EC:1.11.1.9 - FACTA Search

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)

Daunorubicin is an anthracycline antitumour agent that can cause severe cardiomyopathy leading to a frequently fatal congestive heart failure. Although the exact molecular mechanisms of cardiotoxicity are not well established, oxidative mechanisms involving daunorubicin-induced superoxide anion production have been proposed. In the present study, we showed that ebselen a seleno-organic compound exhibiting glutathione peroxidase-like and antioxidant activities, significantly ameliorated daunorubicin-induced cardiomyopathy. Subcutaneous administration of ebselen to daunorubicin-treated rats showed significant improvement in serum cardiac indices including creatine kinase isoenzyme and lactate dehydrogenase as well as serum glutathione (GSH) peroxidase. Moreover, myocardium of daunorubicin/ebselen-treated rats showed significant improvement in daunorubicin-induced depletion of GSH peroxidase activity and reduced glutathione content, in addition to attenuation of daunorubicin-induced increase in cardiac malondialdehyde production and total nitrate/nitrite concentration levels. These results were confirmed by histopathological examination of ventricles of daunorubicin/ebselen-treated rats that revealed significant improvement of the characteristic cardiomyopathic changes induced by daunorubicin treatment. Interestingly, control rats treated with ebselen showed significant elevation in serum lactate dehydrogenase activity, cardiac malondialdehyde production and total nitrate/nitrite concentration levels compared with the untreated control animals. In conclusion, ebselen treatment significantly alleviates daunorubicin-induced cardiomyopathy.
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PMID:Cardioprotective effects of subcutaneous ebselen against daunorubicin-induced cardiomyopathy in rats. 1716 21

Hyperbaric oxygen (HBO) causes oxidative stress in several organs and tissues. Due to its high rate of blood flow and oxygen consumption, the brain is one of the most sensitive organs to this effect. Many studies have reported oxidative effects of HBO, but there is no comprehensive data about how long this effect persists. The aim of this study was to elucidate the duration of HBO-induced oxidative/antioxidant action. Male Sprague-Dawley rats were divided into 5 groups. Except for the controls, the animals were subjected to 100% oxygen for 2 h at 3 atm and differed from each other by the time to dissection after exposure that began at 30, 60, 90, or 120 min. Thiobarbituric acid-reactive substances (TBARS), as well as superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activity was determined in brain cortex tissue. Additionally, nitrite-nitrate (NO(x)) concentrations were measured. All measured parameters were found to be significantly increased 30 min after exposure. SOD and GSH-Px levels persisted at significantly high levels for 60 min. In conclusion, the oxidative effect of HBO was shown to persist only for 1 h. Further studies should be performed to elucidate the possible molecular interactions during this period.
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PMID:Persistence of hyperbaric oxygen-induced oxidative effects after exposure in rat brain cortex tissue. 1740 83

1. The present study investigated the possible protective effects of thymoquinone (TQ), a compound derived from Nigella sativa with strong anti-oxidant properties, against gentamicin (GM)-induced nephrotoxicity. 2. A total of 40 adult male Wistar albino rats was divided into four groups. Rats in the first group were injected daily with normal saline (2.5 mL/kg, i.p.) for 8 consecutive days, whereas rats in the second group received TQ (50 mg/L in drinking water) for 8 consecutive days. Animals in the third group were injected daily with GM (80 mg/kg, i.p.) for 8 consecutive days, whereas animals in the fourth group received a combination of GM (80 mg/kg, i.p.) and TQ (50 mg/L in drinking water) for 8 consecutive days. 3. Gentamicin resulted in a significant increase in serum creatinine, blood urea nitrogen (BUN), thiobarbituric acid-reactive substances (TBARS) and total nitrate/nitrite (NOx) and a significant decrease in reduced glutathione (GSH), glutathione peroxidase (GPx), catalase (CAT) and ATP levels in kidney tissues. 4. Interestingly, TQ supplementation resulted in a complete reversal of the GM-induced increase in BUN, creatinine, TBARS and NOx and decrease in GSH, GPx, CAT and ATP to control values. Moreover, histopathological examination of kidney tissues confirmed the biochemical data, wherein TQ supplementation prevents GM-induced degenerative changes in kidney tissues. 5. Data from the present study suggest that TQ supplementation prevents the development of GM-induced acute renal failure by a mechanism related, at least in part, to its ability to decrease oxidative stress and to preserve the activity of the anti-oxidant enzymes, as well as it ability to prevent the energy decline in kidney tissues.
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PMID:Thymoquinone supplementation prevents the development of gentamicin-induced acute renal toxicity in rats. 1743 7

