Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.15.1.1 (superoxide dismutase)
 58,858 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To test whether generation of oxygen radicals during postischemic reperfusion might promote peroxidation of cardiac membrane lipids, four groups of Langendorff-perfused rabbit hearts were processed at the end of (a) control perfusion, (b) 30 min of total global ischemia at 37 degrees C without reperfusion, (c) 30 min of ischemia followed by reperfusion with standard perfusate, (d) 30 min of ischemia followed by reperfusion with the oxygen radical scavenger human recombinant superoxide dismutase (h-SOD). The left ventricle was homogenized and tissue content of malonyldialdehyde (MDA), an end product of lipid peroxidation, was measured on the whole homogenate as well as on various subcellular fractions. Reperfusion was accompanied by a significant increase in MDA content of the whole homogenate and of the fraction enriched in mitochondria and lysosomes. This phenomenon was not observed in hearts subjected to ischemia but not reperfused, and was similarly absent in those hearts which received h-SOD at reflow. Reperfused hearts also had significantly greater levels of conjugated dienes (another marker of lipid peroxidation) in the mitochondrial-lysosomal fraction. Again, this phenomenon did not occur in ischemic hearts or in reperfused hearts treated with h-SOD. Unlike the effect on tissue MDA and conjugated dienes, reperfusion did not significantly stimulate release of MDA in the cardiac effluent. Treatment with h-SOD was also associated with significant improvement in the recovery of cardiac function. In conclusion, these data directly demonstrate that postischemic reperfusion results in enhanced lipid peroxidation of cardiac membranes, which can be blocked by h-SOD, and therefore is most likely secondary to oxygen radical generation at reflow.
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PMID:Oxygen radicals generated at reflow induce peroxidation of membrane lipids in reperfused hearts. 164 50

The following species; superoxide (O2-.), hydrogen peroxide (H2O2), hydroxyl radical (.OH) and singlet oxygen (1O2), are generally called as reactive oxygen species (ROS). These species have been suggested to play important roles in various diseases caused by oxygen toxicity such as ischemia, carcinogenesis, inflammation, diabetes and aging. During the past two decades, considerable interests have been focused on chemical and biological research of ROS. We have also reported about the research results on ROS, which can be classified as following below; 1) chemical reactivities of O2-., 2) formation and toxicity of 1O2, 3) chemical reactivities of .OH, 4) enzyme mechanism of xanthine oxidase, 5) development of the compounds which induce the formation of O2-. and H2O2 in living cells and 6) development of superoxide dismutase mimics. These studies are reviewed from the standpoint of both chemical and biological interests.
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PMID:[Chemical and biochemical studies on reactivities, formations and toxicities of reactive oxygen species]. 164 54

In this study, we proposed that oxygen free radicals participate in the acute pulmonary injury that follows limb ischemia/reperfusion. Using an established model of hind limb ischemia, reproducible lung injury occurred after reperfusion. Lung microvascular permeability was measured with 125I-BSA and increased two-fold after 30 minutes of reperfusion. Pulmonary injury was blocked with DMSO, DMTU, allopurinol, indomethacin, and SOD plus catalase. The degree of pulmonary neutrophil sequestration as assessed by tissue myeloperoxidase activity was significantly diminished in animals pretreated with antioxidants. Pretreatment with indomethacin did not attenuate the neutrophil sequestration within the pulmonary parenchyma. These data suggest that increased lung microvascular permeability and neutrophil accumulation occur following hind limb ischemia/reperfusion. Therapeutic interventions with oxygen radical inhibitors blocked this process, while the prostaglandin inhibitor, indomethacin, only reduced lung permeability.
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PMID:Acute lung injury following reperfusion after ischemia in the hind limbs of rats. 164 65

