Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.2 (NQO1)
 6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activities of UDP-glucuronyl transferase, DT-diaphorase, epoxide hydrolase, aryl hydrocarbon hydroxylase, gamma-glutamyl transferase and NADPH-cytochrome c reductase were measured in the nuclear and microsomal fractions from normal rat liver and rat liver nodules. Nodules were produced by intermittent feeding of Wistar rats with a standard diet supplemented with 0.05% (w/w) 2-acetylaminofluorene. The nuclear and microsomal fractions were isolated by differential centrifugation. The activities of UDP-glucuronyl transferase, DT-diaphorase, epoxide hydrolase and gamma-glutamyl transferase were significantly increased in the nuclear and microsomal fractions obtained from nodules as compared with normal liver. Aryl hydrocarbon hydroxylase activity was decreased in the microsomal fraction from the pathological tissue but not in the nuclear fraction. NADPH-cytochrome c reductase activity was similar in nodular and normal liver tissue. The nuclear/microsomal ratio for phase I reactions in xenobiotic metabolism was increased over normal more than two fold. Thus the nuclear and microsomal systems for drug metabolism are both changed in liver nodules. The relative enhancement of nuclear activating reactions is remarkable in the light of the increased risk for malignant transformation exhibited by nodular cells.
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PMID:Profile of drug metabolizing enzymes in the nuclear and microsomal fractions from rat liver nodules and normal liver. 324 42

This study was performed in order to study the response of epoxide hydrolases in different subcellular compartments of mouse liver to treatment with various compounds. Male C57BL/6 mice were treated with 31 different compounds--including traditional inducers of xenobiotic-metabolizing systems, liver carcinogens, stilbene derivatives, endogenous compounds and various other drugs and xenobiotics. The effects on liver somatic index; protein contents in 'mitochondria', microsomes and cytosol prepared from the liver; epoxide hydrolase activity towards trans- or cis-stilbene oxide in these three fractions; microsomal cytochrome P-450 content; cytosolic and 'mitochondrial' glutathione transferase activity and cytosolic DT-diaphorase activity were then determined. Cytosolic epoxide hydrolase activity was induced by chlorinated paraffins, di(2-ethylhexyl)phthalate and clofibrate and depressed by alpha-naphthylisothiocyanate, 3-methylcholanthrene, benzil and quercitin. Radial immunodiffusion revealed similar changes in the amount of enzyme protein present, except for two cases, where the increase in amount was larger; and the enzyme seems to be inhibited by benzil. Microsomal epoxide hydrolase activity was induced by these same compounds and several others as well, including dibenzoylmethane, butylated hydroxyanisole and polychlorinated biphenyls. 'Mitochondrial' epoxide hydrolase activity towards trans-stilbene oxide was not affected by those compounds which induced the cytosolic enzyme, but increased about two-fold after treatment with 2-acetylaminofluorene, DL-ethionine, aflatoxin B1 and phenobarbital. There does not seem to be any co-regulation of different forms of epoxide hydrolase in mouse liver. In general small effects were observed on liver weight and protein contents in the different subcellular fractions. Polychlorinated biphenyls were the most potent of the 8 compounds which induced cytochrome P-450, while butylated hydroxyanisole induced cytosolic glutathione transferase activity to the highest extent. 'Mitochondrial' glutathione transferase activity was most induced by certain of the stilbene derivatives. The most potent inducers of DT-diaphorase activity were 3-methylcholanthrene, polychlorinated biphenyls and dinitrotoluene.
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PMID:Hepatic levels of cytosolic, microsomal and 'mitochondrial' epoxide hydrolases and other drug-metabolizing enzymes after treatment of mice with various xenobiotics and endogenous compounds. 362 71

