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)

Study of oxidative and non-oxidative xenobiotic-metabolizing enzymes was undertaken in microsomal and cytosolic fractions of two human livers, 10 individual and several pooled samples of human respiratory nasal mucosa obtained by surgical operation of male and female patients affected by hypertrophy of the inferior turbinates. The purity of nasal microsomes was checked by electron microscopy and marker enzyme assay. The pooled samples of respiratory nasal epithelium contained, relative to liver, a low amount of cytochrome P450 (about 25 pmol/mg protein) and associated biotransformation activities, and a low level of other components of the mixed-function oxidase system such as cytochrome b5, NADH and NADPH-cytochrome c reductase however the NADH-cytochrome b5 reductase activity was comparable to that of liver. The P450-dependent monooxygenase activities such as ethoxycoumarin O-deethylase, ethoxyresorufin O-deethylase and the dimethylnitrosamine N-demethylase were found in nearly all nasal microsomal specimens. The aniline hydroxylase and the aminopyrine or hexamethylphosphoramide N-demethylases were detected only in the pooled nasal samples. With regard to the non-oxidative enzymes, the activities of glutathione S-transferase, DT-diaphorase, epoxide hydrolase, UDP-glucuronyl-transferase, carbonyl reductase, benzaldehyde and propionaldehyde dehydrogenases, were investigated both in the individual and pooled nasal tissues and livers. These activities were similar in nasal and liver tissue, except for UDP-glucuronyltransferase which was not detected in nasal mucosa. The present findings demonstrate that the respiratory section of human nose contains a wide array of oxidative and non-oxidative enzymes, which could play a crucial role in the bioactivation or detoxication in situ of inhaled xenobiotics.
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PMID:Xenobiotic-metabolizing enzymes in human respiratory nasal mucosa. 198 28

1. Glucosinolate-rich diet (RM) in growing rats increased liver (a), kidneys (b), and thyroid (c) weights and depleted feed intake (d), growth curve (e) and T4 and T3 plasma levels (f). 2. Oral administration of phenobarbital enhanced the toxic effect of RM on (b), (d) and (e) and did not modify the toxic effect of RM on (a), (c) and (f). 3. RM had a depleting effect on hepatic microsomal P-450 specific activity. 4. RM had an enhancing effect on hepatic glutathione S-transferase and UDP-glucuronyltransferase specific activities. 5. These results indicate that some glucosinolate derivatives released by gut microflora metabolism are further metabolized by the hepatic detoxification system, and that they could play the role of co-toxic or co-detoxic molecules.
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PMID:Glucosinolates toxicity in growing rats: interactions with the hepatic detoxification system. 211 Mar 94

The effects of pretreatment with symmetrically dihalogenated biphenyls (DXBs, X-F, Cl(C), Br(B) and I) on rat liver drug metabolism enzymes were investigated. 4,4'-DFB, -DCB, and -DBB as well as 2,2'-DFB appeared to be inducers of microsomal cytochrome P-450-linked monoxygenases (N-demethylases of aminopyrine and ethylmorphine). However, no structure-induction relationship was found. 4,4'-DXBs also induced a cytochrome P-448-linked mono-oxygenase (ethoxyresorufin O-deethylase), and their order of induction potential seemed to parallel the increase of the size of the halogen substituent. Therefore, 4,4'-DXB's may be categorized as mixed-type inducers, the cytochrome P-450 component being the more pronounced. Data on the cytochrome P-448 induction by dihalogenated biphenyls with only para substituents may be considered as a refinement of the previously described structure-activity relationship in this respect. All of the DXBs except 3,3'-DCB and 4,4'-DIB, enhanced, like phenobarbital, the activity of UDP-glucuronyltransferase toward 4-hydroxybiphenyl. Only 4,4'-DFB was able to induce the activity of glutathione S-transferase toward 1,2-epoxy-3-(p-nitrophenoxy)propane. Studies after 4,4'-DBB-treatment revealed, like phenobarbital, a preferential induction of ethylmorphine N-demethylase on rough endoplasmic reticulum-derived microsomes, whereas UDP-glucuronyltransferase activity toward 4-hydroxybiphenyl was induced to a larger extent on smooth endoplasmic reticulum microsomes, suggesting a dissimilar enzyme induction in microsomal subfractions.
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PMID:Induction of drug metabolism enzymes by dihalogenated biphenyls. 211 36

