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)

The cytochrome P450, epoxide hydrolase, and glutathione S-transferase enzyme families play an important part in the metabolism of many carcinogens and anti-cancer drugs. The expression of two forms of cytochrome P450 (P450 1A and P450 3A), epoxide hydrolase and of the alpha, mu, and pi forms of glutathione S-transferase in normal colon, colonic adenomas, and adenocarcinoma of the colon were studied by immunohistochemistry. This allowed the precise cellular site and distribution of each enzyme to be determined. Expression of all the xenobiotic metabolising enzymes studied was almost wholly confined to the epithelial cells, whether in normal, adenoma or carcinoma samples, except that cytochrome P450 3A was also identified in mast cells and glutathione S-transferase pi was also present in chronic inflammatory cells. Cytochrome P450 was present in only a small proportion of normal colon samples, whereas epoxide hydrolase and glutathione S-transferase mu were identified in about half, and glutathione S-transferase alpha and pi in most normal samples. By contrast all the enzyme forms studied were expressed in virtually all adenomas and in over half the carcinomas. These results suggest that cytochrome P450 1A and cytochrome P450 3A are more specific markers of colonic neoplasia than epoxide hydrolase or glutathione S-transferases alpha, mu, and pi.
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PMID:Xenobiotic metabolising enzyme expression in colonic neoplasia. 840 61

Aggregating fetal liver cell cultures were tested for their ability to metabolize xenobiotics using ethoxycoumarin-O-deethylase (ECOD), as marker of phase I metabolism, and glutathione S-transferase (GST), as marker for phase II reactions. Significant basal activities, stable over 14 days in culture were measured for both ECOD and GST activities. The prototype cytochrome P450 inducers, 3-methylcholanthrene (3-MC) and phenobarbital (PB), increased ECOD and GST activities reaching an optimum 7 days after culturing, followed by a decline in activity. This decline was partially prevented by 1% dimethyl sulfoxide (DMSO) added chronically to the culture medium. DMSO was also found to induce ECOD activity and to a lesser extent GST activity. Furthermore, it potentiated in a dose-dependent manner the induction of ECOD by PB. The food-borne carcinogen 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline (MeIQx) is metabolically transformed through a number of pathways in vivo. It was therefore used to examine the metabolic capacity in fetal and adult liver cell aggregates. Metabolism of MeIQx was mainly through N2-conjugation, resulting in formation of the N2-glucuronide and sulfamate conjugates for non-induced fetal liver cells. These metabolites were also found in large amounts in non-induced adult liver cells. Low levels of cytochrome P450-mediated ring-hydroxylated metabolites were detected in both non-induced fetal and adult liver cells. After induction with arochlor (PCB) or 3-MC, the major pathway was ring-hydroxylation (cytochrome P450 dependent), followed by conjugation to beta-glucuronic or sulfuric acid. The presence of the glucuronide conjugate of N-hydroxy-MeIQx, a mutagenic metabolite, suggested an induction of P450 CYP1A2. The metabolism of MeIQx by liver cell aggregates is very similar to that observed in vivo and suggests that aggregating liver cell cultures are a useful model for in vitro metabolic studies in toxicology.
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PMID:Phase I and phase II xenobiotic reactions and metabolism of the food-borne carcinogen 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline in aggregating liver cell cultures. 846 Oct 38

The induction by the central stimulant picrotoxin of hepatic drug-metabolizing enzymes was studied in rats. The hepatic content of P450 and the activity of benzphetamine N-demethylation increased gradually after administration of picrotoxin dissolved in drinking water (2 mg/mL), to three-times higher levels than the initial values at the third day of treatment. The increase in benzphetamine N-demethylase activity by picrotoxin was somewhat higher than the increase produced by phenobarbital. Supporting these results, immunoblot analysis showed that CYP2B1 and 2B2 proteins in the liver microsomes were increased by picrotoxin Picrotoxinin and picrotin, which are components of the picrotoxin molecule, had the same ability to induce the hepatic activity of benzphetamine N-demethylation. The liver microsomal activities of testosterone 16 alpha- and 16 beta-hydroxylation were enhanced significantly after treatment with picrotoxinin and picrotin. However, benzo[a]pyrene 3-hydroxylation, aniline 4-hydroxylation, and testosterone hydroxylations at the 2 alpha- and 7 alpha-positions were not increased by picrotoxinin and picrotin treatment. In addition to monooxygenase, significant induction of glutathione S-transferase activity for 1-chloro-2,4-dinitrobenzene and UDP-glucuronyltransferase activity for 4-hydroxybiphenyl and 4-nitrophenol was also observed by pretreatment of picrotoxin. These results clearly indicate that picrotoxin is an inducer of phenobarbital-inducible liver enzymes.
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PMID:Picrotoxin as a potent inducer of rat hepatic cytochrome P450, CYP2B1 and CYP2B2. 849 37

