EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The epoxide hydrase assay developed by Oesch et al. (Biochim. Biophys. Acta, 227: 685-691, 1971) using [3H]styrene oxide as substrate was modified in three ways for use with rat lung microsomes: the substrate was purified before use, the volume of the incubation mixture was scaled down 4-fold, and the incubation time was extended to 45 min (activity was found to be linear for at least 60 min). These modifications increased the sensitivity of the assay procedure 75- to 150-fold. The procedure was found to be linear with lung microsomal protein up to at least 1.8 mg protein per incubation mixture. This modified assay for epoxide hydrase was used to characterize the enzyme in rat lung. Its apparent vmax is 0.5 nmole of styrene glycol formed per min per mg microsomal protein, and its apparent Km was 0.11 to 0.25 mM. The pH optimum is around 9.7. Upon subcellular fractionation of lung tissue, expoxide hydrase distributes in the same manner as a marker for the endoplasmic reticulum (reduced nicotinamide adenine dinucleotide phosphate-cytochrome c reductase) and in a different way from markers for the nuclei, mitochondria, concentric lamellar organelles, lysosomes, Golgi membranes, plasma membrane and soluble cytoplasm. The specific activity of epoxide hydrase in rough and smooth lung microsomes is aobut the same. Treatment i.p. of rats with methylcholanthrene (3 injections of 20 mg/kg), phenobarbital (5 daily injections of 80 mg/kg) or styrene oxide (5 daily injections of 40 mg/kg), did not induce lung microsomal epoxide hydrase activity. 1,1,1-Trichloropropene 2,3-oxide was shown to be an uncompetitive inhibitor, and cyclohexene oxide was a noncompetitive inhibitor of this enzyme. Ethanol and butanol activate the epoxide hydrase of lung microsomes at low concentrations and inhibit it at higher concentrations.
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PMID:Characterization of rat lung epoxide (styrene oxide) hydrase with a modified radioactive assay of improved sensitivity. 40 99

Previous results have shown that microsomes from ethanol-treated rats generate reactive oxygen intermediates at elevated rates as compared to pair-fed controls in the presence of NADH and especially NADPH. Since isolated rat liver nuclei can produce oxygen radicals with NADH or NADPH as reductants, the effect of chronic ethanol treatment on nuclear generation of reactive oxygen intermediates was determined. Ethanol treatment increased the activity of NADH (+27%) and NADPH (+50%) cytochrome c reductase in the nucleus. Nuclear lipid peroxidation, H2O2 production, and generation of hydroxyl radical-like species were increased by about 25 to 40% after ethanol treatment. In contrast to microsomes, where NADPH-dependent rates were higher than the NADH-dependent rates, in nuclei, NADH was as effective as, or even more reactive than NADPH in promoting production of various oxidizing species. The increases in oxygen radical production by nuclei after ethanol treatment were less than the increases found previously for microsomes. Moreover, rates of oxygen radical production by nuclei were less than 10% of the corresponding rates found with microsomes, suggesting that it is unlikely that the small increases found with nuclei after ethanol treatment contribute significantly towards the development of a state of oxidative stress in the liver.
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PMID:The effect of chronic ethanol consumption on NADH- and NADPH-dependent generation of reactive oxygen intermediates by isolated rat liver nuclei. 144 58

The effect of the glucose analogue 5-thio-D-glucose (5TG) on the yeast Saccharomyces cerevisiae was studied. Derepression of mitochondrial respiratory chain cytochromes, alcohol dehydrogenase (isoenzyme II), NADH dehydrogenase and maltase was inhibited by 0.5-2 mM-5TG. Growth rate was only slightly affected. Ethanol was efficiently produced with 2 mM-5TG in medium initially containing 0.25% glucose. Mutants resistant to the growth inhibitory effects of 5TG on glycerol medium showed resistance to the catabolite repressing effects of glucose. Other mutants, known to be catabolite repression resistant, showed resistance to 5TG. The analogue seems to inhibit derepression of glucose repressible enzymes with greater potency than glucose itself.
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PMID:Catabolite repressive effects of 5-thio-D-glucose on Saccharomyces cerevisiae. 330 35