The effect of a low-protein diet (6% protein, LPD) in vivo on the in vitro activities of cytosolic and microsomal glutathione S-transferase (GST-c, GST-m) and microsomal UDP-glucuronyltransferase (UDP-GT) was studied in small intestine and liver of weanling male Wistar rats. LPD interrupted the normal curve of growth of the animals, which returned to control values after refeeding with a normal diet (27% protein, ND). Hepatic and intestinal GST-c increased in control rats in parallel with the growth curve. The microsomal enzymes did not show growth variations, except for intestinal UDP-GT activity which began to increase from the second day of ND. After 7 days of LPD there was an increase in GST-c (liver 35%, P less than 0.05; intestine 152%, P less than 0.01) and of UDP-GT (liver 58%, intestine 178%, P less than 0.05) which returned to control values after 2 days of refeeding with ND. GST-m did not show any variations in liver or intestine. The increase in GST-c, but not in GST-m, with nutritional stress suggests preferential induction of cytosolic enzymes in those enzymatic systems which are located in both positions. The increase in such enzymes after protein malnutrition could indicate an adaptive response by detoxification mechanisms, enhancing intestinal over hepatic capacity, perhaps because the intestine is the primary route of access for orally ingested xenobiotics.
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PMID:Intestinal phase II detoxification systems: effect of low-protein diet in weanling rats. 212 82

The effect of prolonged exposure to buthionine sulfoximine (BSO) on rat hepatic Phase I and Phase II drug-metabolizing enzymes has been examined. Exposure to 30 mM BSO in drinking water for 7 days induced hepatic microsomal UDP-glucuronosyltransferase activity (detergent-activated) toward p-nitrophenol (250%), 1-naphthol (210%), morphine (130%) and testosterone (140%), but not estrone. Glucuronosyltransferase activities were also induced after exposure for as short as 3 and as long as 13 days. When rats were returned to unsupplemented drinking water for 1 day prior to sacrifice following 6 days on 30 mM BSO, comparable induction to that seen after 7 consecutive days on the BSO solution was observed despite liver glutathione concentration having rebounded to 127% of control. Daily ingestion of BSO was similar (1 mmol/rat/day) for all periods of 30 mM BSO-drinking water exposure, with a body weight-adjusted dose range of 3.2-6.3 mmol/kg/day. An analogous inductive response caused by drinking 30 mM BSO for 3 days was elicited for p-nitrophenol and morphine glucuronidation by 6 mmol/kg doses of BSO given as single daily intraperitoneal or intragastric injections for 3 days. Intraperitoneal, intragastric and all BSO-drinking water exposures also significantly induced (130-195%) cytosolic glutathione S-transferase activity toward 1-chloro-2,4-dinitrobenzene. Significant increases in UDP-glucuronosyltransferase and glutathione S-transferase activities were also observed following 3 days of exposure to BSO in the drinking water at a concentration as low as 5 mM. Cytosolic p-nitrophenol sulfotransferase activity, with one minor exception, was not enhanced by any BSO treatment regimen. Alterations in transferase activities were not accompanied by any major changes in either overall cytochrome P-450 concentration or oxidative reactions selective for two isozymes. Thus, in addition to its well-documented glutathione-depleting property, BSO also selectively induces several Phase II drug-metabolizing enzymes, an effect to be considered in studies employing extended BSO treatment.
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PMID:Induction of rat UDP-glucuronosyltransferase and glutathione S-transferase activities by L-buthionine-S,R-sulfoximine without induction of cytochrome P-450. 212 59