The effects of aging on the activities of drug-metabolizing enzymes and antioxidant enzymes were studied in male and female White-Footed mice (Peromyscus leucopus) at ages of 6, 8, 12, 18, 24, 30, 36, and 48 months. Male mice had significantly higher liver microsomal cytochrome P450 (P450) content and NADPH:cytochrome P450 oxidoreductase (P450 reductase) activities than females at all age groups. Many of the P450-dependent enzyme activities were also generally higher in males. Female mice showed age-dependent decreases in P450 content and the activities of P450 reductase, pentoxyresorufin O-dealkylase (PROD) and N-nitrosodimethylamine demethylase (NDMAd) in the liver from 6 to 24 months; while, the males showed an age-dependent decrease only for the liver PROD activity from 6 to 24 months. The old males (30-month old) appeared to have significantly higher activities for 6 beta-, 2 beta-, 16 alpha- and 16 beta-testosterone and androstenedione formation than the middle-aged (6- to 18-month old) and very old (48-month old) males. Females showed age-dependent decreases for the formation of 6 beta-, 2 beta-, 16 alpha- and 16 beta-testosterone in liver microsomes from 6 to 24 months. Lung microsomes from 6- and 8-month old males had much higher activities of ethoxyresorufin O-deethylase (EROD) and PROD than older males. The total NNK alpha-hydroxylation activities changed in the same pattern as lung microsomal EROD and PROD activities in both male and female mice. The activities of several phase II drug-metabolizing enzymes: glutathione S-transferase (GST), DT-diaphorase, sulfotransferase and UDP-glucuronosyl-transferase (UDPGT) did not show any significant age-dependent changes, with the possible exception that the GST activity in males decreased from 18 to 36 months. Males had about 3-fold higher UDPGT activities than females among all age groups. Glutathione peroxidase activities were drastically lower in old and very old males, and 6 to 24 months old males had significantly higher activities than the corresponding females. In females, superoxide dismutase activities decreased linearly to extremely low levels as mice aged. Catalase activities showed a tendency for increase with age in males. In conclusion, some P450-dependent activities and antioxidant enzymes, but not phase II drug-metabolizing enzymes, showed age-dependent changes; and most of these changes occur from 6 to 24 months. The demographic attributes of the White-Footed mouse are well-suited for physiological and biochemical studies of aging and can complement the more standard laboratory mouse model with its typical two year life span.
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PMID:Age- and gender-related variations in the activities of drug-metabolizing and antioxidant enzymes in the white-footed mouse (Peromyscus leucopus). 849 97

The stability of curcumin, as well as the interactions between curcumin and cytochrome P450s (P450s) and glutathione S-transferases (GSTs) in rat liver, were studied. Curcumin is relatively unstable in phosphate buffer at pH 7.4. The stability of curcumin was strongly improved by lowering the pH or by adding glutathione (GSH), N-acetyl L-cysteine (NAC), ascorbic acid, rat liver microsomes, or rat liver cytosol. Curcumin was found to be a potent inhibitor of rat liver P450 1A1/1A2 measured as ethoxyresorufin deethylation (EROD) activity in beta-naphthoflavone (beta NF)-induced microsomes, a less potent inhibitor of P450 2B1/2B2, measured as pentoxyresorufin depentylation (PROD) activity in phenobarbital (PB)-induced microsomes and a weak inhibitor of P450 2E1, measured as p-nitrophenol (PNP) hydroxylation activity in pyrazole-induced microsomes. Ki values were 0.14 and 76.02 microM for the EROD- and PROD-activities, respectively, and 30 microM of curcumin inhibited only 9% of PNP-hydroxylation activity. In ethoxyresorufin deethylation (EROD) and pentoxyresorufin depentylation (PROD) experiments, curcumin showed a competitive type of inhibition. Curcumin was also a potent inhibitor of glutathione S-transferase (GST) activity in cytosol from liver of rats treated with phenobarbital (PB), beta-naphthoflavone (beta NF) and pyrazole (Pyr), when measured towards 1-chloro-2,4-dinitrobenzene (CDNB) as substrate. In liver cytosol from rats treated with phenobarbital (PB), curcumin inhibited GST activity in a mixed-type manner with a Ki of 5.75 microM and Ki of 12.5 microM. In liver cytosol from rats treated with pyrazole (Pyr) or beta-naphthoflavone (beta NF), curcumin demonstrated a competitive type of inhibition with Ki values of 1.79 microM and 2.29 microM, respectively. It is concluded that these strong inhibitory properties of curcumin towards P450s and GSTs, in addition to its well-known antioxidant activity, may help explain the previously observed anticarcinogenic, antimutagenic, and cytoprotective effects of this important natural compound and food constituent.
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PMID:Effects of curcumin on cytochrome P450 and glutathione S-transferase activities in rat liver. 853 66

