overall, these tissue biochemical features indicate a lower oxidant burden in the myocardium of cold blood cardioplegia-treated patients, a finding suggesting superior protection for the ischemic and reperfused human myocardium also through antioxidant-type mechanisms, apparently medicated by the antioxidant capacity of erythrocytes and specific plasma molecules.
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PMID:Blood cardioplegia reduces oxidant burden in the ischemic and reperfused human myocardium. 801 Jul 96

It is well known that reperfusion damage of ischemic myocardium may be attributed to alterations in the antioxidant defense system against free radical aggression. In addition, the degree of myocardial damage may depend on the duration and severity of ischemia that precedes reperfusion. We carried out serial ischemic experiments (10, 30, 60 and 120 min) in ex-vivo rat hearts followed by 30 min reperfusion and we assayed the glutathione-dependent enzymatic activities (selenium-dependent glutathione-peroxidase: GSH-Px; selenium-independent glutathione peroxidase: GST-Px; glutathione-transferase: GST and glutathione-reductase: GS-SG-Red), Catalase activity (CAT) and non-proteic thiol compounds (NP-SH) at the end of reperfusion. We found a significant reduction of NP-SH, GSH-Px and CAT in ischemic/reperfused hearts from 30 min on, while GST activity was increased. In addition, we observed the appearance of a selenium-independent glutathione peroxidase activity (GST-Px) belonging to the GST system. In conclusion, we found the longer the duration of ischemia the greater the inbalance between the myocardial antioxidant system especially the GST activation, suggesting in particular for GST-Px, a role in the control of the damage against oxygen toxicity during ischemia/reperfusion.
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PMID:Myocardial antioxidant defense mechanisms: time related changes after reperfusion of the ischemic rat heart. 801 40

Acute renal failure induced by the administration of gentamicin (GM) was studied enzymochemically in comparison with that in rats with tubular disorder resulting from postischemic reperfusion. Renal ischemia was caused by clamping the renal artery for 30 minutes to create complete ischemia and reflow. The activities of renal tissue glutathione peroxidase (GSH-Px) and the values to the renal contents of glutathione (GSH) and malondialdehyde (MDA) were measured in each sample. In order to confirm whether GSH plays an important role in the intrinsic anti-oxidant system in this model, buthionine sulfoximine (BSO), which is a gamma-glutamylcysteine synthetase inhibitor, was administered intraperitoneally to decrease the renal GSH content before the procedure in renal ischemia. On the other hand, the GM-induced ARF model was made by injection with GM 100 mg/kg during a period of 5 days. In the GM group, a significant increase in MDA and a reduction in the sphigomyelin (SPH)/phosphatidylcholine (PC) ratio and inactivation of PLA2 were observed. In the kidney tissue obtained 15 min. after reperfusion, the renal content of MDA was elevated markedly in the BSO-preadministered group. A reduction of SPH/PC ratio was also observed in the reperfusion model. PAL2 hydrolyzes the acyl group at the 2-position containing much of the highly unsaturated fatty acids that are easily oxidized. Further, PLA2 is considered to act directly on one of PC or phosphatidylinositol. Phospholipidosis thesauruses, noted in acute renal failure induced by GM, is considered to be caused by reduced liberation of lysosomal intramembranous phospholipid into the cytoplasm and accelerated peroxidation of intramembranous lipid.
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PMID:[Lipid peroxidation and tubular disorder in experimental acute renal failure-enzymochemical study in the rat kidney]. 807 17


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