1. The present study was designed to evaluate the protective effects of the nitric oxide (NO)-generating compounds L-arginine (L-Arg) and sodium nitroprusside (SNP) on oxidative stress markers in streptozotocin (STZ)-diabetic rats. 2. Diabetes was induced after a single intraperitoneal injection of STZ (60 mg/kg). Rats were divided into non-diabetic (control), diabetic and treated diabetic groups. The treated diabetic groups were supplemented with L-Arg (300 mg/kg), SNP (3 mg/kg per day) or glibenclamide (0.6 mg/kg per day) orally for 4 weeks. 3. At the end of the experiment, fasted rats were killed by cervical decapitation. Blood was collected for estimation of glucose, haemoglobin, glycosylated haemoglobin (HbA(1c)), total cholesterol, high-density lipoprotein-cholesterol and triglycerides. Thiobarbituric acid-reactive substances (TBARS; an index of lipid peroxidation), superoxide dismutase, glutathione peroxidase, catalase, nitrate/nitrite (NO(x)) and reduced glutathione (GSH) were estimated in liver and kidney homogenates. 4. A significant increase was observed in plasma glucose levels and HbA(1c), with a concomitant decrease in haemoglobin levels, in diabetic rats. These alterations reverted back to near normal after treatment with the NO-generating compounds. A loss of bodyweight, polydipsia, polyphagia and elevated levels of serum cholesterol and triglycerides were observed in diabetic rats. Hyperglycaemia was accompanied by a significant increase in tissue TBARS and a decrease in NO(x), GSH and anti-oxidant enzymes, whereas, supplementation with L-Arg and SNP significantly reduced TBARS levels and increased GSH and anti-oxidant enzyme activities. Linear regression analysis indicated that blood glucose and TBARS had a significant positive correlation with HbA(1c), whereas a negative correlation was observed between GSH and NO(x). 5. It is concluded that NO-generating compounds improve most of the biochemical abnormalities and anti-oxidant levels in diabetic rats. The beneficial effects of NO-generating compounds can be attributed to the generation of NO and/or enhanced anti-oxidant enzyme activities.
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PMID:Can nitric oxide-generating compounds improve the oxidative stress response in experimentally diabetic rats? 1758 Dec 13

This study was designed to examine the in vitro effects of adenosine (Ado) on hydrogen peroxide-induced endothelial dysfunction in rats. Endothelial dysfunction was induced by exposing isolated rat mesenteric arteries to hydrogen peroxide (0.5 mM) for 12 h using an organ culture system. The protective effects of adenosine were tested by exposing isolated mesenteric arteries to adenosine (3 x 10(-7) mol/l, 10(-6) mol/l, 3 x 10(-6) mol/l)+hydrogen peroxide (0.5 mM) for 12 h. This exposure to hydrogen peroxide induced a significant concentration-dependent inhibition of endothelium-dependent relaxation (EDR). Coculture of segments of mesenteric artery with adenosine (3 x 10(-7), 10(-6), and 3 x 10(-6) mol/l) attenuated the hydrogen peroxide-induced impairment of vasorelaxation. This impairment was accompanied by a reduction in nitrite/nitrate, nitric oxide (NO) synthase (NOS), superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities and an increasing in malondislehyde (MDA) and lactate dehydrogenase (LDH) activities in the aorta. These results indicate that adenosine can be used to attenuate hydrogen peroxide-induced endothelial dysfunction, an effect that may be related to antioxidation, thus enhancing NO production by preventing the decrease in NOS.
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PMID:Protective mechanism of adenosine to the rat arterial endothelial dysfunction induced by hydrogen peroxide. 1760 54