Free radical production and lipid peroxidation are potentially important mediators in testicular physiology and toxicology. The cytochrome P450 enzymes of the steroidogenic pathway are known to produce free radicals. The present study was conducted to elucidate in vivo the gonadotropin regulation of free radical-mediated lipid peroxidation and the antioxidative defense system in the rat testis. GnRH antagonist (Org 30276; 1 mg/kg BW) and testosterone [40-mm SILASTIC brand (Dow-Corning) capsules] treatments were used to suppress serum gonadotropin levels. As expected, serum LH decreased to a very low level, whereas serum FSH decreased only slightly. Testosterone treatment for 8 days decreased the levels of the peroxide-metabolizing enzymes, catalase, glutathione peroxidase (GSH-Px), and glutathione transferase (-44%, -24%, and -31%, respectively; P < 0.01 for all). These changes predominately reflect the interstitial tissue, in which catalase and GSH-Px activities were much higher than in the seminiferous tubules. Testicular CuZn or Mn superoxide dismutase activities, which were high in the seminiferous tubules, were not affected by gonadotropin suppression. The total peroxyl radical-trapping capacity of the testis, or its components, vitamin E and ubiquinol 9, were not affected either. Lipid peroxidation was decreased after 8-day treatment, as detected by diminished formation of conjugated dienes and fluorescent chromolipids (-30% and -19%, respectively; P < 0.05 for both). Similar results of decreasing catalase and GSH-Px activities were found after gonadotropin suppression with GnRH antagonist treatment for 2 days or testosterone treatment for 5 days. Substitution with hCG, alone or in combination with recombinant human FSH, reversed the changes in enzyme activities, whereas FSH alone had no effect. After 5-day testosterone treatment, catalase messenger RNA expression was studied by Northern hybridization, and it was observed to parallel the changes in enzyme activity. The site of free radical production was studied by separating interstitial tissue and seminiferous tubules 5 h after hCG injection. GSH-Px was induced by hCG only in the interstitial tissue (+28%; P< 0.01), supporting the hypothesis of free radical production during steroidogenesis. Aminoglutethimide, an inhibitor of the P450 cholesterol side-chain cleavage enzyme, induced extensive lipid peroxidation in the testis. Presumably, aminoglutethimide leads to leakage of free radicals from the P450 enzyme when substrate oxygenation is prevented. In conclusion, the present study suggests that physiological LH action in the rat testis causes lipid peroxidation and maintains high activities of peroxide-metabolizing enzymes in the interstitial tissue.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Induction of lipid peroxidation during steroidogenesis in the rat testis. 853

Effects of acute or subchronic administration of human placental extract (HPE), a worldwide clinically used agent, on hepatic drug metabolizing enzyme activities were evaluated in rats. Hepatic microsomal cytochrome P-450 (Cyt. P450) and cytochrome b5 (Cyt. b5) contents and cytosolic glutathione S-transferase (GST) activities were maximally induced after various periods of time following a single intraperitoneal injection of HPE (4 ml/kg) whereas microsomal UDP-glucuronyltransferase (UDPGT) activities were inhibited significantly. All these altered effects were returned almost to the basal levels after 96 h of treatment. Subchronic treatment (30 days) with HPE (1,2 or 4 ml/kg) afforded a significant induction of Cyt. P-450 and Cyt. b5 levels and that of GST activities with a concurrent suppression of the activities of UDPGT and these results were found to be dose-dependent. However, microsomal NADPH cytochrome c reductase activity was not affected either by acute or subchronic treatment. The observed variations in the levels and activities of above house-keeping enzymes were discussed in relation to the possible carcinogenic risk of long-term treatment with this pharmaceutical agent.
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PMID:Effects of human placental extract on hepatic drug metabolizing enzyme. 854 51

