EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In vitro drug metabolism in the Hartley guinea pig was compared with that in two inbred guinea pig strains used as carriers for the line 10 hepatoma. We observed minor differences in enzyme specific activity among the three strains. Three weeks after intradermal inoculation of Strain 2 guinea pigs with line 10 hepatoma cells, cytochrome P450 levels and aminopyrine demethylase activity were significantly decreased. Seven to 10 days after inoculation with the ascites form of the tumor, the activities of aniline and biphenyl hydroxylases, p-aminobenzoic acid N-acetyltransferase, and dichloronitrobenzene glutathione S-aryltransferase, in addition to those of cytochrome P450 and aminopyrine N-demethylase, were probably also described.
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PMID:Effect of strain differences and tumor presence on microsomal drug metabolism in the guinea pig: brief communication. 20 Jul 61

1. Aflatoxin B1 (1.5 mg/kg body weight, i.p.) was administered to rats, mice, quail and chickens to examine the comparative effect on hepatic microsomal drug-metabolizing enzymes, cytosolic glutathione S-transferase and serum enzymes. 2. Administration of aflatoxin B1 to rats resulted in a significant decrease in microsomal cytochrome P-450, NADPH-cytochrome c reductase, activities of aminopyrine N-demethylase, aniline hydroxylase, cytosolic glutathione S-transferase and liver glutathione content. However, no significant changes in these parameters were seen in mice. 3. Quail showed a significant decrease in the content of cytochrome P-450 and the activities of aminopyrine N-demethylase, aniline hydroxylase and cytosolic glutathione S-transferase. A similar treatment did not affect these biotransformation enzymes in chickens. 4. The activities of serum enzymes, sorbitol dehydrogenase, alanine aminotransferase and aspartate aminotransferase were increased significantly in rats and quail. Mice exhibited a significant increase in the activities of sorbitol dehydrogenase and aspartate aminotransferase, while chickens showed a significant increase only in alanine aminotransferase.
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PMID:Comparative assessment of the effect of aflatoxin B1 on hepatic dysfunction in some mammalian and avian species. 135 19

Male Sprague-Dawley rats were treated with streptogramin derivatives (RP 7293, RP 54476, RP 57669, and RP 59500) or with the macrolide troleandomycin. Liver cytosol and microsomes were prepared, and the in vitro transformation of several model substrates studied. Furthermore, total and complexed microsomal cytochrome P-450 levels were compared. Hepatic cytochrome P-450 metabolite complexes were detected 4 days after troleandomycin treatment (500 mg/kg/day po), whereas such effects were not observed with po RP 7293 (500 mg/kg/day, 4 days) or with iv RP 54476 (12 mg/kg/day, 7 days), RP 57669 (6 mg/kg/day, 7 days), or RP 59500 (6 and 18 mg/kg/day, 7 days). The administration of troleandomycin resulted in statistically significant increases in liver weight (+20%), microsomal protein (+70%), total cytochrome P-450 (+187%), and cytosolic glutathione S-transferase activity (+32%). The activities of aniline hydroxylase, aminopyrine N-demethylase, and the high and low phases of 7-ethoxyresorufin O-deethylase were markedly decreased by 36% to 56%. In contrast, none of these hepatic parameters was changed significantly after administration of each streptogramin. These results suggest that streptogramins have not, in contrast to many commonly used macrolide antibiotics, had potent or specific effects on hepatic drug metabolizing enzymes in rats.
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PMID:Lack of effect of streptogramins on hepatic drug metabolism enzymes in the rat. 135 23

Microsomal glutathione S-transferase, UDP-glucuronyl transferase, and aniline hydroxylase activities were determined in liver, renal cortex, and small intestine of control, streptozotocin-diabetic, alloxan-diabetic, and untreated insulin-injected male Wistar rats. Renal microsomal glutathione S-transferase activity showed a direct linear relationship with insulin blood levels, in agreement with our previous report on cytosolic glutathione S-transferase. This result suggests a possible regulatory mechanism of insulin that needs to be further examined. The hepatic microsomal UDP-glucuronyl transferase was only decreased in streptozotocin-diabetic rats and was not restored by insulin treatment. Intestinal UDP-glucuronyl transferase exhibited an opposite response in streptozotocin-treated animals that was not normalized by the administration of insulin. Hepatic aniline hydroxylase showed the same behaviour as intestinal UDP-glucuronyl transferase. These results suggest that streptozotocin and (or) its metabolites have a direct effect on hepatic and intestinal UDP-glucuronyl transferase activity and on hepatic aniline hydroxylase activity. On the other hand, insulin regulation of enzyme activity varies from one organ to another.
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PMID:Differential effects of blood insulin levels on microsomal enzyme activities from hepatic and extrahepatic tissues of male rats. 142 17

