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: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The in vivo hepatic lipid peroxide content of rats was increased by aspirin or 4-pentenoic acid (4-PA) administration but was decreased by clofibrate (CPIB) administration. The increase by aspirin or 4-PA treatment was depressed by simultaneous administration of CPIB. However, the in vitro formation of lipid peroxide in liver mitochondria and microsomes of rats treated with CPIB as well as aspirin and 4-PA was also elevated compared to that of control rats. The formation of lipid peroxide in mitochondria and microsomes of control rats in vitro was depressed by the addition of cytosols obtained from untreated (control), aspirin-treated, 4-PA-treated, and CPIB-treated rats, but was not depressed by the addition of albumin or heated cytosols. The most effective depression was obtained by the addition of cytosol obtained from CPIB-treated rats. In addition, glutathione peroxidase activity and nonprotein sulfhydryl content in cytosol obtained from CPIB-treated rats were elevated compared to those from control, aspirin, and 4-PA-treated rats. The results suggest that the action of CPIB may be mainly related to the increase of cytosolic glutathione peroxidase activity and nonprotein sulfhydryl content. Hepatic triglyceride and phospholipid contents of rats treated with aspirin or 4-PA were increased compared to those of control rats. These increases were also reversed by simultaneous administration of CPIB.
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PMID:Effect of clofibrate on lipid peroxidation in rats treated with aspirin and 4-pentenoic acid. 357 Dec 11

Studies were conducted to determine the relationship between dietary vitamin E (VE) and the development of nutritional pancreatic atrophy (NPA) in selenium (Se)-deficient chicks. Selenium- and VE-depleted chicks reared on a low Se, amino acid-based diet containing 100 IU VE (as all-rac-alpha-tocopheryl acetate) per kilogram were found to have exceedingly low pancreatic activities of Se-dependent glutathione peroxidase (SeGSHpx) at 8 d of age. Supplementation of the purified diet with 500 or 1,000 IU VE/kg prevented both NPA and the associated growth depression. Use of graded dietary VE levels showed that addition of at least 300 IU/kg was required to overcome the growth depression associated with severe Se deficiency. Although tissue alpha-tocopherol concentrations increased linearly with increasing dietary levels of VE, the response in pancreas was less than (about one-half of) those in liver and heart and, unlike the response in heart, was not affected by dietary Se level. That protection against NPA involved the antioxidant action of VE was suggested by results showing that NPA is promoted by high dietary levels of linoleic acid, that high VE levels correct membrane unsaturated fatty acid losses due to Se deficiency and that NPA is prevented by high levels of other antioxidants. It is suggested that the normally low activities of SeGSHpx and concentrations of alpha-tocopherol in the pancreas may predispose that organ to lesions due to oxidative stress under conditions of severe nutritional Se deficiency that results in further depletion of SeGSHpx. This situation may be overcome by feeding VE at 15-20-fold excesses over the levels normally regarded as nutritionally required.
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PMID:Influence of dietary vitamin E on nutritional pancreatic atrophy in selenium-deficient chicks. 357 59