Polychlorinated biphenyls are known to cause induction in cytochrome P450-dependent monooxygenase activities and alteration in the antioxidant defense of mammals. To determine whether similar detoxication processes are activated in rainbow trout (Oncorhynchus mykiss), we investigated P450-dependent enzyme activities, antioxidant enzymes and glutathione status (reduced and oxidized glutathione, GSH and GSSG) in this species injected intraperitoneally with 3,3',4,4'-tetrachlorobiphenyl at 5 mg/kg body weight 6 weeks post injection. Ethoxyresorufin O-deethylase activities increased 11- and 40-fold in liver and kidney. UDPglucuronosyltransferase activities were 2- and 5-fold higher in these organs, while glutathione S-transferase activity was enhanced greater than 2-fold in liver of tetrachlorobiphenyl injected trout in comparison with controls. Glutathione peroxidase activities were increased in liver and white muscle of dosed fish. Tetrachlorobiphenyl exposure resulted in a significant increase in glutathione reductase activities, with 7-fold enhancement in liver and significantly elevated activities in kidney, red and white muscles. Similarly, cytosolic superoxide dismutase and catalase activities were increased in white muscle of injected trout. Tetrachlorobiphenyl exposure significantly increased GSH concentrations in liver and kidney, while GSSG levels were increased in liver and blood plasma. These changes, however, did not modify the GSSG/GSH ratios in these tissues. Overall, these results imply a major tetrachlorobiphenyl effect on GSH status and antioxidant enzymes in trout tissues and identify white muscle along with liver and kidney as important tissues in the detoxication process in this animal.
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PMID:3,3',4,4'-tetrachlorobiphenyl effects on antioxidant enzymes and glutathione status in different tissues of rainbow trout. 857 41

Within the selective induction of phase II enzymes following treatment with dipyridyls or N-heterocyclic analogs of phenanthrene, strong correlations (r > or = 0.70) are observed between the increase of microsomal epoxide hydrolase (mEH) activity and UDP-glucuronosyltransferase (UGT) activities towards 4-nitrophenol, 1-naphthol and morphine. The present study investigates whether this correlation is maintained with inducing agents known to also increase phase I enzyme activities. Rats were treated with beta-naphthoflavone, isosafrole, phenobarbital, ethanol, dexamethasone and clofibric acid regimens in which P450 isozyme induction could be confirmed. Comparisons between the responses of mEH, UGT and glutathione S-transferase (GST) activities were made. mEH activity was increased by beta-naphthoflavone, isosafrole, phenobarbital and clofibric acid. The elevation in mEH activity by these agents showed modest but significant correlations with GST activities toward all the substrates monitored (r values range between 0.49 and 0.65) and a strong correlation with UGT activity towards only one substrate, morphine (r = 0.70). This study suggests that induction of mEH activity correlates with the increases in select phase II enzyme activities whether it is accompanied by P450 induction or not.
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PMID:Correlations of the induction of microsomal epoxide hydrolase activity with phase II drug conjugating enzyme activities in rat liver. 861 56

Oltipraz (OPZ) is currently being considered for human use to protect against aflatoxin B1 (AFB)-induced hepatocarcinogenesis based on its proven protective effect in rats. The effectiveness of this treatment presumes that orthologous cytochrome P450 and glutathione S-transferase (GST) isozymes metabolize AFB in humans as they do in rats. In this study, alterations in the expression of multiple forms of cytochrome P450 and GST were evaluated after treatment with OPZ, as well as other known P450 inducers, including 3-methylcholanthrene, pregnenolone-16alpha-carbonitrile, and ciprofibrate. Evidence is presented that the male-specific rat CYP 3A2, an orthologue of human CYP 3A4, may be primarily responsible for AFB activation in rat liver at both high and low AFB substrate concentrations. The CYP 1A2 enzyme does not appear to play a role in AFB activation in rat liver at any substrate concentration, whereas the major human P450 enzyme capable of activating AFB at a low substrate concentration has been identified as CYP 1A2. Surprisingly, we found that the CYP 1A2 steady-state mRNA level and the CYP 1A2-associated methoxyresorufin-O-demethylase activity were induced approximately 3- and 2-fold, respectively, by OPZ in rat liver. However, because CYP 1A2 does not appear to participate in AFB activation, induction of CYP 1A2 may be insignificant for AFB-induced hepatocarcinogenesis in rat models. In the rat, a heterodimeric alpha class GST enzyme containing the Yc2 subunit is the only polypeptide characterized to date in this species with high catalytic activity for the conjugation of activated AFB with glutathione. The GST Yc2 steady-state mRNA level was induced 5-fold by OPZ treatment. This induction was mirrored by significant increases in both the corresponding protein level and AFB-8,9-epoxide-conjugating enzyme activity, which may contribute significantly to protection against AFB-induced carcinogenesis in the rat. Investigations from this and other laboratories have not revealed any evidence for a Yc2-like GST isozyme with high AFB-8,9-epoxide-conjugating activity in human liver. We have also been unable to demonstrate that the two major human alpha class GST isozymes, A1-1 and A2-2, purified from bacteria expressing the corresponding cDNAs, exhibit any significant AFB-8,9-epoxide-conjugating activity. Our results suggest that humans may not be protected to the same extent as rats against AFB-induced hepatocarcinogenesis by treatment with OPZ and that further investigations are needed to establish the usefulness of OPZ for protection against human exposure to AFB.
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PMID:Oltipraz-mediated changes in aflatoxin B(1) biotransformation in rat liver: implications for human chemointervention. 862 5

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