The effects of dietary administration of equimolar doses (5 mmol/kg body wt per day) of trimethylene oxide, trimethylene sulfide, coumaran, benzofuran, indole, and indole-3-carbinol on the activities of microsomal epoxide hydrolase and several other xenobiotic metabolizing enzymes were measured in the liver of female CD-1 mouse. Every compound, with the exception of indole, caused a significant increase (P less than 0.01) of the styrene oxide epoxide hydrolase activity over controls in hepatic microsomes. These results indicate that the enzyme activity is elevated in vivo by several heterocyclic compounds with strained bond angles to a nucleophilic hetero-atom. In addition, the ability of sulfur-containing trimethylene sulfide and nitrogen-containing indole-3-carbinol to elevate the enzyme activity indicates that the heterocyclic oxygen atom is not an absolute requirement for this effect. Data from the other xenobiotic metabolizing enzymes indicate that trimethylene oxide and trimethylene sulfide enhance the epoxide hydrolase activity rather specifically, while not affecting the activities of the other enzymes measured. While the oxygen-containing coumaran and benzofuran both increased the NADH: quinone reductase activity in hepatic cytosol, the nitrogen-containing indole and indole-3-carbinol did not. This indicated a specific requirement for the oxygen atom in elevating the quinone reductase activity, which was not the case for the elevation of microsomal epoxide hydrolase activity.
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PMID:Enhancement of epoxide hydrolase activity in hepatic microsomes of mice given heterocyclic compounds. 376 53

A number of model systems have been developed to study the initiating and promoting phases of neoplastic development in rats liver. Four of these protocols use diethylnitrosamine (DEN) initiation, but employ different methods of promotion. The present studies were designed to evaluate these systems under standardized laboratory conditions to determine their relative ability to induce histochemically identifiable gamma-glutamyl transpeptidase positive (GGT+) foci. Studies were also performed to examine the effects of the four promoting regimens on liver-derived serum enzymes and hepatic drug metabolism. Under standardized laboratory conditions, including the use of a single rat strain, all four systems induced GGT+ foci following DEN initiation. Within the maximum time period evaluated (8 weeks) promotion with 2-acetylaminofluorene and partial hepatectomy resulted in the highest number of GGT+ foci/cm2. In addition, the hepatic mixed-function oxidase system was markedly affected by the promoting regimens. Cytochrome P-450 content was decreased (50% of control) by three of four systems. All four promotion regimens reduced benzphetamine-N-demethylase activity (20-50% of control). Ethoxycoumarin-O-deethylase activity (P-448 related) was not changed by the promotion regimens. Three of four regimens increased epoxide hydrolase activity (150-600% of control) and DT-diaphorase activity (150-200% of control). Combining DEN initiation and each of the four promotion protocols had little additional effect on hepatic drug metabolizing enzymes. It is concluded that the four systems evaluated are reproducible under standard conditions and that the promotion regimens employed cause striking alterations in hepatic microsomal drug metabolism that are largely independent of the presence or absence of focal GGT+ lesions.
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PMID:Comparison of hepatic carcinogen initiation-promotion systems. 612 70

Effects of feeding mice and rats with 2(3)-tert-butyl-4-hydroxyanisole (BHA) and 3,5-di-tert-butyl-4-hydroxytoluene (BHT), the two most commonly used food-additive phenolic antioxidants with known anticarcinogenic properties but with only minor differences in their chemical structures, have been compared to search for common effects between the two agents in two different rodent species and then applied toward better understanding of the mechanisms involved in their protective actions. In liver microsomes of treated mice, both BHA and BHT enhanced the relative activity of aniline ring hydroxylation but decreased the relative benzo(a)pyrene monooxidase activities. However, in rats, although aniline ring hydroxylation activity was decreased by both compounds, the decrease of benzo(a)pyrene monooxidase activity was observed only with BHT. Thus, common effects could not be recognized at the microsomal mixed-function oxidase level. Contrary to expectations based on chemical structures, BHT feeding elevated by epoxide hydrolase activity to an even greater extent than that produced by BHA, especially in rats. However, enzyme activities involved in the glucuronide conjugation system (uridine diphosphate:glucuronyl transferase, uridine diphosphate:glucose dehydrogenase, and quinone reductase) are all elevated by both antioxidants in both rodent species. With BHA treatment, the levels of acid-soluble thiols were increased in both rats and mice. However, with BHT, the level was increased only in mice but not in rats. Similar trends were produced for glucose-6-phosphate dehydrogenase activity, but glutathione reductase activity was increased even for BHT-treated rats. Additionally, the glutathione S-transferase activities were also increased by both antioxidant treatments and in both rodent species. Based on these results, the elevations of epoxide hydrolase activity along with the enhanced glucuronide conjugation and glutathione oxidation and reduction conjugation system enzyme activities were common to both compounds in both rodent species. This suggests their involvement in anticarcinogenic mechanisms. Increases of these detoxification enzyme activities appeared to be all designed to accelerate the elimination of administered antioxidants but, inadvertantly, conferring protective effects from xenobiotics such as carcinogens.
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PMID:Comparative effects of dietary administration of 2(3)-tert-butyl-4-hydroxyanisole and 3,5-di-tert-butyl-4-hydroxytoluene on several hepatic enzyme activities in mice and rats. 680 43