The purpose of this investigation was to determine age-related changes of some hepatic drug-metabolizing activities in Lacaune ewes in the foetal, neonatal (1 and 4 weeks), growing (7 months), pregnant (11 months) and adult (6 years) stages. Although microsomal cytochrome P-450 was not detected in 3-month-old foetuses, it increased regularly from 1-week- to 11-month-old animals. Among mixed-function oxidases, the development of aminopyrine and ethylmorphine N-demethylases, benzo(alpha)pyrene hydroxylase and ethoxycoumarin O-deethylase were correlated to that of total cytochrome P-450. Due to their presence in foetal liver or their more rapid evolution, cytochrome b5, NADPH cytochrome c reductase, aniline hydroxylase, benzphetamine N-demethylase and erythromycin N-demethylase did not parallel the ontogenesis of cytochrome P-450. Hepatic transferases showed different developmental patterns from mono-oxygenases, so UDP glucuronyltransferase was detected in the foetus, reached maximum activity in all young ages up to the pregnant stage and subsequently fell in adult ewes. Concerning glutathione S-transferase accepting 1-chloro-2,4-dinitrobenzene as substrate, similar values were obtained in the foetus and all young animals, whereas five- to tenfold higher values were obtained in both pregnant and adult female sheep. N-acetyltransferase using sulphamethazine did not significantly change from foetuses to adults but there were large differences in the capacity of hepatic acetylation between animals belonging to the same group.
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PMID:The development of drug-metabolizing enzymes in female sheep livers. 228 26

There have been conflicting observations regarding the effects of ketoconazole on hepatic metabolism. The objectives of these studies were to determine whether ketoconazole was an enzyme inducer or inhibitor in the mouse and then to establish the time frame of these ketoconazole-induced enzyme changes. Ketoconazole was administered (150 mg/kg p.o. X 4 days) to male Swiss Webster mice. Biochemical observations over a period of 6 days following treatment indicated that ketoconazole had a temporal biphasic effect on the liver. Although liver weight and microsomal protein were elevated, all other parameters monitored were lower at 2 h following ketoconazole treatment. At 24 h after the last dose of ketoconazole, hepatic biochemical parameters (liver wt., % liver wt./body wt., microsomal protein, and cytochrome P-450) were statistically elevated, while enzyme activities (benzphetamine N-demethylation, 6 beta- and 7 alpha-hydroxylation of testosterone, formation of androstenedione and UDP-glucuronyltransferase) were inhibited. At 72 h the ketoconazole-induced changes in the hepatic biochemical parameters were comparable to those observed at 24 h, and enzymatic parameters generally appeared to be induced by ketoconazole, with the exception of benzphetamine N-demethylase and UDP-glucuronyltransferase, which exhibited lower enzyme activities. Ethoxyresorufin O-deethylase, 7 alpha-hydroxylation of testosterone and glutathione S-transferase, on the other hand, were unaltered by ketoconazole treatment. The opposing effects of ketoconazole on benzphetamine N-demethylase and ethylmorphine N-demethylase at 72 h were further examined. Enzyme kinetics studies indicated that ketoconazole did not effect the Michaelis constants (Km) of the two substrates, but the maximum velocity (Vmax) of the reactions was altered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatic effects of ketoconazole in the male Swiss Webster mouse: temporal changes in drug metabolic parameters. 239 Jul 40

In humans, data on biotransformation enzymes in the intestine, and to a lesser extent in the liver, are rather scarce. Much knowledge about these enzymes is, therefore, obtained from animal studies. We were able to examine both small intestinal and hepatic tissue from a kidney donor and performed a systematic study on enzyme contents and distribution in these organs. In the small intestine the longitudinal distribution of cytochrome P450, glutathione S-transferase, and bilirubin uridine 5'-diphosphate (UDP)-glucuronosyltransferase declined from duodenum to ileum. Activity of 4-nitrophenol- and 4-methylumbelliferone UDP-glucuronosyltransferase increased or remained constant, respectively. Total and specific activity of most enzymes was much higher in the liver, except for bilirubin UDP-glucuronosyltransferase and glutathione S-transferase, where the small intestine contained 28.6% and 7.4% of total hepatic activity, respectively. The relatively great amount of bilirubin UDP-glucuronosyltransferase activity in the small intestinal mucosa of this patient, who probably suffered from Gilbert's syndrome, could indicate that under pathological conditions intestinal metabolism may contribute significantly to the clearance of bilirubin. With a monoclonal antibody, UDP-glucuronosyltransferase isoforms were immunodetectable in microsomes. In the liver, two bands, one of 57 kilodaltons and one in between 53 and 54 kilodaltons, were seen. In the proximal small intestine two isoforms (53 and 54 kilodaltons) were detected. However, in the distal small intestine where bilirubin UDP-glucuronosyltransferase activity was low, only one isoform (54 kilodaltons) was seen. This may indicate that bilirubin UDP-glucuronosyltransferase activity is correlated with the 53-kilodalton isoform. The presence of multiple UDP-glucuronosyltransferase isoforms in humans, similar to that described before in the rat, is further established by this study.
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PMID:Glutathione S-transferase, cytochrome P450, and uridine 5'-diphosphate-glucuronosyltransferase in human small intestine and liver. 249 79

