UMLS:C0344329 - FACTA Search

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Query: UMLS:C0344329 (collapse)
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The present knowledge of glutathione (GSH) peroxidase is briefly reviewed: GSH peroxidase has a molecular weight of about 85,000, consists of four apparently-identical subunits and contains four g atom of selenium/mol. The enzyme-bound selenium can undergo a substrate-induced redox change and is obviously essential for activity. In accordance with the assumption that a selenol group is reversibly oxidized during catalysis, ping-pong kinetics are observed. Limiting maximum velocities and Michaelis constants, indicating the formation of an enzyme-substrate complex, are not detectable. The enzyme is highly specific for GSH but reacts with many hydroperoxides. It can be deduced from the kinetic analysis of GSH peroxidase that in physiological conditions removal of hydroperoxide is largely independent of fluctuations in the cellular concentration of GSH. However, the system will abruptly collapse if the rate of hydroperoxide formation exceeds that of regeneration of GSH. By these considerations, the pathophysiological manifestation of disorders in GSH metabolism and pentose-phosphate shunt may be explained. With regard to its low specificity for hydroperoxides, GSH peroxidase could be involved in various metabolic events such as H2O2 removal in compartments low in catalase, hydroperoxide-mediated mutagenesis, protection of unsaturated lipids in biomembranes, prostaglandin biosynthesis, and regulation of prostacyclin formation.
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PMID:Glutathione peroxidase: fact and fiction. 38 23

Cardiomyopathy was produced in 38 weanling swine by feeding a semisynthetic diet deficient in selenium and vitamin E for 13 to 59 days. Pigs were killed for morphologic studies of the cardiac lesions at sequential times after development of the deficiency disease. Gross examination disclosed hydropericardium and scattered pale streaks and patches of necrosis in the myocardium, especially the left ventricle. Histopathologically, the lesions were scattered throughout the heart but were most severe in the atria. Ultrastructurally, the damaged fibers had many features of myofibrillar degeneration with hypercontraction bands, myofibrillar lysis, and mitochondrial swelling, disruption, and mineralization. Numerous macrophages appeared to have passed through focal disruptions in the external laminae of the muscle cells and engulfed sarcoplasmic and nuclear debris. Stromal collapse and mild fibrosis persisted as residual lesions in scattered areas of myocardium in pigs with long term deficiency. Although vascular lesions were present in the hearts of selenium and vitamin E deficient pigs, it was concluded that the fiber alterations developed independently of the vascular changes. The pathogenesis of this cardiomyopathy induced by nutritional deficiency is thought to be related to lack of protection by the selenoenzyme, glutathione peroxidase, and the antioxidant, vitamin E, from lipoperoxidative damage.
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PMID:Ultrastructural alterations in nutritional cardiomyopathy of selenium-vitamin E deficient swine. I. Fiber lesions. 88 81

Reexpansion pulmonary edema (RPE) parallels reperfusion (reoxygenation) injuries in other organs in that hypoxic and hypoperfused lung tissue develops increased vascular permeability and neutrophil infiltration after reexpansion. This study investigated the lung cellular glutathione system during hypoxia (produced by lung collapse) and after reoxygenation (produced by reexpansion). Two separate groups of rabbits were studied to determine effects of lung hypoxia-reoxygenation on 1) lung glutathione peroxidase and reductase enzyme activities and 2) lung tissue, plasma, and alveolar lavage fluid total (reduced glutathione plus glutathione disulfide) and oxidized glutathione. Neither lung collapse for 3-7 days nor reexpansion for 2 h after 7 days of collapse affected glutathione peroxidase [controls, 0.36 +/- 0.04 (left), 0.38 +/- 0.03 U/mg DNA (right)] or reductase [controls, 0.12 +/- 0.01 (left), 0.14 +/- 0.01 U/mg DNA (right)] activities. The concentration of glutathione disulfide increased markedly in right alveolar lavage fluid, but not in plasma, after right lung reexpansion. Right lung total glutathione decreased significantly (-19%) after 7 days of collapse. After right lung reexpansion, both left (-65%) and right (-68%) lung total glutathione decreased significantly. The percent of total glutathione present in the oxidized form increased significantly in both left (to 15.5 +/- 4.0% of total) and right (to 18.7 +/- 6.3% of total) lungs after reexpansion of the right lung. These data indicate that lung tissue hypoxia, produced by unilateral lung collapse, was associated with a unilateral decrease in lung total glutathione content. Right lung reoxygenation, due to rapid reexpansion, caused a bilateral decrease in lung total glutathione content and an increase in right lung and alveolar lavage fluid glutathione disulfide concentration.
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PMID:Effects of hypoxia and reoxygenation on lung glutathione system. 238 25

