Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04040 (Catalase)
3,577 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In postischemia hearts, cytoplasmic creatinine kinase (CK) inactivation resulting from toxic oxygen metabolite injury may lead to bioenergetic and mechanical dysfunction. This study determines the relationship between CK activity, mechanical function, and bioenergetics during reperfusion (RP) after a reversible ischemic injury. Rat hearts pretreated after 12 hr without (CTRL) or with myristic acid (MA) underwent 10 min global, 37 degrees C ischemia followed by 10 or 40 min RP while developed pressure (DP) was monitored. Catalase and CK were assayed at preischemia. CK was also assayed at end ischemia and 10 and 40 min RP. 31 P nuclear magnetic resonance spectra assessed changes in phosphocreatinine (PCr) and adenosine triphosphate (ATP) concentration. Preischemic DP was 95 +/- 5 mm Hg. CTRL DP returned to 84 +/- 3 by RP10 and 88 +/- 6 by RP40 while MA hearts recovered fully by RP10 (90 +/- 2). Preischemic catalase activity was significantly increased in MA hearts (1217 +/- 36 U/g left ventricular tissue (LV) vs 1007 +/- 40 U/g LV, P < 0.01, MA vs CTRL). CTRL CK activity fell from 1870 +/- 75 to 1103 +/- 11 U/g LV at RP10, but rose to 1272 +/- 13 by RP40 (P < 0.01, RP10 vs RP40). MA hearts lost no CK activity during RP. By RP10, CTRL PCr/ATP ratio was elevated to 2.2 +/- 0.2 (P < 0.001) from a preischemic level of 1.7 +/- 0.4 and normalized by RP40, while MA hearts had a normal PCr/ATP throughout RP. Reversible RP injury transiently depresses mechanical function. Cytoplasmic CK damage during RP impairs PCr utilization, leading to a PCr overshoot. Functional recovery and metabolic recovery follow return of CK activity. Increased endogenous catalase preserves CK during RP, resulting in normal function and bioenergetics.
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PMID:Reversible injury: creatinine kinase recovery restores bioenergetics and function. 860 95

Nitric oxide has been implicated in mediating the neurotoxic effects of ischemia in the brain. However, studies of the effects of nitric oxide inhibition with nitric oxide synthase inhibitors have provided controversial results. One of the reasons for the controversy may be related to the specificity of the nitric oxide synthase inhibitors, such as Nw-nitro-L-arginine methylester (L-NAME), which has recently been questioned. The present work investigated the possible interaction of L-NAME with the enzyme catalase in vitro. Catalase is an iron containing enzyme which could potentially interact with the iron-binding groups of L-NAME. Since the normal function of catalase in the brain is to remove excess hydrogen peroxide, the inhibition of this process could have potentially toxic effects. L-NAME was found to attenuate the catalase inhibiting effects of the known catalase inhibitor cyanamide in vitro, suggesting a competition between cyanamide and L-NAME for catalase. In addition, L-NAME by itself attenuated catalase activity in vitro. These results indicate that in addition to inhibiting nitric oxide synthase, L-NAME may have effects on catalase activity.
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PMID:The nitric oxide synthase inhibitor NW-nitro-L-arginine methylester attenuates brain catalase activity in vitro. 861 53

Sublethal endotoxemia attenuates cardiac functional injury from global ischemia but it is unknown whether endotoxemia can protect myocardium against infarction. Furthermore, increases in myocardial catalase and heat shock protein (HSP) following endotoxemia have been associated with cardiac ischemic protection. We therefore hypothesized that a 72-hr pretreatment with endotoxin (ETX) would reduce myocardial tissue necrosis in association with augmented catalase activity and stress protein expression. Rabbits were treated with normal saline or lipopolysaccharide (Salmonella typhimurium) at 10, 5, and 1 microgram/kg doses. Three days after saline or ETX injection they were subjected to 45 min of coronary artery occlusion followed by 3 hr of reperfusion. Area of necrosis (tetrazolium staining) was normalized to anatomic risk zone size (Evans blue staining). Catalase activity was measured by a standard assay and HSP 72 was assessed by immunohistochemistry. During regional ischemia and reperfusion there were no differences in heart rate or mean arterial blood pressure between groups. ETX treated rabbits had the same risk zone size as controls. Infarct size was reduced in the ETX treated rabbits at the 10 and 5 microgram/kg doses compared with control rabbits (17.5 +/- 1.5% and 22.2 +/- 3.1% vs 45.3 +/- 2.5%; P < 0.05) but no protective effect was observed at the 1.0 micrograms/kg dose (38.0 +/- 4.6%; P > 0.05 vs control). Catalase activity was not different between control and ETX (5 microgram/kg) treated groups (997.8 +/- 59.1 U/g vs 1099.6 +/- 69.3 U/g myocardium; P > 0.05) but endotoxin induced expression of myocardial HSP 72. We conclude that a single challenge with endotoxin can induce delayed myocardial protection against infarction in vivo. This delayed cardioprotective response involves enhanced stress protein expression without changes in myocellular catalase activity.
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PMID:A single endotoxin challenge induces delayed myocardial protection against infarcation. 866 Nov 96