The effects of nickel (Ni) on hepatic monooxygenase activities (aniline 4-hydroxylase, AH; ethylmorphine N-demethylase, EMND; aminopyrine N-demethylase, AMND), cytochrome P-450, cytochrome b5, microsomal haem and reduced glutathione (GSH) levels, and glutathione S-transferase (GST) activities toward several substrates (1, chloro-2-4-dinitrobenzene, CDNB; 1,2 dichloro-4-nitrobenzene, DCNB; ethacrynic acid, EAA) in mice, rats and guinea-pigs were studied. Ni (59.50 mg NiCl2.6H2O/kg, subcutaneously) was administered to the animals 16 hr prior to sacrifice. Ni significantly inhibited AH, EMND, AMND activities, and decreased cytochrome P-450, cytochrome b5 (except in the livers of rats), and microsomal haem levels in the livers of all the animal species examined. However, the depressions were more profound in livers of mice than in those of the other two species. The hepatic GSH level was significantly inhibited in mice whereas no alteration was observed in rats. In guinea-pigs, the hepatic GSH level was significantly increased by Ni. The hepatic GST activity toward the substrate CDNB was significantly depressed in mice, unaltered in rats and significantly increased in guinea-pigs by Ni. The hepatic GST activity toward DCNB was significantly inhibited in mice whereas no significant alteration was observed in rats. In guinea-pigs, Ni caused significant increase in hepatic GST activity for DCNB. However, hepatic GST activity toward EAA was significantly inhibited in mice whereas significantly increased in rats and guinea-pigs. These results seem to indicate that i) there exists quantitative, but not qualitative, differences among the hepatic monooxygenases of rodents in response to Ni, mice being more sensitive than rats and guinea-pigs, ii) the influence of Ni on hepatic GSH level varies depending on the animal species and iii) the hepatic GSTs of rodents are differentially regulated by Ni.
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PMID:Responses of hepatic xenobiotic metabolizing enzymes of mouse, rat and guinea-pig to nickel. 148 May 52

Monensin administered ip to male rats at a dosage of 2.5 mg/kg/d for 3 consecutive days did not change the liver levels of glutathione, but depressed significantly the amount of cytochrome P-450 and the activities of aniline hydroxylase and a cytosolic CDNB-specific glutathione S-transferase. There was a marked decrease in the aminopyrine N-demethylase activity and a significant increase in the pentobarbital sleeping time in rats treated with monensin. In contrast, no change in these parameters was found 2 h after a single ip dose (7.5 mg/kg) of monensin. The results suggest that monensin-induced inhibition of the liver cytosolic glutathione S-transferase and microsomal monooxygenases is non-specific.
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PMID:Effect of monensin on liver glutathione, glutathione S-transferase and monooxygenases in rats. 160 92

The role of the quinone group in the antitumor activity of quinone alkylating agents, such as mitomycin C and 2,5-diaziridinyl-3,5-bis(carboethoxyamino)-1,4-benzoquinone, is still uncertain. The quinone group may contribute to antitumor activity by inducing DNA strand breaks through the formation of free radicals and/or by influencing the alkylating activity of the quinone alkylators. The cytotoxic activity and DNA damage produced by the model quinone alkylating agents, benzoquinone mustard and benzoquinone dimustard, were compared in L5178Y murine lymphoblasts sensitive and resistant to the model quinone antitumor agent, hydrolyzed benzoquinone mustard. The resistant cell lines, L5178Y/HBM2 and L5178Y/HBM10, have increased concentrations of glutathione and elevated catalase, superoxide dismutase, glutathione S-transferase, and DT-diaphorase activity. L5178Y/HBM2 and L5178Y/HBM10 cells were 7.4- and 8.5-fold less sensitive to benzoquinone mustard and 1.7- and 4.3-fold less sensitive to benzoquinone dimustard, respectively, compared with sensitive cells, but showed no resistance to the non-quinone alkylating agent, aniline mustard. The formation of DNA double strand breaks by benzoquinone mustard was reduced by 2- and 8-fold in L5178Y/HBM2 and L5178Y/HBM10 cells, respectively, while double strand break formation by benzoquinone dimustard was reduced only in the L5178Y/HBM10 cells. The number of DNA-DNA cross-links produced by benzoquinone mustard was 3- and 6-fold lower, and the number produced by benzoquinone dimustard was 35% and 2-fold lower in L5178Y/HBM2 and L5178Y/HBM10 cells, respectively, compared with L5178Y parental cells. In contrast, cross-linking by aniline mustard was unchanged in sensitive and resistant cells. Dicoumarol, an inhibitor of DT-diaphorase, increased the cytotoxic activity of both benzoquinone mustard and benzoquinone dimustard in L5178Y/HBM10 cells. This study provides evidence that elevated DT-diaphorase activity in the resistant cells contributes to resistance to benzoquinone mustard and benzoquinone dimustard, possibly by decreasing the formation of the semiquinone intermediates of these agents. The altered reduction of the quinone groups in the resistant cells may be responsible for the decreased DNA-DNA cross-linking and lowered induction of DNA strand breaks by the quinone alkylating agents. These findings demonstrate that the quinone group can modulate the activity of quinone alkylating agents. The study also suggests that the semiquinone intermediates of benzoquinone mustard and benzoquinone dimustard may be the active alkylating species of these two agents.
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PMID:Activity of quinone alkylating agents in quinone-resistant cells. 169 49