Hyperbaric oxygen (HBO) is known to cause oxidative stress in several organs and tissues. Due to its high rate of blood flow and oxygen consumption, the brain is one of the most sensitive organs to this effect. The present study was performed to elucidate the relation of HBO exposure time to its oxidative effects in rats' brain cortex tissue. For this purpose, 49 rats were randomly divided into five groups. Except the control group, study groups were subjected to three atmospheres HBO for 30, 60, 90, and 120 min. Their cerebral cortex layer was taken immediately after exposure and used for analysis. Thiobarbituric acid reactive substances (TBARS), superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and nitrate-nitrite (NOX) levels were determined. TBARS and SOD levels were found to increase in a time-dependent manner. GSH-Px activity reflected an inconsistent course. NOX levels were found to be increased only in the 120 min exposed group. The results of this study suggests that HBO induced oxidative effects are strongly related with exposure time.
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PMID:Exposure time related oxidative action of hyperbaric oxygen in rat brain. 1771 May 43

The cytotoxic mechanism of mustards has not been fully elucidated; recently, we reported that reactive oxygen species, nitric oxide [produced by inducible nitric oxide synthase (iNOS)] and peroxynitrite are involved in the pathogenesis and responsible for mustard-induced toxicity. Melatonin, a potent antioxidant molecule, acts as an iNOS inhibitor and a peroxynitrite scavenger. Using the prototypic nitrogen mustard (mechlorethamine/HN2) as a model and based on its known cytotoxic mechanisms, the present study was performed to test melatonin for its capability in protecting the lungs of injured male Wistar rats. Lung mustard toxicity was induced via an intratracheally injection of HN2 (0.5mg/kg) dissolved in saline (100microl). Control animals were injected the same amount of saline only. Melatonin was administered intraperitoneally with two different doses (20mg/kg or 40mg/kg) beginning 1h before HN2 application and continued every 12h for six replications. Forty-eight hours after the last melatonin injection, the animals were sacrificed and their lungs were taken for further assay, i.e., malondialdehyde (MDA) levels, and superoxide dismutase (SOD), glutathione peroxidase (GPx) and iNOS activity. Additionally their urine was collected for nitrite-nitrate (NO(x)) analysis. HN2 injection caused increased iNOS activity and MDA levels in lung tissue and NO(x) values in urine; lung GPx activity was significantly depressed. Melatonin restored all of these oxidative and nitrosative stress markers in a dose-dependent manner. In conclusion, the results of study provide evidence that melatonin may have the ability to reduce mustard-induced toxicity in the lungs.
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PMID:Melatonin alleviates lung damage induced by the chemical warfare agent nitrogen mustard. 1776 11

Previous studies revealed that oxidative stress could be an important component of the mechanism of organophosphate (OP) compound toxicity. The aim of the present study was to investigate both prophylactic and therapeutic effects of melatonin against fenthion-induced oxidative stress in rats. Therefore, we determined the changes in the levels of reduced glutathione (GSH) and malondialdehyde (MDA) in the whole blood, brain, pectoral muscle, liver, lung, heart, kidney, pancreas, and jejunum. Also, the changes in the levels of serum nitrite and nitrate, ascorbic acid, retinal, b-carotene, and ceruloplasmin were measured. In addition, activities of enzymatic antioxidants superoxide dismutase (SOD), glutathione peroxidase (GPx), and catalase (CAT) in erythrocyte of normal and experimental animals were measured. It was found that fenthion administration increased the levels of MDA in all tissues and decreased or increased the levels of GSH in some tissues. In comparison to nitrate, nitrite and ascorbic acid levels in the serum of experimental groups, there was no significant difference between groups. However, fenthion toxicity led to decrease in retinol and beta-carotene levels; melatonin administration significantly prevented this decrease. Serum ceruloplasmin level was increased due to fenthion administration, but prophylactic and therapeutic melatonin administration inhibited the increase in ceruloplasmin level of serum. There was no significant change in SOD levels in melatonin-administered groups. Melatonin modulates the fenthion-induced changes in the activities of GPx and CAT. In conclusion, the results of the current study revealed that OP toxicity, induced by fenthion, activated oxidant systems in all antioxidant systems in some tissues. Melatonin administration led to a marked increase in antioxidant activity and inhibited lipid peroxidation in most of tissues.
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PMID:Antioxidative role of melatonin in organophosphate toxicity in rats. 1776 67

