EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A previously validated small mammal trauma model, hindlimb ischemia secondary to infrarenal aortic ligation in the rat, was utilized to investigate the effects of traumatic injury on two of the major hepatic enzymes of detoxification, glutathione S-transferase and epoxide hydrolase. Hepatic cytosolic glutathione S-transferase activity toward a variety of substrates showed a 26-34% decrease at 24 hr after model injury. Hepatic microsomal epoxide hydrolase activity toward 1,2-epoxy-3-(p-nitrophenoxy)propane was diminished by 53% after model trauma. Both enzymatic activities toward styrene oxide were similarly depressed. The toxicological sequelae of these derangements were illustrated by administering a dose of styrene oxide (300 mg/kg, ip) which was below the threshold dose (350 mg/kg, ip) necessary to produce hepatotoxicity in control animals. Model trauma dramatically enhanced the hepatotoxic effects of the subthreshold dose, as well as the covalent binding of labeled styrene oxide to liver proteins. These findings indicate that traumatic injury renders the animal more susceptible to agents which are detoxified by glutathione S-transferase and epoxide hydrolase. Conversely, model trauma provided almost complete protection from the hepatotoxic effects of a standard dose (200 mg/kg, ip) of bromobenzene. This protection appeared to derive from a post-traumatic alteration of cytochrome P-450 subpopulations that decreased the formation of the potentially toxic 3,4-epoxide metabolite, despite an increase in the cytochrome P-448-mediated generation of the nontoxic 2,3-epoxide. For bromobenzene, the change in cytochrome P-450-mediated activation appeared quantitatively more significant in overall toxicity than the post-traumatic depression of detoxification pathways described above, leading to decreased toxicity in vivo. For other compounds, the combination of post-traumatic influences on cytochrome P-450/P-448 activity and epoxide hydrolase/glutathione S-transferase activities could lead to markedly enhanced toxicity.
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PMID:Effects of model traumatic injury on hepatic drug metabolism in the rat. VI. Major detoxification/toxification pathways. 289 98

Experiments were performed to investigate the effects of 60 min severe global ischemia followed by 30 min reperfusion on the antioxidant enzymatic system in the isolated perfused rat heart. Ischemia induced a significant increase of cytoplasmic and mitochondrial selenium-dependent glutathione peroxidase (EC 1.11.1.9) activity. In reperfused hearts, only the mitochondrial form showed a further significant increase. Glutathione reductase (EC 1.6.4.2) was increased in ischemic hearts, whilst the reperfused hearts showed a decrease towards the level found in aerobic hearts. Mitochondrial superoxide dismutase (EC 1.15.1.1) activity was depressed in ischemic as well as in reperfused hearts, though the cytoplasmic form was unmodified. Catalase (EC 1.11.1.6), glucose-6-phosphate dehydrogenase (EC 1.1.1.49) and glutathione transferase (EC 2.5.1.18) activities were unchanged throughout the experiment. Ischemia and reperfusion induced a significant fall in tissue-reduced glutathione content concomitant with an increase of its oxidized form. We have also studied the mitochondrial inner membrane proteins for both molecular weight, with Coomassie blue, and thiol status, with monobromobimane stain, using a sodium dodecyl sulfate polyacrylamide gel electrophoresis technique. Neither ischemia nor reperfusion effected any relevant modification of the molecular weight of the mitochondrial inner-membrane proteins either in the presence or absence of a reducing agent. However, two of these proteins with an apparent molecular weight of 52,0000 and 12,000 showed a decrease in the monobromobimane stain, probably due to the oxidation of their thiol groups.
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PMID:Effect of ischemia and reperfusion on antioxidant enzymes and mitochondrial inner membrane proteins in perfused rat heart. 338 95

Transitory coronary failure of the myocardium was accompanied by a considerable reduction in the activity of superoxide dismutase, glutathione peroxidase and glutathione transferase, with the activity of the enzymes under study being not different in the ischemized and distant from ischemia zones of the myocardium. Reperfusion did influence the activity of superoxide dismutase and glutathione peroxidase after 10 and 40 minutes of ischemia, whereas following 120 minutes of ischemia the activity of superoxide dismutase ascended after 10 and 40 minutes of reperfusion while the activity of glutathione peroxidase remained unchanged.
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PMID:[Changes in the activity of antioxidant enzymes in ischemia and subsequent reperfusion of the myocardium]. 648 78