We studied levels of superoxide dismutase, glutathione, reductase, glutathione peroxidase and lipoperoxides in 12 healthy lambs below 1 year of age (8-19 kg) under therapy with extracorporeal membrane oxygenation (ECMO). Plasma levels of these free oxygen radical scavenging enzymes and lipoperoxides were taken 1 day before the ECMO experiment, at the beginning of ECMO after the first rotations of the roller pump, during, and after ECMO. The pre-ECMO results of days 1 and 2 were compared with the during-ECMO results and those with the post-ECMO results using the t test for paired samples. We found a significant decrease of both superoxide dismutase and glutathione reductase on ECMO, a trend to increased lipoperoxide levels, and unchanged levels of glutathione peroxidase. After discontinuing bypass the levels began to normalize again. We conclude that ECMO reduces some oxygen radical scavenging enzyme levels and exhibits a trend to increased lipoperoxide levels. Near total lung collapse with consecutive reperfusion injury might be harmful considering these results. However, the nonsignificant increase in lipoperoxide levels excludes considerable oxygen toxicity during this short ECMO trial.
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PMID:Changes in plasma levels of oxygen radical scavenging enzymes during extracorporeal membrane oxygenation in a lamb model. 826 May 45

Drug-induced acute liver failure (ALF) is a devastating and often fatal disease mainly caused by poisoning by acetaminophen (APAP). The toxic metabolite, N-acetyl-p-benzoquinone-imine (NAPQI), that leads to gluthatione depletion has been suspected to be the main effector of hepatocyte apoptosis during APAP-induced ALF. We have investigated whether reactive oxygen species (ROS) also play a role in APAP-induced ALF, and whether manganese III tetrakis (5,10,15,20 benzoic acid) (MnTBAP), a mimic of superoxide dismutase (SOD) with catalase-like activity, can treat the disease in mice. The effects of MnTBAP were tested on APAP-intoxicated mice and on isolated hepatocytes incubated with APAP. MnTBAP preventively and curatively administered significantly improved survival times, and dramatically reduced serum transaminase activity levels and parenchymal lesions in APAP-intoxicated mice. Whereas pretreatment with N-acetyl-L-cysteine (NAC) prevented ALF in a dose-dependent manner, the molecule was ineffective when curatively administered. The significant increase in glutathione peroxidase (Gpx) activity following APAP administration, and the beneficial effects of MnTBAP suggested that ROS were produced during APAP-induced ALF. A direct evidence of ROS generation was provided by flow cytometry of isolated hepatocytes incubated with APAP. In vitro, ROS production was associated with mitochondrial damage characterized by the collapse of transmembrane potential and the loss of cardiolipin content. In livers of intoxicated mice, ALF was associated with cytochrome c release that led to the activation of caspases-9 and -3. The capacity of MnTBAP to abrogate all those alterations suggests that ROS play a role in APAP-induced apoptosis of hepatocytes, and explains the beneficial effects of MnTBAP, which could be of interest in APAP-induced ALF in humans.
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PMID:Detoxification of reactive oxygen species by a nonpeptidyl mimic of superoxide dismutase cures acetaminophen-induced acute liver failure in the mouse. 1134 46

