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)

Non-Hodgkin's lymphomas (NHL) are one of the most chemosensitive human malignancies. Complete response (CR) is often achieved, but many patients relapse and a second CR is difficult to obtain because of the development of chemoresistance. In an attempt to better understand the biology and the chemosensitivity of these lymphoid tumors, we assessed the main drug-metabolizing enzyme systems in normal lymphocytes, chemosensitive NHL and chemoresistant NHL. Cytochromes P-450 (1A1/A2, 2B1/B2, 2C8-10, 2E1, 3A4), epoxide hydrolase and glutathione S-transferases (GST-alpha, -mu, -pi) were assayed by immunoblotting. UDP-glucuronosyltransferase, beta-glucuronidase, sulfotransferase, sulfatase, GST activity, and glutathione (GSH) content, were determined by spectral assays. Results showed the absence of all probed cytochromes P-450 in normal lymphocytes and NHL cells tested. GST activity was significantly lower in chemoresistant NHL compared to normal lymphocytes. GST-alpha was not detected in either normal lymphocytes or NHL cells. GST-pi was the predominant isoenzyme, and GST-mu was not detected in chemosensitive NHL. GSH content was significantly lower in chemoresistant NHL compared to other lymphoid tissues tested. The conjugating enzymes UDP-glucuronosyltransferase and sulfatase were similar in either chemoresistant NHL compared to chemosensitive NHL. The activity of the hydrolytic enzyme beta-glucuronidase was lower in chemoresistant compared to chemosensitive NHL, whereas sulfatase was higher in sensitive NHL compared to normal lymphocytes. Epoxide hydrolase was not detected in either normal or NHL cells tested. In conclusion, these studies did not show any cytochrome P-450 in human lymphoid cells tested, but pointed out noteworthy differences for other enzyme systems tested.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Main drug-metabolizing enzyme systems in human non-Hodgkin's lymphomas sensitive or resistant to chemotherapy. 853 97

The metabolism of probe substrates of phase I and phase II enzymes in vitro were compared in hepatic subcellular fractions from humans, cynomolgus monkeys, rhesus monkeys, and beagle dogs. These studies were undertaken to compare the suitability of these species as models of metabolism in drug development. Eight cytochrome P450-dependent activities were measured in microsomal incubations: ethoxyresorufin O-deethylase, coumarin 7-hydroxylase, tolbutamide 4-hydroxylase, S-mephenytoin 4'-hydroxylase, bufuralol 1'-hydroxylase, N-nitrosodimethylamine N-demethylase, midazolam 1'-hydroxylase, and erythromycin N-demethylase. Seven phase II activities were determined in the appropriate subcellular fractions:acetaminophen UDP-glucurono-syltransferase, acetaminophen sulfotransferase, 17 alpha-ethinylestradiol UDP-glucuronosyltransferase, 17 alpha-ethinylestradiol sulfotransferase, 6-mercaptopurine methylase, dichloronitrobenzene (DCNB) glutathione S-transferase, and isoniazid N-acetylase. Hepatic subcellular fractions from cynomolgus and rhesus monkeys showed significantly higher activities than those from humans for ethoxyresorufin O-deethylase, bufuralol 1'-hydroxylase, midazolam 1'-hydroxylase, erythromycin N-demethylase, acetaminophen UDP-glucuronosyltransferase, acetaminophen sulfotransferase, and tolbutamide 4-hydroxylase. Cynomolgus monkey had higher activity than humans and rhesus monkeys for S-mephenytoin 4'-hydroxylase erythromycin N-demethylase. Rhesus monkey and human cytosol displayed an apparent genetic polymorphism in the N-acetylation of isoniazid, whereas cynomolgus monkey cytosol did not. All other monkey activities were not significantly different than human. Dog subcellular fractions showed higher activity than humans for midazolam 1'-hydroxylase, erythromycin N-demethylase, acetaminophen UDP-glucuronosyltransferase, acetaminophen sulfotransferase, 17 alpha-ethinylestradiol sulfotransferase, and DCNB glutathione S-transferase. Furthermore, dog samples had significantly lower activity for coumarin 7-hydroxylase and 6-mercaptopurine methylase, and no detectable activity for tolbutamide 4-hydroxylase or isoniazid N-acetylase. All other activities were not significantly different from human. These results reveal minor differences between the cynomolgus and rhesus monkey in drug metabolism capacities in vitro, but both species are generally more metabolically active than humans in both phase I and phase II metabolism, whereas dogs had more diverse deviations from humans.
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PMID:Comparisons of phase I and phase II in vitro hepatic enzyme activities of human, dog, rhesus monkey, and cynomolgus monkey. 859 24