The signal transduction pathways that mediate activation of trans acting factors controlling an organ's response to ischemia are unknown. The stress-activated protein kinases (SAPKs), a subfamily of the extracellular signal-regulated kinases (ERKs), phosphorylate c-Jun within the amino-terminal transactivation domain and are activated in response to a variety of cellular stresses. We determined whether SAPKs are activated in response to ischemia, an extreme, albeit common, pathophysiologic stress. Rats underwent 40 min of renal ischemia followed by reperfusion for 0, 5, 20, or 90 min. SAPKs were immunoprecipitated from kidney lysates and kinase activity assayed with recombinant GST-c-Jun(1-135), containing the amino-terminal transactivation domain of c-Jun as substrate. SAPKs were not activated by ischemia alone, but reperfusion for as little as 5 min was associated with a 4.6-fold increase in kinase activity. Kinase activity was increased 7.6-fold at 20 min following reperfusion and remained elevated at 90 min of reperfusion (4.9-fold). In contrast, activity of the related ERK-1 and -2 was increased only 1.3-fold and only at the 5-min reperfusion time point. When SAPKs were immunodepleted from kidney extracts prior to incubation of the extracts with agarose-coupled GST-c-Jun(1-135), it was found that SAPKs accounted for the majority of the amino-terminal c-Jun kinase activity of kidney at 5 min following reperfusion. In Madin-Darby canine kidney epithelial cells, ATP repletion, following ATP depletion induced by chemical anoxia, was associated with a 9-15-fold activation of SAPKs with a similar time course of activation to that seen in the kidney after ischemia and reperfusion. In conclusion, the SAPKs are markedly activated very early after reperfusion of ischemic kidney and following ATP repletion of anoxic cells in culture. We propose that this activation of SAPKs may trigger part of the kidney's early genetic response to ischemia, possibly by enhancing trans acting activity of c-Jun.
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PMID:The stress-activated protein kinases are major c-Jun amino-terminal kinases activated by ischemia and reperfusion. 792 79

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

This study examined whether brief repeated myocardial ischemia altered free radical generating and scavenging activity in a dog model. In dogs preconditioned with four 5-min left anterior descending coronary artery (LAD) occlusions and reperfusions, we examined transcardiac changes in both the function of neutrophils, cells which are major free radical generators, and in myocardial antioxidant enzyme activity, as an indication of free radical scavenging. Neutrophil function was assessed by determining luminol-enhanced whole blood chemiluminescence (CL) induced by zymosan. Blood was taken simultaneously from the carotid artery and the cardiac vein running along the occluded LAD. Preconditioning with sublethal ischemia significantly reduced whole blood CL in the cardiac vein compared with the carotid artery after the first and fourth 5-min reperfusions, while there was no difference in neutrophil count between these sampling sites. Immediately after brief repeated ischemia and reperfusion, manganese-superoxide dismutase (SOD) activity was significantly enhanced, and glutathione reductase activity was markedly reduced in the ischemic, compared with the non-ischemic, myocardium. There were no differences in the myocardial activities of copper, zinc-SOD, glutathione peroxidase, and glutathione S-transferase between the ischemic and non-ischemic regions. Also, no difference was observed between the reduced myocardial glutathione levels in these regions, although the oxidized glutathione level was significantly higher in the ischemic regions of the subepicardial and subendocardial areas. We demonstrated that brief repeated ischemia affects free radical generating and scavenging systems in the ischemic myocardium.
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PMID:Brief myocardial ischemia affects free radical generating and scavenging systems in dogs. 840 20