Intraperitoneal administration of 10 mg fenbendazole/kg bw daily for 5 d caused no significant alterations in the activities of hepatic microsomal drug-metabolizing enzymes viz aminopyrine N-demethylase, aniline hydroxylase and cytosolic glutathione S-transferase in rats, mice and chickens. Similarly no significant difference in the amount of microsomal cytochrome P-450 and NADPH-cytochrome c reductase was found between control and treated animals. In vitro incubation of fenbendazole with rat, mouse and chicken microsomes suggests that the drug neither binds to microsomal protein cytochrome P-450 nor inhibits the activities of aminopyrine N-demethylase and aniline hydroxylase. Similarly in vitro addition of fenbendazole to cytosolic glutathione S-transferase from the above species did not alter the activity of this enzyme. The results indicate that fenbendazole does not alter the activity of hepatic microsomal monooxygenase system significantly in rats, mice and chickens at a dosage level of 10 mg/kg body weight. In vitro studies also indicate that fenbendazole does not interact with the hepatic microsomal monooxygenase system, indicating it is not a substrate for cytochrome P-450-dependent monooxygenase system.
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PMID:Lack of in vitro and in vitro effects of fenbendazole on phase I and phase II biotransformation enzymes in rats, mice and chickens. 180 27

The effects of pyrethroid insecticides on hepatic microsomal enzymes were studied in rats. Animals were treated orally with cypermethrin (80 mg/kg), deltamethrin (15 mg/kg), and permethrin (100 mg/kg), as a solution in soyabean oil, for 1 to 20 days. The content of cytochromes P-450 and b5, activity of NADPH cytochrome P-450 reductase, glutathione S-transferase, aniline 4-hydroxylase, p-nitroanisole O-demethylase in microsomes, the activity of glutathione S-transferase, and the level of sulfhydryl groups in cytosol were determined. Also the relative liver weight was measured. Only few changes in the investigated parameters were ascertained. These changes have an irregular and transient character. On the whole, the action of pyrethroids on microsomal enzymes results in a slight induction.
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PMID:Effects of pyrethroid insecticides on hepatic microsomal enzymes in rats. 190 8

The drug-metabolizing enzymes of olfactory and respiratory epithelium of cattle were determined. The data of nasal tissues were compared to those of bovine liver. Both oxidative and nonoxidative enzyme activities were investigated. Many compounds including testosterone were used as substrates for the P450-dependent monooxygenase activities. The results demonstrated that the P450 content and all the activities assayed including reduced nicotinamide adenine dinucleotide phosphate (NADPH)-cytochrome P450 reductase were much higher in the olfactory than in the respiratory mucosa and for some activities (hexamethyl-phosphoramide and dimethylnitrosamine N-demethylase, aniline hydroxylase, and ethoxycoumarin O-deethylase) the values in the olfactory tissue were even markedly higher than those of liver. Also the activities of some nonoxidative enzymes such as glutathione S-transferase, uridine 5'-diphosphate (UDP)-glucuronyl-transferase, and epoxide hydrolase were higher in the olfactory than in the respiratory mucosa but lower than in liver. The results taken together suggest that the olfactory and respiratory epithelium of cattle, which contain in addition to a wide array of nonoxidative enzymes multiple forms of P450, can be useful and easily available tissues to study the biotransformation processes of odorants.
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PMID:Drug-metabolizing enzymes in liver, olfactory, and respiratory epithelium of cattle. 194 98

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