A number of drug-metabolizing systems were measured in hyperplastic noduli from the livers of rats receiving 2-acetyl-aminofluorene in their diet and compared with corresponding activities in control liver. The level of microsomal cytochrome P-450 is reduced 54% in the nodular tissue, while 5 activities catalyzed by the cytochrome P-450 system (i.e., aminopyrine N-demethylase, benzo[a]pyrene monooxygenase, ethoxyresorufin O-deethylase, ethoxycoumarin O-deethylase, and 2-acetylaminofluorene N-hydroxylase) are all present at levels corresponding to 5-44% of the control levels. The pattern of 2-acetylaminofluorene metabolites formed by nodule microsomes also differs from the pattern observed with control microsomes. Microsomal epoxide hydrolase is increased 415%, cytosolic glutathione S-transferases 203-576%, microsomal UDP-glucuronyltransferase activity about 200%, and cytosolic DT-diaphorase 1210% in the nodules. The same changes are seen in nodules of different sizes and in individual nodules of the same size. Finally, of all of these changes only the full increase in epoxide hydrolase can be seen after 1-3 weeks of exposure to 2-acetylaminofluorene.
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PMID:Characterization of drug-metabolizing systems in hyperplastic nodules from the livers of rats receiving 2-acetylaminofluorene in their diet. 685 Sep 90

2(3)-tert-Butyl-4-hydroxyanisole (BHA) is one of several widely used antioxidant food additives that protect against chemical carcinogenesis and toxicity. The present report concerns the enhancement of dicoumarol-inhibited NAD(P)H:quinone reductase [NAD(P)H dehydrogenase (quinone); NAD(P)H:(quinone acceptor) oxidoreductase, EC 1.6.99.2] activity in mouse tissues in response to dietary administration of BHA. Cytosolic quinone reductase specific activity was increased significantly in 10 of 15 tissues examined from BHA-fed mice. The greatest proportionate increase, to 10 times control levels, was observed in liver. BHA also increased the quinone reductase activities of kidney, lung, and the mucosa of the upper small intestine severalfold. The increases of quinone reductase activities in liver and digestive tissues in response to BHA were comparable to the increases previously observed in glutathione S-transferase (EC 2.5.1.18) and epoxide hydratase (EC 3.3.2.3) activities. Quinones are among the toxic products of oxidative metabolism of aromatic hydrocarbons. NAD(P)H:quinone reductase exhibits broad specificity for structurally diverse hydrophobic quinones and may facilitate the microsomal metabolism of quinones to readily excreted conjugates. The protective effects of BHA appear to be due, at least in part, to the ability of this antioxidant to increase the activities in rodent tissues of several enzymes involved in the nonoxidative metabolism of a wide variety of xenobiotics.
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PMID:Increase of NAD(P)H:quinone reductase by dietary antioxidants: possible role in protection against carcinogenesis and toxicity. 693 53

Hepatocarcinogens cause marked biochemical changes in the liver at short intervals after administration. The studies described were designed to investigate the effects of hepatocarcinogens and hepatotoxicants on the microsomal mixed function oxidase system. DT-diaphorase and epoxide hydrolase. Following 5 day p.o. treatment of male F-344 rats with aflatoxin B1 (AFB), 2-acetylaminofluorene (AAF), technical grade dinitrotoluene (DNT), or 2,4-diaminotoluene, microsomal cytochrome P450 dependent enzyme activities were depressed while epoxide hydrolase activity was markedly elevated (3-8 times control). Diethylnitrosamine (DEN) given at 5 mg/kg/day and DL-ethionine at 1000 mg/kg/day failed to increase epoxide hydrolase. 3-Methylcholanthrene, methylnitrosourea, carbon tetrachloride, bromobenzene and vinyl chloride all failed to increase epoxide hydrolase activity. Using 3 daily i.p. injections, dose-response relationships for increases in epoxide hydrolase were generated for the hepatocarcinogens. With the exception of p-dimethylaminoazobenzene (DAB) and DEN, the carcinogens studied produced log-linear dose response curves for increase in epoxide hydrolase. Both DEN and DAB caused increases in epoxide hydrolase but classical sigmoidal dose-response curves were not obtained. The order of potency for increasing epoxide hydrolase was AFB greater than AAF greater than 2,6-dinitrotoluene greater than 3'-methyl-N,N-dimethyl-4-aminoazobenzene greater than DNT greater than 2, 4-dinitrotoluene. The slopes of the linear portions of the log dose-response curves were not statistically different from the slope of the dose-response curve obtained with AAF suggesting that structurally diverse carcinogens elicit increases in epoxide hydrolase by a common mechanism.
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PMID:Effect of hepatocarcinogens on epoxide hydrolase and other xenobiotic metabolizing enzymes. 711 69