The effect of ethanol on maternal and neonatal hepatic heme and drug metabolizing systems was determined. Ethanol (16%, w/v) was administered orally as drinking solution to pregnant or lactating rats at different pre- and post-natal stages. The dams and pups were sacrificed on days 7, 14 and 21 after parturition, respectively. Ethanol administration to lactating rats from just after birth caused an appreciable decrease in the maternal and neonatal body and liver weights. In addition, the activities of nicotinamide adenine dinucleotide phosphate-cytochrome c reductase, nicotinamide adenine dinucleotide-cytochrome b5 reductase and heme oxygenase were significantly enhanced in the livers of neonates whose mothers were exposed to the ethanol during only first week of lactation, but those activities were not altered in the maternal livers. However, no remarkable alterations were observed in the contents of cytochrome P-450 and b5, and the activities of aminopyrine demethylase, aniline hydroxylase and delta-aminolevulinic acid synthetase in the livers of neonates from mothers who had received ethanol during lactation period or last week of gestation, although the activities of aminopyrine demethylase and aniline hydroxylase were enhanced significantly in lactating dams by ethanol consumption for 14 d after parturition.
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PMID:Influences of maternal ethanol intake on maternal and perinatal hepatic heme and drug metabolizing enzymes in rats. 667 77

The effect of intragastric ethanol, 7.8 g/kg, on the microsomal enzyme activities NADPH cytochrome c reductase, aminopyrine N-demethylase and aniline hydroxylase, were investigated in two sizes (150 g and 260 g) of mature male rats having free access to food and water for the 23 hours following ethanol administration. Controls received intragastric water and were given free access to food and water (fed controls) or only water (fasted controls). The ethanol group had a significantly lower food intake than the fed control group, and food intake in the large rats was more decreased by ethanol than that of the small rats, corresponding to slower recovery from intoxication. Ethanol and fasting increased aniline hydroxylation and decreased acetone enhancement of aniline hydroxylation to the same degree, whereas only fasting caused a significant decrease in aminopyrine N-demethylation. Some of the effects of acute ethanol intoxication on hepatic microsomal enzyme activities appear to be mediated via decreased food intake.
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PMID:Acute ethanol intoxication decreases subsequent food intake and changes hepatic microsomal enzyme activities similarly to fasting. 668 9

The effect of clofibrate and ethanol in the rat was studied on the following aspects of lipid composition and metabolism: liver delta 5, delta 6 and delta 9 fatty acid desaturases, fatty acid synthetase and fatty acid desaturase microsomal electron transport chain activity and serum cholesterol, triacylglycerols and high (HDL), low (LDL) and very low density lipoprotein (VLDL) levels. Clofibrate administered for 9 days (0.3% W/W) did not modify the relative composition of liver phospholipids and cholesterol, but did diminish triacylglycerol levels increased by ethanol. This effect could be explained by the possible beta-adrenergic blocking properties of clofibrate or by an increased activity of peroxisomal beta-oxidation. Clofibrate also promoted a decrease in serum cholesterol and triacylglycerol levels, delta 6 desaturase activity and a suppression of the electron transport chain as measured by NADH cytochrome b5 reductase and NADH cytochrome c reductase. The drug increased delta 9 desaturase activity and fatty acid synthetase, while no effect could be found in delta 5 desaturase activity. The hypocholesterolenic effect of clofibrate can not be explained through the delta 6 desaturase inhibition, or the fatty acid synthetase enhancement. Ethanol increased the HDL and VLDL and lowered LDL serum concentrations, while clofibrate reversed these results. Considering that clofibrate could have antiatherosclerotic effect in the rat, it is difficult to explain it through these changes in lipoprotein levels, since according to Miller and Miller low HDL levels are predictive of coronary heart disease.
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PMID:Effect of clofibrate on fatty acid desaturation of rats treated with ethanol. 682 Dec 69

Male mice selected for genetic differences in ethanol-induced sleep time, thereby designated long sleep (LS) an short sleep (SS), were treated with the Lieber-DeCarli liquid diet for 25 days. This chronic ethanol treatment produced an increase in liver/body weight and kidney/body weight in SS mice only. In addition, chronic ethanol treatment produced significant increases in both LS and SS treated mice in in vivo ethanol elimination, hepatic cytochromes P-450 and B5, NADPH cytochrome c reductase and hepatic and renal 7-ethoxycoumarin O-de-ethylase activity. Genotypic differences were observed in the magnitude of response of microsomal ethanol oxidation per mg of microsomal protein (SS greater than LS). Further, control LS and SS mice possessed substantially different activity of renal 7-ethoxycoumarin O-de-ethylase. Both lines exhibited similar induced renal 7-ethoxycoumarin O-de-ethylase activity after chronic ethanol ingestion. Ethanol binding spectra produced when ethanol was added to hepatic microsomes were examined using double reciprocal plots. Chronic ethanol ingestion produced genotypically related (LS greater than SS) increases in the absorbance change maximum per mg of microsomal protein. No significant changes in the spectral dissociation constant or absorbance change maximum per nM cytochrome P-450 were observed following ethanol treatment.
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PMID:The effects of chronic ethanol ingestion on ethanol binding to hepatic cytochrome P-450 and on certain hepatic and renal parameters in the "long sleep" and "short sleep" mouse. 701 97