The aim of this study was to evaluate the effect of cyclosporine (CsA) on oxidative stress as well as the use of a nitric oxide (NO) donor, the organic nitrate isosorbide-5-mononitrate (Is-5-Mn), to prevent or reverse CsA-induced toxicity, namely on the vascular NO-cGMP pathway or on oxidative equilibrium. The following rat groups (n = 8) were tested: (1) a control group; (2) the CsA group (5 mg/kg/d for 7 weeks); (3) the Is-5-Mn group (150 mg/kg/d, twice a day for 7 weeks); (4) the preventive group (Is-5-Mn + CsA) treated for 2 weeks with Is-5-Mn only, and thereafter with both drugs for 7 weeks; (5) the curative group (CsA + Is-5-Mn) beginning 7 weeks after CsA, and following thereafter with both drugs for 5 weeks. The following parameters were evaluated: aortic cNOS activity and cGMP content; plasma levels of lipid peroxidation (malondialdehyde [MDA] levels); antioxidant capacity (glutathione peroxidase [GPx] and superoxide dismutase [SOD] activities, total antioxidant status, and vitamins A, C, and E); and peroxynitrite formation (3-nitrotyrosine [3-NT] content). Is-5-Mn + CsA therapy showed, when compared with the CsA group, total prevention of CsA-induced NO and cGMP attenuation, and no relevant influence on antioxidant indices, as well as on MDA and 3-NT levels. However, when compared with this CsA group, the curative group (CsA + Is-5-Mn) showed NO-cGMP values only partially reversed, and an enhancement in lipid peroxidation (5.6 +/- 1.4 vs 12.78 +/- 3.63 mumol/L; P < .05) and in peroxynitrite formation (16.7% incidence of positives vs 83.3% incidence of positives). Our data suggested that nitrate therapy may provide a valid choice to prevent CsA-induced NO-cGMP decrease, without a negative influence on the oxidative equilibrium. However, when the local environment is adverse, as occurs after CsA therapy, Is-5-Mn seemed to enhance the CsA-induced oxidative stress, promoting even worse deleterious effects, probably through the generation of the cytotoxic ROS peroxynitrite.
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PMID:Oxidative stress in cyclosporine-induced hypertension: evidence of beneficial effects or tolerance development with nitrate therapy. 1795 57

The purpose of the study was to investigate the effect of aminoguanidine (AG) on visual evoked potentials (VEPs), thiobarbituric acid reactive substances (TBARS), the activities of Cu, Zn superoxide dismutase (Cu,Zn-SOD), glutathione peroxidase (GSH-Px) and catalase (CAT), and nitrite/nitrate levels. Forty healthy male Wistar rats, aged 3 months, were divided into four equal groups: Control (C), the group treated with aminoguanidine (A), the group exposed to restraint stress (S), the group exposed to restraint stress and treated with aminoguanidine (AS). Chronic restraint stress was applied for 21 days (1 h/day) and aminoguanidine (50 mg/kg/day) was injected intraperitoneally to the A and AS groups for the same period. Aminoguanidine treatment significantly decreased retina and brain TBARS levels in rats exposed to restraint stress compared to rats exposed to restraint stress alone. Aminoguanidine treatment produced a significant decrease in brain and retina nitrite and nitrate levels with respect to the control groups. Aminoguanidine increased all antioxidant enzyme activities in both brain and retina in rats exposed to restraint stress compared to rats exposed to restraint stress alone. All VEP components were significantly decreased in AG treated rats exposed to restraint stress compared to rats exposed to restraint stress alone. Our study clearly showed that AG has the potential to prevent changes caused by stress.
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PMID:Effect of aminoguanidine on visual evoked potentials (VEPs), antioxidant status and lipid peroxidation in rats exposed to chronic restraint stress. 1799 25

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