The pathophysiology of cold injury was examined by cooling a hind leg of an anesthetized New Zealand white rabbit. A flow probe and a thermocouple were placed in the leg to be cooled to monitor the blood flow and tissue temperature. After baseline measurements, the leg was cooled with a freezing mixture up to 0 degrees C, which was followed by rewarming. The other leg served as control. In the experimental group, liposome-bound superoxide dismutase and catalase were infused through the femoral vein 15 minutes prior to putting the freezing mixture on the leg. Salicylic acid was injected through the femoral vein at the end of some experiments to assay hydroxy radical (OH). Our results demonstrated reduction of local blood flow in cold-exposed leg, indicating development of ischemia. Creatine kinase and lactage dehydrogenase were increased during rewarming in conjunction with hydroxyl radical formation, phospholipid breakdown, and lipid peroxidation. Treatment with superoxide dismutase and catalase reduced OH formation, prevented phospholipid degradation, and decreased creatine kinase, lactate dehydrogenase, and malonaldehyde formation. These results indicate that rewarming of cooled tissue is associated with "rewarming injury" similar to "reperfusion injury", and that oxygen-derived free radicals play a significant role in the pathophysiology of such injury.
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PMID:Reduction of cold injury by superoxide dismutase and catalase. 164 16

Effects of glycyrrhizin (GR) on an injury of the liver caused by ischemia-reperfusion in rats were determined. In the liver ischemia-reperfusion model, levels of serum AST, ALT and LDH, lipid peroxides in the liver tissue, and blood superoxide dismutase activity were significantly increased. On the contrary, total glutathione content in the liver tissue was decreased. When rats were given GR 100 mg/kg for 10 days, GR suppressed the elevation of the lipid peroxide level, serum AST, ALT, LDH level, and the decrease in glutathione content during the period of reperfusion. The suppressive effect of GR was similar with that of alpha-tocopherol (VE). GR showed neither 1,1-diphenyl-2-picrylhydrazyl (DPPH) nor 5,5-dimethyl-1-pyrroline-N-oxide(DMPO)-OOH radical-trapping ability, but exhibited DMPO-OH radical-trapping action, while, VE exhibited both DPPH and DMPO-OOH radical-trapping ability. These results indicate that the hydroxyl radical trapping action of GR is the likely mechanism suppressing liver injury caused by ischemia-reperfusion.
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PMID:The protective effect of glycyrrhizin against injury of the liver caused by ischemia-reperfusion. 165 Jan 69

The role of tissue-type plasminogen activator (t-PA) was investigated in the gastric ulcer formation induced by microvascular derangement. The rat stomach was exposed and repeated electrical stimuli (irritation) were applied on the small arterial wall close to the lesser curvature to induce mucosal ischemia followed by hyperemia. The t-PA activity in the regional blood of the stomach was significantly elevated as early as 5 min after the irritation. Immunohistochemical study using anti-t-PA monoclonal antibody revealed that t-PA was detectable in the endothelial cells of capillaries and collecting venules, suggesting the involvement of endothelium-mediated fibrinolytic activity in the irritation-induced ulcer formation. Pretreatment of SOD or allopurinol significantly attenuated the irritation-induced t-PA activation, suggesting that the t-PA activity was modulated by xanthine oxidase-associated superoxide anions. CV-6209, a selective antagonist of platelet-activating factor (PAF), also prevented the activation of t-PA as well as ulcer formation, providing a concept that PAF may be associated with the local fibrinolytic activation which may cause hemorrhagic changes in the gastric mucosal microvasculature. The present study supports the hypothesis that increased t-PA activity may reflect the microvascular endothelial damages caused by vasomotor derangement and suggests that oxygen-derived free radicals may participate in the regulation of endothelium-derived fibrinolytic activities in the mucosal microvasculature.
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PMID:Involvement of superoxide anion and platelet-activating factor in increased tissue-type plasminogen activator during rat gastric microvascular damages. 165 Sep 66

The effect of global cerebral ischemia and reperfusion on cerebral capillary endothelial cell membrane fluidity was examined using electron paramagnetic resonance techniques following 8 minutes of global ischemia and 15 minutes of blood reperfusion. The luminal surface of the cerebral vasculature was perfused with a series of doxyl stearic acid reporters (5-, 12-, 16-doxyl stearic acid) which differ in the site of attachment of the nitroxide free radical on the fatty acid chain. Each doxyl stearic acid reports on membrane fluidity characteristics from different depths within the membrane. Ischemia/reperfusion produced a membrane ordering that was markedly dependent on intramembrane location, and was consistent with changes previously associated with lipid peroxidation. The effect of ischemia/reperfusion on membrane fluidity was maximal in the membrane environment reported by 12-doxyl stearic acid (12-DS). The utilization of a liposomal system was shown to enhance superoxide dismutase delivery to cerebral tissues as well as attenuating the change in membrane order seen following reperfusion-induced lipid peroxidation.
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PMID:Ischemia/reperfusion-induced changes in membrane fluidity characteristics of brain capillary endothelial cells and its prevention by liposomal-incorporated superoxide dismutase. 165 Nov 15