Copper Fenton systems (Cu(II)/H2O2 and Cu(II)/Asc) inactivated the lipoamide reductase and enhanced the diaphorase activity of pig-heart lipoamide dehydrogenase (LADH). Cupric ions alone were less effective. As a result of Cu(II)/H2O2 treatment, the number of titrated thiols in LADH decreased from 6 to 1 per subunit. NADH and ADP (not NAD+ or ATP) enhanced LADH inactivation by Cu(II). NADH also enhanced the effect of Cu(II)/H2O2. Dihydrolipoamide, dihydrolipoic acid, Captopril, acetylcysteine, EDTA, DETAPAC, histidine, bathocuproine, GSSG and trypanothione prevented LADH inactivation. 100 microM GSH, DL-dithiothreitol, N-(2-mercaptopropionylglicine) and penicillamine protected LADH against Cu(II)/Asc and Cu(II), whereas 1.0 mm GSH and DL-dithiothreitol also protected LADH against Cu(II)/H2O2. Allopurinol provided partial protection against Cu(II)/H2O2. Ethanol, mannitol, Na benzoate and superoxide dismutase failed to prevent LADH inactivation by Cu(II)/H2O2 or Cu(II). Catalase (native or denaturated) and bovine serum albumin protected LADH but that protection should be due to Cu binding. LADH inhibited deoxyribose oxidation and benzoate hydroxylation by Cu(II)/H2O2. It is concluded that site-specifically generated HO, radicals were responsible for LADH inactivation by Cu(II) Fenton systems. The latter effect is discussed in the context of ischemia-reoxygenation myocardial injury.
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PMID:Inactivation of heart dihydrolipoamide dehydrogenase by copper Fenton systems. Effect of thiol compounds and metal chelators. 775

The effect of chronic and in vitro ethanol exposure on brain oxygen radical formation and lipid peroxidation was analyzed. Ethanol induces a dose-dependent increase in lipid peroxidation in brain homogenates. The peroxidative effects of alcohol seem to be related to both cytochrome P450 and the ethanol-inducible form of cytochrome P450 (CYP2E1), because preincubation with metyrapone (an inhibitor of cytochrome P450) or with an antibody against CYP2E1 abolished the ethanol-increased lipid peroxidation. Using the formation of dichlorofluorescein, we also demonstrated that both in vitro and chronic alcohol exposure significantly enhanced the formation of oxygen radical species in synaptosomes. Chronic alcohol treatment also leads to an induction of cytochrome P450 (230%), NADPH cytochrome c reductase (180%), NADPH oxidation (184%), and CYP2E1 in brain microsomes. In addition, this treatment produced a decrease in the GSH/GSSG ratio in brain and significantly enhanced the levels of superoxide dismutase and catalase activities. This mechanism could be involved in the toxic effects of ethanol on brain and membrane alterations occurring after chronic ethanol intake.
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PMID:Ethanol-induced oxygen radical formation and lipid peroxidation in rat brain: effect of chronic alcohol consumption. 793 42

Fe(II)- and Co(II)-Fenton systems (FS) inactivated the lipoamide reductase activity but not the diaphorase activity of pig-heart lipoamide dehydrogenase (LADH). The Co(II) system was the more effective as LADH inhibitor. Phosphate ions enhanced the Fe(II)-FS activity. EDTA, DETAPAC, DL-histidine, DL-cysteine, glutathione, DL-dithiothreitol, DL-lipoamide, DL-thioctic acid, bathophenthroline, trypanothione and ATP, but not ADP or AMP, prevented LADH inactivation. Reduced disulfide compounds were more effective protectors than the parent compounds. Mg ions counteracted ATP protective action. Glutathione and DL-dithiothreitol partially restored the lipoamide dehydrogenase activity of the Fe(II)-FS-inhibited LADH. DL-histidine exerted a similar action on the Co(II)-FS-inhibited enzyme. Ethanol, mannitol and benzoate did not prevent LADH inactivation by the assayed Fenton systems and, accordingly, it is postulated that site-specific generated HO. radicals were responsible for LADH inactivation. With the Co(II)-FS, oxygen reactive species other than HO., might contribute to LADH inactivation.
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PMID:Inactivation of lipoamide dehydrogenase by cobalt(II) and iron(II) Fenton systems: effect of metal chelators, thiol compounds and adenine nucleotides. 831 11

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