The mechanisms involved in the anti-carcinogenic activity of selenium remained to be elucidated. In the present study, we examined sodium selenite induced apoptosis and oxidative stress in human acute promyelocytic leukemia cell lines (NB4). Cell growth and viability were assessed by trypan blue exclusion and cell counting; apoptosis by DNA electrophoresis and analysis of intracellular DNA contents; reactive oxygen species and reduced glutathione in the cell were measured by lucigenin dependent chemoluminescent (CL) test and spectrophotometer; mitochondrial transmembrane potential was measured by flow cytometry. Sodium selenite could inhibit the growth and induce apoptosis of NB4 cells. Sodium selenite could increase the production of reactive oxygen species (ROS) in NB4 cells and decrease the level of intracellular reduced glutathione, but caused no change in the activity of antioxidant enzymes, superoxide dismutase (SOD), glutathione peroxidase (GPx). Sodium selenite enhanced the collapse of mitochondrial transmembrane potential (MTP), in parallel with the production of ROS. Finally antioxidant N-acetylcysteine (NAC) could inhibit the ROS production, MTP collapse and apoptosis in NB4 cells. Our results suggested that sodium selenite could induce apoptosis of NB4 cells through mitochondrial change mediated by production of reactive oxygen species within the cells.
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PMID:Induction of apoptosis by sodium selenite in human acute promyelocytic leukemia NB4 cells: involvement of oxidative stress and mitochondria. 1275 97

HIV-1 encodes for one of the human glutathione peroxidases. As a consequence, as it is replicated, its genetic needs cause it to deprive HIV-1 seropositive individuals not only of glutathione peroxidase, but also of the four basic components of this selenoenzyme, namely selenium, cysteine, glutamine, and tryptophan. Eventually this depletion process causes severe deficiencies of all these substances. These, in turn, are responsible for the major symptoms of AIDS which include immune system collapse, greater susceptibility to cancer and myocardial infarction, muscle wasting, depression, diarrhea, psychosis and dementia. As the immune system fails, associated pathogenic cofactors become responsible for a variety of their own unique symptoms. Any treatment for HIV/AIDS must, therefore, include normalization of body levels of glutathione, glutathione peroxidase, selenium, cysteine, glutamine, and tryptophan. Although various clinical trials have improved the health of AIDS patients by correcting one or more of these nutritional deficiencies, they have not, until the present, been addressed together. Physicians involved in a selenium and amino-acid field trial in Botswana, however, are reporting that this nutritional protocol reverses AIDS in 99% of patients receiving it, usually within three weeks.
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PMID:How HIV-1 causes AIDS: implications for prevention and treatment. 1505 Jan 5

Peroxisomes, being one of the main organelles where reactive oxygen species (ROS) are both generated and detoxified, have been suggested to be instrumental in redox-mediated plant cell defence against oxidative stress. We studied the involvement of tomato (Lycopersicon esculentum Mill.) leaf peroxisomes in defence response to oxidative stress generated upon Botrytis cinerea Pers. infection. The peroxisomal antioxidant potential expressed as superoxide dismutase (SOD, EC 1.15.1.1), catalase (CAT, EC 1.11.1.6) and glutathione peroxidase (GSH-Px, EC 1.11.1.19) as well as the ascorbate-glutathione (AA-GSH) cycle activities was monitored. The initial infection-induced increase in SOD, CAT and GSH-Px indicating antioxidant defence activation was followed by a progressive inhibition concomitant with disease symptom development. Likewise, the activities of AA-GSH cycle enzymes: ascorbate peroxidase (APX, EC 1.11.1.11), monodehydroascorbate reductase (MDHAR, EC 1.6.5.4), dehydroascorbate reductase (DHAR, EC 1.8.5.1) and glutathione reductase (GR, EC 1.6.4.2) as well as ascorbate and glutathione concentrations and redox ratios were significantly decreased. However, the rate and timing of these events differed. Our results indicate that B. cinerea triggers significant changes in the peroxisomal antioxidant system leading to a collapse of the protective mechanism at advanced stage of infection. These changes appear to be partly the effect of pathogen-promoted leaf senescence.
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PMID:Fungal pathogen-induced changes in the antioxidant systems of leaf peroxisomes from infected tomato plants. 1584 61

