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 effect of selenium administered acutely or chronically on the hepatic microsomal drug-metabolizing system has been investigated in mice. After 72 h following acute administration of selenium (7.5 mg/kg, i.p.), there was a significant inhibition of the activities of aminopyrine (AM) N-demethylase and ethylmorphine (EM) N-demethylase, and cytochrome P-450 levels but no change in the activities of aniline (AN) hydroxylase, 7-ethoxycoumarin (EC) O-deethylase, reduced nicotinamide adenine dinucleotide phosphate (NADPH)-cytochrome c reductase and reduced nicotinamide adenine dinucleotide (NADH)-ferricyanide reductase, and cytochrome b5 content. Chronic administration of selenium in the drinking water (1 or 2 ppm selenium) for 12 weeks, resulted in no alteration in any of the parameters measured. However, significant decreases in activities of AM N-demethylase and AN hydroxylase, and cytochrome P-450 levels were detected in animals given higher doses of selenium (4 or 8 ppm selenium). Following the in vitro additions of selenium to hepatic microsomes obtained from untreated mice, selenium inhibited the AM N-demethylase, AN hydroxylase and 7-EC O-deethylase in a concentration-dependent manner, but no alteration in NADPH-cytochrome c reductase and cytochrome P-450 levels was observed. These results indicate that selenium is a specific from inhibitor of hepatic monooxygenase.
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PMID:Inhibition of hepatic mixed-function oxidase enzymes in mice by acute and chronic treatment with selenium. 147 37

The ability of selenium (Se) to act as a redox catalyst is an important factor in understanding the biological function of selenoproteins in addition to that of GSH peroxidase. Selenocystine at micromolar levels exhibited pseudothiotransferase activity by enhancing the reduction of 5,5-dithiobis-(2-nitrobenzoic acid) (DTNB) by thiols. In contrast, selenite inhibited the reduction of DTNB by thiols. Selenite was more catalytic than selenocystine in the reduction of cytochrome c by GSH, whereas GSH peroxidase was a weak catalyst. Tissues from Se-deficient and Se-supplemented rats were assayed for activities of GSH-thiotransferase, NADPH cytochrome c reductase, formaldehyde dehydrogenase, and a hypothesized GSH cytochrome c reductase. GSH-thiotransferase activity was significantly increased in the liver of Se-deficient rats. No appreciable activity of this enzyme was found in the kidney of rats from either dietary group. No enzymatic activity for cytochrome c reduction by GSH was detected in cytosols, mitochondria, or microsomes from liver and kidney of Se-deficient or Se-supplemented rats. Formaldehyde dehydrogenase was significantly higher in liver cytosols from Se-supplemented rats than from Se-deficient rats. The higher activity was not attributed to Se-containing proteins, but to an unknown small molecular-weight factor. This study did not support the hypothesis that physiological levels of Se may be involved in sulfhydryl-disulfide exchange reactions in vivo, or that selenium may enhance cytochrome c reduction by GSH in vivo.
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PMID:Selenium as a sulfhydryl redox catalyst and survey of potential selenium-dependent enzymes. 282 Nov 93

Experiments were undertaken to examine the ability of selenium to protect against acetaminophen-induced hepatotoxicity and to examine possible mechanisms for this protective effect. Pretreatment of male, Sprague-Dawley rats with sodium selenite (12.5 mumol Se/kg, ip) 24 hr prior to acetaminophen administration produced a significant protection against the hepatotoxic effects of acetaminophen as assessed by a decrease in the plasma appearance of alanine aminotransferase and aspartate aminotransferase activities following acetaminophen. This was accompanied by an increase in the hepatic glutathione levels in selenium-treated animals and an inhibition in the decrease in hepatic glutathione content observed in animals receiving hepatotoxic doses of acetaminophen. Selenium pretreatment decreased the in vivo covalent binding of acetaminophen metabolites to hepatic protein, but did not alter hepatic microsomal cytochrome P-450 content or NADPH cytochrome c reductase activity, suggesting that selenium does not significantly alter the metabolism of acetaminophen to reactive electrophilic metabolites by the cytochrome P-450-dependent mixed-function oxidase enzyme system. Selenium produced an increase in the activity of gamma-glutamylcysteine synthetase which may account for the increased glutathione availability in selenium-treated animals and increased the activities of glutathione S-transferase and glucose-6-phosphate dehydrogenase. Examination of the urinary metabolite profile in selenium-treated animals revealed that the urinary excretion of acetaminophen and its metabolites was significantly increased over a 72-hr period. The increase occurred in the AAP-glucuronide metabolite while parent AAP and AAP-sulfate were actually decreased in selenium-treated rats. No change in recovery was observed in the AAP-glutathione or AAP-mercapturate urinary metabolites. While the glutathione conjugating system is enhanced by selenium treatment, amelioration of acetaminophen toxicity is most likely the result of enhanced glucuronidation which effectively diverts the amount of acetaminophen to be converted by the cytochrome P-450 system to the toxic metabolite.
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PMID:Protective effects of selenium on acetaminophen-induced hepatotoxicity in the rat. 290 Nov 47