Pretreatment of the ischemic myocardium with verapamil protects against mitochondrial respiratory depression observed during ischemic arrest as well as during reperfusion. Since ischemic mitochondrial function appears not to be altered further by reperfusion, the purpose of this study is to identify a biochemical event affecting mitochondria that is specifically associated with reperfusion injury. It has been proposed that increased cellular Ca2+ influx and oxygen toxicity may result from reintroduction of coronary flow. Increased cytosolic Ca2+ is transmitted to the mitochondria with subsequent activation of Ca2+-dependent events, including phospholipase A2. Net production of lysophospholipids (and loss of total diacylphospholipids from the mitochondria) will proceed when reacylation mechanisms are inhibited. Since acyl-CoA:lysophospholipid acyltransferase is a sulfhydryl-sensitive enzyme and since increased activity of glutathione peroxidase shifts the levels of the mitochondrial sulfhydryl buffer, glutathione, towards oxidation, levels of glutathione and its oxidation state were measured during reperfusion in the absence or presence of verapamil pretreatment. Ischemia lowers total glutathione and reduces the redox ratio (reduced glutathione: oxidized glutathione) by 85%. Reperfusion partially returns the redox ratio to control by causing oxidized glutathione to disappear from the matrix. Verapamil maintains both the concentration and the redox potential of glutathione at control levels. Concomitant with alterations in reduced glutathione:oxidized glutathione is a decrease in ischemic mitochondrial phospholipid content. During reperfusion, phosphatidylethanolamine and its major constituent fatty acids (C 18:0 and C 20:4) are specifically lost from the mitochondrial membrane. Accompanying the significant loss of arachidonic acid during reperfusion is the decreased content of 11-OH, 12-OH, and 15-OH arachidonate. These lipid peroxidation products are not increased in ischemia. It is proposed that oxidation of matrix glutathione to glutathione disulfide during ischemia results in formation of glutathione-protein mixed disulfides and inhibition of sulfhydryl-sensitive proteins, including acyl-CoA lysophosphatide acyltransferase. Thus, metabolic events occurring within the ischemic period set the stage for prolonged dysfunction during reperfusion.
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PMID:Protection by verapamil of mitochondrial glutathione equilibrium and phospholipid changes during reperfusion of ischemic canine myocardium. 362 93

The mechanisms of toxicity and sensitization by the radiosensitizer misonidazole [1-(2-nitro-1-imidazolyl)-3-methoxy-2-propanol] are not well understood. We report here on the inhibition of total glutathione peroxidase (GSHPx), selenium-dependent glutathione peroxidase (selenium-GSHPx) and glutathione transferase (GSHTx) activities by misonidazole. Mouse liver cytosol GSHPx and selenium-GSHPx were inhibited in vitro with 0.5 mM misonidazole. On administration of the drug intraperitoneally (800 mg/kg) to mice, it was found that GSHPx, selenium-GSHPx, and GSHTx were inhibited in homogenate, cytosol, and microsomal fractions of mouse liver. GSHPx was depressed in all fractions up to 60-70% of control values, with maximum depression occurring in the cytosol and homogenate fractions in less than 2 hr. Recovery of activity was slower in the microsomes. In general, the pattern of depression of selenium-GSHPx was parallel to that of GSHPx except in microsomes, where GSHPx is minimal. Quantitatively, selenium-GSHPx was least affected. GSHTx was inhibited 70-80% of control values in cytosol and homogenate with recovery by 24 hr, whereas a second period of depression occurred at 24 hr in the microsomes. The inhibition of peroxide-metabolizing enzymes may lead to elevation of intracellular peroxide levels, contributing to the radiosensitizing effect and/or toxicity of misonidazole.
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PMID:Inhibition of glutathione peroxidase and glutathione transferase in mouse liver by misonidazole. 375 20

The effects of the xenobiotics, i.e. butylated hydroxytoluene, beta-naphthoflavone, isosafrole, pregnenolone-16 alpha-carbonitrile, trans-stilbene oxide, 3-methylcholanthrene, phenobarbital, 3,3',4,4'-tetrachlorobiphenyl, 2,2',4,4',5,5'-hexachlorobiphenyl, on rat liver cytosolic glutathione transferase and glutathione peroxidase activities have been investigated. Although the glutathione transferase isozymes (measured by the specific substrates ethacrynic acid and delta 5-androstene-3,17-dione) which have been shown to possess peroxidase activity were significantly increased, little or no increase in peroxidase activity (toward cumene hydroperoxide, tert-butyl hydroperoxide or hydrogen peroxide) was observed. Likewise during a 16-day time course following the administration of Aroclor 1254 or fireMaster BP-6 (each 500 mg/kg, i.p.), potent induction of glutathione transferase activities was seen without any significant increases in peroxidase activities. In fact during the second week of the time course, there were significant decreases in selenium-dependent glutathione peroxidase activity (toward hydrogen peroxide). The inverse regulation of these activities, i.e. the depression of selenium-dependent glutathione peroxidase activity following sustained induction of glutathione transferases, may have direct implications for the toxicity of the polyhalogenated aromatic hydrocarbons.
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PMID:Differential regulation of hepatic glutathione transferase and glutathione peroxidase activities in the rat. 405 12