Highly purified rat liver mitochondria (RLM) when exposed to tert-butylhydroperoxide undergo matrix swelling, membrane potential collapse, and oxidation of glutathione and pyridine nucleotides, all events attributable to the induction of mitochondrial permeability transition. Instead, RLM, if treated with the same or higher amounts of H2O2 or tyramine, are insensitive or only partially sensitive, respectively, to mitochondrial permeability transition. In addition, the block of respiration by antimycin A added to RLM respiring in state 4 conditions, or the addition of H2O2, results in O2 generation, which is blocked by the catalase inhibitors aminotriazole or KCN. In this regard, H2O2 decomposition yields molecular oxygen in a 2:1 stoichiometry, consistent with a catalytic mechanism with a rate constant of 0.0346 s(-1). The rate of H2O2 consumption is not influenced by respiratory substrates, succinate or glutamate-malate, nor by N-ethylmaleimide, suggesting that cytochrome c oxidase and the glutathione-glutathione peroxidase system are not significantly involved in this process. Instead, H2O2 consumption is considerably inhibited by KCN or aminotriazole, indicating activity by a hemoprotein. All these observations are compatible with the presence of endogenous heme-containing catalase with an activity of 825 +/- 15 units, which contributes to mitochondrial protection against endogenous or exogenous H2O2. Mitochondrial catalase in liver most probably represents regulatory control of bioenergetic metabolism, but it may also be proposed for new therapeutic strategies against liver diseases. The constitutive presence of catalase inside mitochondria is demonstrated by several methodological approaches as follows: biochemical fractionating, proteinase K sensitivity, and immunogold electron microscopy on isolated RLM and whole rat liver tissue.
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PMID:Catalase takes part in rat liver mitochondria oxidative stress defense. 1757 67

Atherogenic diet is known to induce high plasma lipid concentration, oxidative stress and early atherosclerosis. Antioxidants have potentials to counter the effect of atherogenic diet. The present research aims at evaluating the antioxidant and anti-atherosclerotic activities of three Piper species (Piper guineense, Piper nigrum and Piper umbellatum) on atherogenic diet fed hamsters. Hamsters divided into 8 groups: normal control, atherosclerotic control and six test groups. The normal animals fed normal rodent chow, the atherosclerotic control animals fed the same rodent chow supplemented with 0.2% cholesterol and 10% coconut oil (high cholesterol diet). The 6 test groups' animals fed same diet as the atherosclerotic control group but with additional supplementation of 2 graded doses (1 and 0.25 mg/kg body weight, o.p.) of plant extracts for 12 weeks. The atherogenic diet induced a collapse of the erythrocyte antioxidant defense system (significant decrease in superoxide dismutase, catalase and glutathione peroxidase activities). Atherogenic diet also induced an increase in plasma total cholesterol, triglyceride, thiobarbituric acid reactive substances (TBARS), oxidation of low density lipoprotein cholesterol (LDL) and accumulation of foam cells in the aorta a hall mark for atherosclerosis. Administration of the Piper species prevented the collapse of the antioxidant system and the increase of plasma parameters maintaining them towards normality. The Piper species also prevented LDL oxidation by increasing the time (lag time) for its oxidation. The results suggest that these Piper species have significant antioxidant and anti-atherogenic effect against atherogenic diet intoxication.
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PMID:Antioxidant and anti-atherogenic activities of three Piper species on atherogenic diet fed hamsters. 2103 16

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