This study examines whether electroretinogram recovery after short-term (15- or 20-min) ischemia is enhanced by agents (catalase and dextromethorphan) that are known to enhance recovery after longer (60-75 min) periods of ischemia. Under both light-adapted and dark-adapted conditions, Dutch rabbits were exposed to two sequential sets of short-term ischemia, each followed by 60 min of reperfusion during which the electroretinogram was monitored. Catalase or dextromethorphan was administered intravenously before the second reperfusion period. Control experiments showed that electroretinogram recovery curves from sequential ischemic episodes were similar, and neither intravenous catalase nor dextromethorphan increased the rate or magnitude of electroretinogram recovery. This negative result suggests that the mechanisms of injury or recovery after short-term retinal ischemia may be different from those operating after 60-75 min of ischemia.
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PMID:Modulation and mechanisms of electroretinogram recovery after short-term retinal ischemic injury. 881 90

Catalase activity was evaluated in Long Evans rat retina after ischemia and reperfusion. Ischemia was induced by ligation of the optic nerve and vessels. Rats were sacrificed after 15 and 120 min of reperfusion, respectively. Catalase activity was assessed by Claiborne's method and was expressed as U/mg of protein. In the first group, retinas of each animal were pooled. In the second group, ischemia was induced in the right eye with the left eye serving as control. In the first group, enzyme activity was 7.39 +/- 0.26 (n = 11), 7.67 +/- 0.27 (n = 9) and 9.15 +/- 0.45 (n = 7) for the sham-operated, 15- and 120-min reperfusion groups, respectively. There was a significant difference between the control and 120-min reperfusion groups (p < 0.001). In the second group, there was a significant (p < 0.01) increase in catalase activity in the ischemic eye compared to the non-ischemic eye after 15 (n = 7) and 120 min (n = 9) of reperfusion. These findings may suggest a rapid activation of catalase activity during the ischemia-reperfusion sequence.
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PMID:Changes of catalase activity after ischemia-reperfusion in rat retina. 903 90

Myocardial ischemia-reperfusion injury is at least partially mediated by oxygen-derived free radicals. Catalase is a major enzyme involved in the detoxification of hydrogen peroxide. The activity of catalase in the heart is very low, which may be a factor responsible for the high sensitivity of the heart to ischemia-reperfusion injury. The present study was undertaken to determine whether elevation of catalase specifically in the heart of transgenic mice can provide protection against ischemia-reperfusion injury. Hearts isolated from transgenic mice in which catalase in the heart was elevated approximately 60-fold higher than that in nontransgenic heart and from the non-transgenic littermates were subjected to 50 min of warm (37 degrees C) zero-flow ischemia followed by 90 min reflow. Compared with nontransgenic controls, transgenic hearts showed significantly improved recovery of contractile force (75 vs. 25% at the end of 90 min reperfusion, P < 0.01). Efflux of creatine kinase was reduced by approximately 50%, and the zone of myocardial infarction as demarcated by triphenyltetrazolium at the end of reperfusion was reduced by approximately 40% in transgenic hearts compared with nontransgenic controls. These findings support the view that hydrogen peroxide is an important cause of ischemia-reperfusion damage and suggest that protection may be provided by elevation of catalase activity.
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PMID:Catalase-overexpressing transgenic mouse heart is resistant to ischemia-reperfusion injury. 932 93

The protective effect of heat stress against mechanical dysfunction and myocardial necrosis after prolonged ischemia is well known. We have investigated whether the protective effect of heat stress extends to reperfusion arrhythmias in the isolated perfused rat heart. Rats were exposed to 20 min of 42 degrees C hyperthermia. Twenty-four h later their hearts were isolated, perfused and subjected to a 5-min period of occlusion of the left coronary artery. The incidence and duration of reperfusion arrhythmias were assessed in the 30-min reperfusion period. Prior heat stress led to a reduction in the incidence (from 100 to 60%, P</=0.05) and duration (from 611+/-251 to 62+/-51 s, P</=0.05) of ventricular tachycardia and/or fibrillation, upon reperfusion following a 5-min ischemic period. This prevention of reperfusion arrhythmias was associated with a two-fold increase in endogenous catalase activity and an enhanced heat stress protein hsp 72 and 27 expression. Catalase inhibition by 3-amino triazole (AT) abolished the antiarrhythmic effect of heat stress. The incidence (80 v 100%) and duration (691+/-238 v 989+/-242 s) of reperfusion arrhythmias were not different between the group heat shocked + AT and the group treated only with AT. On the other hand, in the presence of AT, myocardial noradrenaline release was attenuated by prior heat stress (upon stabilization: 3.9+/-0.8 compared to 9.4+/-2.1 pg/ml/g tissue, P</=0.05; upon reperfusion: 42.7+/-7.3 compared to 69.8+/-9.5 pg/ml/g tissue, P</=0.05). In conclusion, heat stress leads to protection against reperfusion arrhythmias occurring after a short ischemic insult, in the isolated rat heart. Heat stress proteins and catalase seem to be implicated in this protective effect. Finally, we have shown that in presence of AT, heat stress decreases myocardial noradrenaline release.
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PMID:In vitro antiarrhythmic effect of prior whole body hyperthermia: implication of catalase. 944 34