The results presented in this paper reveal the existence of three distinct menadione (2-methyl-1,4-naphthoquinone) reductases in mitochondria: NAD(P)H:(quinone-acceptor) oxidoreductase (D,T-diaphorase), NADPH:(quinone-acceptor) oxidoreductase, and NADH:(quinone-acceptor) oxidoreductase. All three enzymes reduce menadione in a two-electron step directly to the hydroquinone form. NADH-ubiquinone oxidoreductase (NADH dehydrogenase) and NAD(P)H azoreductase do not participate significantly in menadione reduction. In mitochondrial extracts, the menadione-induced NAD(P)H oxidation occurs beyond stoichiometric reduction of the quinone and is accompanied by O2 consumption. Benzoquinone is reduced more rapidly than menadione but does not undergo redox cycling. In intact mitochondria, menadione triggers oxidation of intramitochondrial pyridine nucleotides, cyanide-insensitive O2 consumption, and a transient decrease of delta psi. In the presence of intramitochondrial Ca2+, the menadione-induced oxidation of pyridine nucleotides is accompanied by their hydrolysis, and Ca2+ is released from mitochondria. The menadione-induced Ca2+ release leaves mitochondria intact, provided excessive Ca2+ cycling is prevented. In both selenium-deficient and selenium-adequate mitochondria, menadione is equally effective in inducing oxidation of pyridine nucleotides and Ca2+ release. Thus, menadione-induced Ca2+ release is mediated predominantly by enzymatic two-electron reduction of menadione, and not by H2O2 generated by menadione-dependent redox cycling. Our findings argue against D,T-diaphorase being a control device that prevents quinone-dependent oxygen toxicity in mitochondria.
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PMID:Menadione- (2-methyl-1,4-naphthoquinone-) dependent enzymatic redox cycling and calcium release by mitochondria. 309 56

The purpose of the present investigation was to determine the effects of dietary selenium deficiency or excess on 7,12-dimethylbenz(a)anthracene (DMBA)-induced mammary neoplasia in rats and to delineate whether selenium-mediated modification of mammary carcinogenesis was associated with changes in carcinogen:DNA adduct formation and activities of liver microsomal enzymes that are involved in xenobiotic metabolism. Female Sprague-Dawley rats were divided into three groups from weaning and were maintained on one of three synthetic diets designated as follows: selenium deficient (less than 0.02 ppm); selenium adequate (0.2 ppm); or selenium excess (2.5 ppm). For the DMBA binding and DNA adduct studies, rats were given a dose of [3H]DMBA p.o. after 1 month on their respective diets. Results from the liver and the mammary gland indicated that neither selenium deficiency nor excess had any significant effect on the binding levels, which were calculated on the basis of total radioactivity isolated with the purified DNA. Furthermore, it was found that dietary selenium intake did not seem to affect quantitatively or qualitatively the formation of DMBA:DNA adducts in the liver. Similarly, in a parallel group of rats that did not receive DMBA, the activities of aniline hydroxylase, aminopyrine N-demethylase, and cytochrome c reductase were not significantly altered by dietary selenium levels. Concurrent with the above experiments, the effect of dietary selenium intake on carcinogenesis was also monitored. Results of this experiment indicated that selenium deficiency enhanced mammary carcinogenesis only when this nutritional condition was maintained in the postinitiation phase. Likewise, an excess of selenium intake inhibited neoplastic development only when this regimen was continued after DMBA administration. In either case, deficient or excess selenium at the time of carcinogenic insult failed to produce a significant effect on subsequent tumor yield, if selenium intake was returned to normal during the proliferative phase of tumor growth. Based on the results of these studies, it is suggested that selenium-mediated modification of mammary tumorigenesis is not exerted via alterations in carcinogenic initiation (i.e., metabolism or DNA adduct formation).
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PMID:Effects of selenium on 7,12-dimethylbenz(a)anthracene-induced mammary carcinogenesis and DNA adduct formation. 391 75