Administration of HgCl2 at a dose of 5 mg/kg body weight/day for 15 days to male albino rats brought about a marked depression of the scavenging enzymes viz. glutathione peroxidase and glutathione S-transferase, in kidney. There was an adaptive rise in the levels of catalase and no increased lipid peroxidation was observed. The levels of both glutathione and glutathione reductase were decreased, whereas total thiol increased. In the intoxicated rats, Vitamin-E was effective in bringing back glutathione levels to normal. The adaptation in this group of animals is reflected by increased superoxide dismutase activities. Feeding of Vitamin-E alone could cause a depression of the scavenging enzymes like glutathione peroxidase and glutathione S-transferase along with a slight lowering of glutathione levels.
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PMID:Effects of mercuric chloride on several scavenging enzymes in rat kidney and influence of vitamin E supplementation. 649 53

Two experiments were conducted in aquaria to determine the minimum dietary selenium requirement of fingerling channel catfish (Ictalurus punctatus). Casein-gelatin diets containing graded levels of supplemental selenium (as Na2SeO3) ranging from 0 to 15 mg/kg were fed to catfish for 15 weeks in experiment 1 to broadly define their selenium requirement and toxicity levels. Although growth of catfish was affected by dietary selenium level, significant differences in weight gain were not easily discernible due to variability among the groups of fish. Weight gain data generally indicated that the basal diet containing 0.06 mg Se/kg diet caused growth depression, and a supplemental selenium level of 15 mg/kg also caused a reduced growth response, which indicated selenium toxicity. Selenium concentrations in edible muscle tissue increased almost linearly with increasing dietary selenium levels. Liver and plasma selenium-dependent glutathione peroxidase (Se GSH-Px) activities indicated the selenium requirement of fingerling channel catfish was between 0.1 and 0.5 mg Se/kg diet. In experiment 2, casein-gelatin diets containing incremental levels of supplemental selenium were fed to catfish for 14 weeks to more precisely determine their minimum dietary selenium requirement. Growth data and liver and plasma Se GSH-Px activities indicated that the minimum selenium requirement of fingerling channel catfish fed adequate vitamin E was 0.25 mg Se/kg dry diet. Based on these data, it appears that selenium supplementation of commercial catfish feeds is warranted.
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PMID:Dietary selenium requirement of fingerling channel catfish. 669 43

Male rats were fed vitamin E-adequate, Torula yeast-based diets for 30 days to assess the influence of dietary selenium (0, 0.1, or 1.0 ppm) on the toxicity of dietary cadmium (0, 30, or 60 ppm). At all selenium levels, increased cadmium intake depressed feed consumption, reduced feed efficiency and lowered body weight gain. In liver, concentrations of cadmium and zinc increased, and iron concentration decreased with increased intake of cadmium. Dietary selenium did not affect concentrations of cadmium, zinc, iron or copper in liver. Blood hemoglobin level declined and relative heart weight (g/100 g body wt) increased with increased intake of cadmium. Increased selenium intake partially alleviated the cadmium-induced depression in blood hemoglobin levels in rats fed diets that contained 30 ppm cadmium, and partially ameliorated the cadmium-induced increase in heart size in rats fed either 30 or 60 ppm cadmium. Hepatic and renal glutathione peroxidase (GSH-Px) activity increased with increased selenium intake. Increased cadmium intake did not affect renal GSH-Px activity. Hepatic GSH-Px activity in rats fed diets that contained 0.1 ppm selenium decreased with increased cadmium intake; however, hepatic GSH-Px activity was not affected by dietary cadmium in rats fed diets that contained 1.0 ppm selenium. Interactions between nontoxic levels of dietary selenium and relatively high levels of dietary cadmium apparently resulted in an antagonism of selenium metabolism by cadmium in some systems, and partial amelioration of cadmium toxicity by selenium in other systems
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PMID:Some metabolic interrelationships between toxic levels of cadmium and nontoxic levels of selenium fed to rats. 707 26