Alpha-naphthylisothiocyanate (ANIT) is a biliary toxin with anticarcinogenic properties. The studies described were designed to investigate the effects of continuous ANIT feeding on liver function. Male F-344 rats were fed ANIT at 0.01%, 0.022%, 0.047%, and 0.1% of the diet for 2, 4, and 6 weeks. Microscopic evaluation of liver sections revealed time- and dose- dependent bile duct proliferation, bile duct cell hypertrophy, and focal hepatocytic necrosis. Liver derived serum enzyme activity and serum bilirubin concentrations were increased in a fashion which correlated closely with the histological observations. A dose dependent decrease in hepatic cytochrome P-450 content, ethoxycoumarin-O-deethylase activity, and benzphetamine-N-demethylase activity was observed after 2 and 4 weeks of feeding ANIT. However, these enzyme activities returned to control values at 6 weeks in all except the 0.1% group. ANIT increased microsomal epoxide hydrolase and cytosolic DT-diaphorase activity (200-6005 of control). The enhancement was dose related and peaked at 2 and 4 weeks for epoxide hydrolase and DT-diaphorase, respectively. Both epoxide hydrolase and DT-diaphorase activity remained elevated at 6 weeks. These results suggest that ANIT mediated anticarcinogenesis, previously hypothesized to be the result of reduced mixed function oxidase activity, also may be accounted for by enhanced epoxide hydrolase and DT-diaphorase activity.
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PMID:alpha-Naphthylisothiocyanate induced alterations in hepatic drug metabolizing enzymes and liver morphology: implications concerning anticarcinogenesis. 727 28

Exposure of rodents or their cells in culture to low doses of a wide variety of chemical agents, many of which are electrophiles, evokes a coordinated metabolic response that protects these systems against the toxicity (including mutagenicity and carcinogenicity) of higher doses of the same or other electrophiles. This response involves enhanced transcription of Phase 2 enzymes: glutathione transferases, NAD(P)H:quinone reductase, UDP-glucuronsyltransferases, and epoxide hydrolase, as well as the elevation of intracellular levels of reduced glutathione. We suggest that this cellular adaptation, which occurs in the liver and many peripheral tissues, be designated as the "Electrophile Counterattack" response. Seven families of highly diverse chemical agents that elicit this response include: oxidatively labile diphenols and quinones; Michael reaction acceptors (olefins conjugated to electron-withdrawing groups); isothiocyanates; organic hydroperoxides; vicinal dimercaptans; trivalent arsenicals; heavy metals (HgCl2, CdCl2) as well as mercury derivatives with high affinities for sulfhydryl groups; and 1,2-dithiole-3-thiones. An analysis of the molecular mechanisms of these enzyme inductions was carried out by transient expression in hepatoma cells of a plasmid containing a 41-bp enhancer element derived from the 5'-upstream region of the mouse glutathione transferase Ya gene, and the promoter region of this gene, linked to a human growth hormone reporter gene. The concentrations of 28 inducers (belonging to the seven chemical classes) required to double growth hormone production in this system spanned a range of four orders of magnitude and were closely and linearly correlated with the concentrations of the same compounds required to double the specific activity of quinone reductase in murine hepatoma cells. We therefore conclude that the regulation of these Phase 2 enzymes (and possibly also that of glutathione synthesis) by all of these inducers is mediated by the same enhancer element that contains AP-1-like sites. Similar enhancer sequences are present in the rat glutathione transferase Ya gene, and in the upstream regulatory regions of the quinone reductase genes of rat and human liver.
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PMID:The electrophile counterattack response: protection against neoplasia and toxicity. 835 13


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