The effect of sodium selenite administered acutely or repeatedly on the biochemical components of the hepatic microsomal monooxygenase enzyme system was examined in male rats. 72 h following acute administration of selenium (2.4 mg Se/kg, i.p.), there was a significant decrease in ethylmorphine-N-demethylase activity and cytochrome P-450 levels but no change in aniline hydroxylase or NADPH cytochrome c reductase activity. Following repeated administration of selenite in the drinking water (1, 2, or 4 ppm Se) for 30 days, there was no alteration in any of the parameters measured. Following the in vitro additions of selenite to microsomes obtained from untreated rats, ethylmorphine-N-demethylase and aniline hydroxylase activities were inhibited at selenium concentrations of 10(-4) M or greater, but the inhibition achieved was less than 50%. No alterations in cytochrome P-450 levels were observed. These results indicate that selenium is a rather weak, indirect, and substrate-specific inhibitor of the hepatic monooxygenase enzyme system.
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PMID:Effect of acute and repeated selenium treatment on hepatic monooxygenase enzyme activity in male rats. 641 10

To investigate the biochemical mechanism of the previously reported protective effect of dietary selenium against aflatoxin toxicity, the hepatic metabolism of aflatoxin B1 in turkey poults was examined at various dietary selenium concentrations. Diets were supplemented with 0.2, 2.0 or 4.0 ppm selenium (as sodium selenite) and 500 ng aflatoxin B1/g diet in an 18-day trial. Free and conjugated aflatoxin and metabolites were quantified using high-performance liquid chromatography. The proportion of liver aflatoxins in conjugated forms increased and the ratio of free aflatoxin B1/M1 decreased with increasing dietary selenium concentrations. These in vivo results provide evidence of selenium-induced enhancement of aflatoxin detoxification processes. In a similar experiment using 2.0 ppm selenium and 750 ng aflatoxin B1/g diet, the concentration of hepatic reduced glutathione, cytochrome P-450 and the activity of enzymes involved in the metabolism of aflatoxin B1 and glutathione were determined. Although the selenium supplement increased glutathione peroxidase activity, dietary selenium had no effect on reduced glutathione or cytochrome P-450 concentrations or on the activities of glutathione transferase E, glucuronyl transferase and cytochrome c reductase. These data indicate that the protective action of selenium is not mediated by an increase in glutathione availability for aflatoxin conjugation or by effects on the activities of these enzymes as measured in vitro.
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PMID:Effect of dietary selenium on the metabolism of aflatoxin B1 in turkeys. 643 59

Male weanling fischer-344 rats were fed a selenium (Se)-vitamin E (VE) deficient Torula yeast basal diet or that diet supplemented with a graded levels of SE (0.2-6.0 ppm as Na2SeO3) or VE (100 iu/kg as all-rac-2-tocopheryl acetate), or both, for 4 or 6 weeks. Se deficiency and excess (6.0 ppm) markedly depressed in vivo covalent binding of aflatoxin (AFB1) to macromolecules in livers of rats killed 2 hours after an i.p. dose of 1 mg/kg tritiated AFB1. VE supplementation had no effect. Prior phenobarbital (PB) treatment generally decreased adducts without changing diet-related trends. Some hepatic enzyme capabilities were also measured. Cytochrome b5 content and cytochrome c reductase activity were unaffected by diet. VE increased cytochrome P-450 content, ethylmorphine N-demethylase and benz(alpha)pyrene hydroxylase activities; all these were unaffected by Se levels. Se deficiency and excess (but not VE deficiency) increased glucuronyl transferase. PB induction affected all diet groups and was more in agreement with MFO activity than transferase. Adduct formation was more consistently related to transferase activity than to MFO activities. The contrasting effects of SE and VE on AFB1 adducts in rats and chicks are discussed.
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PMID:Effects of dietary selenium and vitamin E on hepatic mixed-function oxidase activities and in vivo covalent binding of aflatoxin B1 in rats. 679 26