Oxidant injury is considered to be an important mechanism in the pathophysiology of acute renal failure. It has been thought that decrease in extracellular and intracellular fluid and endotoxemia seen in obstructive jaundice may cause an increase in production of oxygen free radicals and impairment in antioxidant defense mechanism. This study is designed to investigate the possible role of oxidant injury in renal failure seen in jaundiced patients. In this study, 28 rats were divided into four groups: Control (C)(N = 7); Renal ischemia (RI)(N = 7); Obstructive jaundice+renal ischemia (OJ+RI)(N = 7); Obstructive jaundice (OJ)(N = 7). All groups were compared with each other according to renal failure findings and enzyme activities, such as Xanthine oxidase (XOD), Superoxide Dismutase (SOD) and Catalase in renal cortex and Glutathione Peroxidase (GSH-Px), in blood at 3rd day after ischemia and reperfusion. Renal failure findings monitored by blood urea and creatinine levels, seemed more evident in OJ+RI than RI group (p < 0.05). When compared with RI, in OJ+RI group, increase in XOD activity at 3rd day was statistically significant [0.259 +/- 0.01 U/g (tissue) and 0.362 +/- 0.03 U/g (tissue) respectively] (p < 0.05). SOD and GSH-Px activities of each ischemic group at 3rd day were decreased compared to non-ischemic groups. This fall was significant (p < 0.05). But there was no statistical difference between jaundiced and non-jaundiced groups. Alterations in catalase activities also had no statistical significance. These findings may suggest that the injury induced by oxygen free radicals at re-oxygenation of tissue after ischemia may also play a role in the pathogenesis of acute renal failure developed in obstructive jaundice.
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PMID:The role of oxygen free radicals in acute renal failure complicating obstructive jaundice: an experimental study. 951 37

Unlike the mature animal, immature mice transgenic for copper/zinc superoxide dismutase (SOD1) have greater brain injury after hypoxia-ischemia than their wild-type nontransgenic littermates. To assess the role of oxidative stress in the pathogenesis of this injury, we measured histopathological damage, lipid peroxidation products, enzymatic activities of catalase and glutathione peroxidase, and hydrogen peroxide (H2O2) concentration in these animals before and after hypoxic-ischemic injury. Lipid peroxidation products were significantly increased 2 hours after the insult in both transgenic and nontransgenic brains in hippocampus, the most damaged brain region. Catalase activity did not increase in response to SOD1 overexpression or injury in either group. However, glutathione peroxidase activity, unchanged in response to overexpression, decreased significantly 24 hours after injury in both groups. At 24 hours after injury, greater H2O2 accumulation was observed in transgenic brains. Because SOD1 dismutates superoxide to H2O2, overexpression of SOD1 in the presence of developmentally low activities of the catalytic enzymes glutathione peroxidase and catalase leads to an increased production of H2O2, and may explain the increased brain injury observed after hypoxia-ischemia in neonatal SOD1 mice.
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PMID:Copper/zinc superoxide dismutase transgenic brain accumulates hydrogen peroxide after perinatal hypoxia ischemia. 974 2

In view of the accumulation of H2O2 in the myocardium due to ischemia-reperfusion and changes in beta-adrenoceptor mechanisms in the ischemic-reperfused heart, we investigated the effects of H2O2 on the beta-adrenoceptor, G-protein and adenylyl cyclase complex. Rat hearts were perfused with 1 mM H2O2 for 10 min before isolating membranes for measuring the biochemical activities. The stimulation of adenylyl cyclase by different concentrations of isoproterenol was depressed upon perfusing hearts with H2O2. Both the affinity and density of beta1-adrenoceptors as well as the density of the beta2-adrenoceptors were decreased whereas the affinity of beta2-adrenoceptors was increased by H2O2 perfusion. Competition curves did not reveal any effect of H2O2 on the proportion of coupled receptors in the high affinity state. The basal as well as forskolin-, NaF- and Gpp(NH)p-stimulated adenylyl cyclase activities were depressed by perfusing the heart with H2O2. Catalase alone or in combination with mannitol was able to significantly decrease the magnitude of alterations due to H2O2. The positive inotropic effect of 1 microM isoproterenol was markedly attenuated upon perfusing hearts with 200-500 microM H2O2 for 10 min. These results suggest that H2O2 may depress the beta1-adrenoceptor, Gs-proteins and catalytic subunit of the adenylyl cyclase enzyme and thus may play an important role in attenuating the beta-adrenoceptor linked signal transduction due to ischemia-reperfusion injury.
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PMID:Role of H2O2 in changing beta-adrenoceptor and adenylyl cyclase in ischemia-reperfused hearts. 977 90


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