In 31 male patients undergoing coronary bypass surgery who underwent different periods of cardioplegic hypothermic arrest, the activities of glutathione peroxidase, glutathione reductase, glutathione transferase, copper/zinc-containing and manganese-containing superoxide dismutases, and catalase were studied in the right atrial myocardium, before and 5 minutes after aortic cross-clamping. The levels of thiobarbituric acid reactive substances (TBARS) and nonproteic thiol compounds (NP-SH) were also assessed. Prolonged ischemia followed by reperfusion induced activation of the major myocardial antioxidant enzymes with marked NP-SH depression and TBARS increase, despite cold crystalloid cardioplegic protection. These changes were significantly related to the duration of the ischemic arrest, suggesting: (1) that reperfusion free radical generation is dependent on the severity of the previous ischemic period; and (2) the occurrence of myocardial oxidative stress during cardiopulmonary bypass.
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PMID:Myocardial antioxidant defenses during cardiopulmonary bypass. 846

The biochemical adaptations of cellular antioxidant defenses that permit anoxia-tolerant animals to deal effectively with rapid and large changes in oxygen availability, and hence oxidative stress, during transitions from anoxia to normoxia provide insights into the strategies of antioxidant defense that could help to minimize reperfusion injuries to mammalian organs after anoxia/ischemia stress. The present study analyzes the effects of 30 h anoxia exposure followed by reoxygenation on the antioxidant defenses (activities of five enzymes, glutathione status) and lipid peroxidation damage to organs of the leopard frog Rana pipiens (5 degrees C-adapted autumn frogs). Exposure to 30 h anoxia resulted in significant increases in the activities of skeletal muscle and heart catalase (by 53 and 47%), heart and brain glutathione peroxidase (by 75 and 30%), and brain glutathione S-transferase (by 66%). In most cases, enzyme activities had returned to the control values after 40 h aerobic recovery. Activities of superoxide dismutase and glutathione reductase were unaltered in all of the organs, and anoxia/recovery had no effect on any of the enzymes in liver. Glutathione equivalents (GSH-eq) were maintained in four organs during anoxia but decreased by 32% in brain during anoxia. Brain GSH-eq had recovered after 90 min reoxygenation, and, in addition, hepatic GSH-eq rose by 71% after 90 min reoxygenation. The ratio of oxidized glutathione to GSH-eq was also affected by anoxia in an organ-specific way. Lipid peroxidation, assessed as the content of thiobarbituric acid-reactive substances (TBARS), was unaltered in skeletal muscle and liver after 30 h anoxia exposure or short (25 and 90 min)- or long-term (40 h) periods of reoxygenation, indicating that cycles of natural and survivable anoxia/reoxygenation occur without significant increase in TBARS in selected organs. Overall, the data demonstrate that elements of the antioxidant system of R. pipiens are induced during anoxia exposures as a possible preparation for dealing with potentially harmful oxygen reperfusion stress.
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PMID:Relationship between anoxia exposure and antioxidant status in the frog Rana pipiens. 889 82

Donor pretreatment is a new concept in organ preservation. Pentoxifylline (PTX) has been reported to suppress the activation of Kupffer cells and to decrease injury to the hepatic graft after rat liver transplantation. We evaluated the efficiency of PTX pretreatment on the donor against hepatic injury following cold ischemia (CI) or warm ischemia (WI) using the rat liver transplantation model. Dose dependency: every rat was injected intraperitoneally with PTX (30, 50, or 80 mg/kg) or saline. One hour later, the portal vein (PV) and the hepatic artery (HA) were clamped for 30 min. Transplantation: the donor rat was injected intraperitoneally with 50 mg/kg PTX or saline, 1 hr before laparotomy. Animals were divided into two groups. In the CI group, grafts were preserved for 12 hr in University of Wisconsin solution at 4 degrees C and transplanted. In the WI group, the PV and the HA in the donor were clamped for 30 min before donor surgery, and the grafts were transplanted. Serum levels of tumor necrosis factor-alpha (TNF-alpha), glutathione S-transferase-alpha (GST-alpha), and aspartate transaminase (AST) were measured at 30 min, 3 hr, and 24 hr after reperfusion of the PV. Compared with those of a control group, the serum levels of TNF-alpha, GST-alpha, and AST in the PTX-pretreated groups were significantly lower after both CI and WI at 30 min and further suppressed in the WI group at 24 hr. These results indicate that PTX pretreatment on the donor is effective for suppression of hepatic injury after both CI and WI.
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PMID:Efficiency of pentoxifylline in donor pretreatment in rat liver transplantation. 935 39

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