Structural modifications to the photoinactive benzophenoxazine Nile blue A have led to three novel derivatives which include 5-ethylamino-9-diethylaminobenzo[a]phenoxazinium (EtNBA), 5-ethylamino-9-diethylaminobenzo[a]phenothiazinium (EtNBS), and 5-ethylamino-9-diethylaminobenzo[a]phenoselenazinium (EtNBSe) chlorides. The incorporation of sulfur and selenium into the benzophenoxazine moiety results in lipophilic, red-absorbing (650-660 nm) chromophores which possess significantly increased singlet oxygen yields (0.025 and 0.65, respectively, compared to 0.005 for EtNBA). This study examines the photosensitizing efficacies and pharmacokinetics in vitro in the EMT-6 murine mammary sarcoma cell line as well as the physicochemical, photochemical, and redox properties of these new analogues. Comparisons with Photofrin II, the only photosensitizer available clinically, were made in an attempt to high-light their different pharmacological characteristics. The photodynamic activity of the benzophenoxazine dyes correlates with their ability to generate the phototoxin singlet oxygen and increases in the following order: EtNBA < EtNBS << EtNBSe. At an extracellular dye concentration of 0.5 microM, the light dose required to kill approximately 50% of the cells was 2.0 and < 0.5 J/cm2 for the sulfur and selenium dyes, respectively. The light dose required to kill approximately 50% of the cells for both EtNBA and Photofrin II could not be determined because of their weak phototoxic effect under these conditions. At a light dose of 3.3 J/cm2, EtNBSe is approximately 1000 times more phototoxic than Photofrin II. All three benzophenoxazine derivatives are characterized by a similar uptake/efflux pattern in vitro consisting of a rapid and extensive cellular accumulation followed by a slow efflux rate. Contrary to their rapid uptake, 50% of the accumulated EtNBS and EtNBSe is retained intracellularly after a 6-h period in dye-free medium. Video-enhanced fluorescence microscopy corroborates the rapid uptake measurements as well as indicating the intracellular localization of the dyes in both living and thermally inactivated cells. Low extracellular dye concentrations (0.05 microM) result in a punctate fluorescence pattern in the perinuclear region, while higher dye concentrations (> 0.1 microM) lead to additional fluorescence in the cytoplasm, cytomembranes, and other organelles but apparently not the nucleus. Absorption spectrometry revealed that living cells rapidly reduce the dyes to their colorless leuko form (photoinactive) if oxygen is not readily available in the environment. It is shown that the cellular reduction is an enzymatic process and that an oxygen-free and cell-free medium containing both the coenzyme NADH and the hydride transfer enzyme diaphorase is capable of reducing the dyes to the colorless leuko form.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Phototoxicity, redox behavior, and pharmacokinetics of benzophenoxazine analogues in EMT-6 murine sarcoma cells. 849 21

This study attempts to determine whether selenomethionine treatment can improve the survival time of mice inoculated with Dalton's lymphoma (DL) and thereby to identify phase/phases of the neoplastic processes at which selenium exerts its maximal action as an anticancer agent. Accordingly, a maximum of 30.76 and 143% increase in survival was brought about by treatment of selenomethionine prior to lymphoma transplantation, in comparison to mice receiving selenomethione supplementation concurrently with inoculation of DL, and those tumor-bearing mice receiving no supplementation, respectively. Beneficiality of selenomethionine has also been studied by monitoring the continuous changes brought about by this compound on hepatic total cytochrome P-450 and b5 content, NADPH cytochrome c reductase, UDP glucuronyl transferase and glutathione S-transferase (GST) activities. These are important biotransformation enzymes and are altered significantly in neoplasia. The drastic increase in all the markers studied, excepting GST, was effectively counteracted by selenomethionine treatment (more before than concurrently), which sufficiently delayed and controlled the increase in those xenobiotic indices. The 112 and 78.78% induction in GST activity brought about by prior and concurrent treatment of selenomethionine, respectively, confirms the fact that inducers of GSTs are often antitumorigenic.
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PMID:Selenomethionine in the inhibition of a transplantable murine lymphoma: reflection on hepatic drug metabolizing enzymes. 865 12


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