Myocardial ischemia followed by reperfusion results in endothelial dysfunction in cats. This dysfunction is characterized by a loss of endothelium-derived relaxing factor (EDRF) release in response to endothelium-dependent dilators. This loss of endothelium-dependent relaxation (EDR) occurs significantly at 2.5 min post-reperfusion and the dysfunction progresses until it is complete at 20 min post-reperfusion. This reduced EDR is prevented by superoxide dismutase, but not by hydroxyl radical scavengers. In contrast, neutrophil accumulation in the heart, as measured by cardiac myeloperoxidase (MPO) activity, does not reach significant levels until 3 h post-reperfusion, and significant myocardial necrosis does not occur until 4.5 h post-reperfusion. No significant changes in EDR, MPO or cardiac necrosis occurred during the 90 min of ischemia. Thus, endothelial dysfunction is an early and specific marker of reperfusion injury preceding neutrophil involvement and cardiac necrosis. Superoxide radicals appear to play a key role in the decreased EDR observed early after reperfusion.
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PMID:Endothelial dysfunction in myocardial ischemia and reperfusion: role of oxygen-derived free radicals. 165 71

Preconditioning has been implicated to involve a free radical mechanism in the in vivo infarct size model. We have demonstrated preconditioning in the isolated rabbit heart and studied the effect of Mn-superoxide dismutase (SOD) on preconditioning. Buffer perfused control hearts (C) were subjected to 1-h global ischemia followed by 1-h reperfusion, and the percent recovery of developed tension (%DT; relative to preischemic) was measured via a left ventricular balloon connected to a polygraph recorder. The coronary effluent was assayed for lactate dehydrogenase release (LDH; IU/kg BW). Preconditioned hearts (P) received a single episode of 5-min ischemia and 5-min reperfusion before 1 h of ischemia and reperfusion. SOD treated hearts received SOD at 5 mg/L in the buffers at all times. The results show that while SOD attenuated enzyme release and functional loss in control hearts, it had no effect on preconditioned hearts. Therefore, preconditioning is unlikely to be mediated by superoxide anion in the isolated rabbit heart.
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PMID:Ischemic preconditioning is not mediated by free radicals in the isolated rabbit heart. 166 63

The effects of superoxide dismutase (SOD) on reperfusion-induced ventricular fibrillation (R-VF) were determined in isolated, perfused rat hearts with reperfusion after durations of regional myocardial ischemia ranging from 5 to 37.5 min. SOD (100 U/ml) was perfused during both ischemia and reperfusion periods. Regional myocardial ischemia was produced by acute occlusion of the left anterior descending coronary artery (LAD). Reperfusion after a brief period of ischemia (8 min) resulted in R-VF in 33% of SOD-perfused hearts as compared with 100% of control hearts that exhibited this arrhythmia (p less than 0.05). The incidence of R-VF was not affected by SOD with intermediate duration of ischemia of 10, 15, and 22.5 min. Reperfusion after a relatively long 30-min period of ischemia did not result in R-VF in control hearts, but 87% of SOD-treated hearts still exhibited this arrhythmia (p less than 0.05). No hearts exhibited R-VF with reperfusion after 37.5 min of ischemia. Thus, SOD shifted the occurrence of R-VF to longer durations of ischemia without affecting the peak incidence of this arrhythmia. In contrast to effects of SOD on incidence of R-VF, SOD had no effect on onset times of this arrhythmia. Nor did SOD affect reperfusion-induced ventricular tachycardia (VT), heart rate (HR), or coronary flow. These results suggest that SOD may have delayed onset of electrophysiologic derangements that were specifically responsible for R-VF. SOD may be classified as a modulator of R-VF.
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PMID:Delay of occurrence of reperfusion-induced ventricular fibrillation in the isolated rat heart with superoxide dismutase. 170 Feb 19


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