The primary defence mechanism of myocytes against peroxides and peroxide-derived peroxyl and alkoxyl radicals is the glutathione redox cycle. The purpose of the present study was to increase the turnover rate of this cycle by stimulating the glutathione peroxidase catalysed reaction (2GSH-->GSSG), the glutathione reductase catalysed reaction (GSSG-->2GSH), or both. Neonatal rat heart cell cultures were subjected to a standardized protocol of oxidative stress using 80 mumol.l-1 cumene hydroperoxide (CHPO) for 0-90 min. The consequences of this protocol were described in terms of cellular concentrations of GSH, GSSG, NADPH and ATP, formation of malondialdehyde (MDA), release of GSSG and of ATP catabolites, depression of contraction frequency, cellular calcium overload, and enzyme release. Trolox-C, an analogue of vitamin E, accelerated the glutathione peroxidase reaction leading to lowering of GSH concentration and the GSH/GSSG ratio, less MDA formation, diminished negative chronotropy, delayed calcium overload, and less enzyme release. Glucose was used to accelerate the glutathione reductase reaction by supplying NADPH, leading to higher GSH concentration and a higher GSH/GSSG ratio, less MDA formation, diminished negative chronotropy, unchanged development of calcium overload, and less enzyme release. As a full turn of the glutathione redox cycle involves both the peroxidase and the reductase reactions, the combination of Trolox-C and glucose was superior to either of the two alone: 90 min following addition of CHPO together with Trolox-C and glucose, the GSH concentration and the GSH/GSSG ratio were almost normal, MDA formation was extremely low, calcium overload was markedly delayed, and enzyme release hardly occurred at all. Cells remained beating in the observation period of 30 min. We conclude that the capacity of the glutathione redox cycle to withstand oxidative stress can be increased by stimulation of either the peroxidase reaction or the reductase reaction, and that optimal redox cycling is achieved by stimulation of both reactions.
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PMID:Protection of myocytes against free radical-induced damage by accelerated turnover of the glutathione redox cycle. 767 3

Classical glutathione peroxidase (GPX) is a useful Se-dependent parameter for determining Se status, but loss of GPX activity alone cannot explain the full effects of Se deficiency. The recent identification of type I thyroxine 5'-deiodinase as a Se-dependent enzyme provides a new potentially critical role for Se. To develop a model of impaired growth due to Se deficiency, second generation deficient weanling rats were fed a Se-deficient amino acid diet with adequate vitamin E and methionine. Initial growth rates of deficient males and females were 53 and 63%, respectively, of rats fed 0.1 micrograms Se/g diet. In short-term experiments with deficient males, liver Se and GPX activity were reduced 99%, liver glutathione-s-transferase activity was increased 114%, plasma thyroxine concentrations were increased 67%, plasma triiodothyronine was decreased 23% and the plasma triiodothyronine:thyroxine ratio was decreased 55%, compared with rats fed 0.2 micrograms Se/g diet. When deficient rats were injected on d 14 with 0, 1, 5 or 10 micrograms Se/100 g, rats grew 4.45, 7.62, 7.17 and 9.05 g/d, respectively, over the next 7 d. Injection with 10 micrograms Se/100 g restored plasma thyroxine and triiodothyronine concentrations 7 d later. Rats injected with 1 microgram Se/100 g rat had significantly altered plasma thyroxine and triiodothyronine concentrations 1 but not 7 d after injection. Infusion of Se-deficient rats with 438 ng triiodothyronine/d for 7 d restored plasma triiodothyronine concentrations but did not increase growth rate compared with rats infused with saline. This model produced a significant growth depression that was significantly reversed by as little as 1 microgram Se/100 g rat, but not by triiodothyronine infusion, suggesting that other Se-dependent roles in addition to 5'-deiodinase and GPX are necessary for adequate growth.
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PMID:Growth and plasma triiodothyronine concentrations are modified by selenium deficiency and repletion in second-generation selenium-deficient rats. 772 88


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