Feeding of vitamin A-deficient diet to male weanling rats for 10 weeks caused significant reduction in the hepatic cytochrome P-450, cytochrome b5, aminopyrine N-demethylase and arylhydrocarbon hydroxylase activities. Contrary to this, the levels of these Phase I enzymes were found to be significantly elevated in all the 3 portions (proximal, middle and distal) of the intestine in deficient animals as compared to corresponding pair-fed controls. Of the Phase II enzymes studied, UDP-glucuronyltransferase showed a significant decrease whereas glutathione S-transferase showed a significant increase in vitamin A-deficient rat liver and small intestine. The study suggests that vitamin A deficiency causes an imbalance between the Phase I and phase II drug metabolizing enzyme systems which may decrease the capacity of the organism to withstand the neoplastic effects of chemical carcinogens in vitamin A deficiency.
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PMID:Effect of vitamin A deficiency on hepatic and intestinal drug metabolizing enzymes in rats. 250 73

Previous studies indicate that dietary administration of phenolic antioxidants, 2(3)-tert-butyl-4-hydroxyanisole (BHA) and 3,5-di-tert-butyl-4-hydroxytoluene, inhibits the carcinogenic effect of a number of chemical carcinogens including aflatoxin B1 (AFB1). Induction of hepatic enzymes, such as glutathione S-transferase, UDP-glucuronyltransferase, and epoxide hydrolase, has been shown to be responsible for the reduction of AFB1 cytotoxic and carcinogenic effects. The effect of BHA on AFB1 activation was examined in vitro utilizing isolated rat hepatocytes and liver microsomes. In hepatocytes, the total AFB1 content and bound form of AFB1 were 3.4 and 1.4 pmol/10(6) cells, respectively. In the cell-free microsomal activating system, 2.2 pmol were activated per mg of microsomal protein during 60 min of incubation. BHA (0.1-0.5 mM) inhibited AFB1 activation and binding in both systems in a dose-dependent manner; in hepatocytes, 90% inhibition was observed at 0.5 mM. Analyzing various AFB1 adducts, BHA (0.25 mM)-treated hepatocytes contained a significantly reduced amount of AFB1 macromolecular adducts. The antioxidant neither stimulated nor inhibited the cytosolic glutathione S-transferase and microsomal UDP-glucuronyltransferase activities. Analysis of various hydroxylated (aflatoxins M1 and Q1 (AFM1 and AFQ1] and demethylated (aflatoxin P1 (AFP1] metabolites of AFB1 in both the conjugated and unconjugated form indicated that there was a 30-50% reduction of unconjugated AFP1, AFQ1, and AFM1, whereas AFB1 was increased 3-fold. There was no significant change of conjugated metabolites. The effect of BHA on AFB1 activation in hepatocytes was compared with that of other cytochrome P-450 inhibitors; the ED50 values of SKF 525A, BHA, and metyrapone were 9 microM, 40 microM, and 280 microM, respectively. In the cell-free microsomal system, biotransformation of AFB1 to AFP1, AFM1, and AFQ1 was also inhibited. Kinetic analysis of p-nitroanisole O-demethylase activity of rat liver microsomes demonstrated that BHA inhibited noncompetitively with an apparent Ki of 90 microM. In the absence of enzyme induction, the phenolic antioxidant, BHA, blocks the oxidative biotransformation of AFB1 in isolated hepatocytes.
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PMID:2(3)-tert-butyl-4-hydroxyanisole inhibits oxidative metabolism of aflatoxin B1 in isolated rat hepatocytes. 250 94


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