Aldose reductase is believed to be involved in teh etiology of diabetic complications, including cataractogenesis, nephropathy, and neuropathy. AL-1576 and AL-4114, two spirohydantoin aldose reductase inhibitors, were specifically developed for prevention of diabetic cataractogenesis. This study has determined whether AL-1576 and AL-4114 are inducers of biotransformation by assaying the activities of some phase I and phase II enzymes in the liver, kidney, intestine, and five ocular tissues (cornea, lens, iris-ciliary body, retina, and choroid). The aldose reductase inhibitors were administered topically (the intended route for use in preventing cataractogenesis) in two concentrations (0.5 and 5.0%) each 3 times/day to both eyes of New Zealand white rabbits for 14 days. Lenticular aldose reductase activity was decreased by 30-75% by the aldose reductase inhibitors. Monooxygenase activity toward benzo(a)pyrene, ethoxyresorufin, and methoxycoumarin was not increased by AL-1576 or AL-4114 treatment in any tissue. Activities of 1-chloro-2,4-dinitrobenzene glutathione S-transferase, 2-naphthol sulfotransferase, and 1-naphthol UDP-glucuronosyltransferase were not significantly induced in the eight tissues. Clearly, ocular dosing with AL-4114 and AL-1576 for 14 days had little effect on hepatic, intestinal, and ocular biotransformation.
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PMID:Minimal effects of two aldose reductase inhibitors, AL-1576 and AL-4114, after subacute topical-ocular dosing on xenobiotic biotransformation in rabbits. 865 97

The genotoxicity and carcinogenicity of tamoxifen have been attributed to metabolic activation of tamoxifen to an electrophile. Phase II enzymes are known to be involved in the metabolism of the drug and possibly in the formation or elimination of the active metabolite. To determine the effects of tamoxifen on phase II enzyme expression, the drug was administered to F344 rats, and hepatic glutathione S-transferase (GST), UDP-glucuronosyltransferase (UGT), and sulfotransferase (ST) expression was evaluated. Some of the tamoxifen-induced effects, including dramatic suppression of selected GST enzymes and activity, were observed at a dose in rats that is directly equivalent, on a mg/kg b.w. basis, to the doses used for breast cancer treatment. Most of the observed responses are not consistent with the previously described phenobarbital-like properties of tamoxifen and could be the result of the partial agonist activity of tamoxifen at the estrogen receptor. Northern blot analysis was performed with isozyme-specific oligonucleotide probes for rat GST, ST, and UGT. In addition, GST subunit protein levels were assayed by high-performance liquid chromatography. In females, tamoxifen treatment resulted in a 60% suppression of GST Ya1 mRNA and protein levels and a 40% suppression of GST Ya2 levels. In males, tamoxifen treatment suppressed GST Ya1 expression approximately 60%, and GST Ya2 expression was suppressed at low doses but induced above control at high doses. Male GST Yc1 was induced approximately 80% over control. The expression of all other major forms of rat hepatic GST subunit protein, including GST Yb1, Yb2, Yb3, Yp, and Yl, was unaffected by tamoxifen treatment. GST conjugation activity toward delta 5-androstene-3,17-dione, a GST Ya1- and Ya2-specific substrate, was suppressed approximately 40% in both sexes, consistent with our protein and mRNA data. Total GST activity, as measured by the rate of chlorodinitrobenzene conjugation, was not changed. Tamoxifen also produced a dose-dependent increase in UGT2B1 mRNA, a phenobarbital-inducible enzyme; mRNA levels reached 210 and 420% of control in females and males, respectively. In addition, mRNA levels for ST2A2, a female-specific ST gene, were suppressed 50% in females and induced 120% over control in males. mRNA expression for all other forms of rat liver UGT and ST isozymes that were tested was not significantly affected by tamoxifen treatment. Overall, these results demonstrate that tamoxifen has significant effects on hepatic phase II enzyme expression that may have implications for the carcinogenicity and/or therapeutic activity of the drug.
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PMID:Phase II enzyme expression in rat liver in response to the antiestrogen tamoxifen. 870 11

Drug-metabolizing enzymes were studied in subcellular fractions of dog, monkey, and human small intestines, and in the human adenocarcinoma cell line Caco-2, a commonly used in vitro absorption model. Immunoblot analysis indicated the presence of enzymes related to cytochrome P450 (CYP) 1A1/CYP1A2, CYP2D6, CYP3A, and carboxylesterases (ESs) in human and monkey intestines, and of CYP3A and ES in dog intestines. Catalytically, human and monkey intestines exhibited significant and comparable testosterone 6 beta-hydroxylase, (+)-bufuralol 1'-hydroxylase, and ES activities. In contrast, dog intestine possessed moderate testosterone 6 beta-hydroxylase, much lower ES, and undetectable bufuralol hydroxylase activities. In addition, low tolbutamide methylhydroxylase activity was observed in human and monkey intestines, but not in dog intestines. Of the phase I enzymes investigated, only ES was detected immunologically and functionally in Caco-2 cells. With respect to phase II enzymes, human and monkey intestines contained relatively high intestinal glucuronyltransferase, N-acetyltransferase (NAT), sulfotransferase, and glutathione S-transferase activities. Except for NAT, all phase II enzymes studied were detectable in dog intestines. In Caco-2 cells, acetaminophen sulfation activity was below the limit of detection, whereas all other conjugating activities were evident. Studies of enzyme kinetics and inhibition by known inhibitors of testosterone 6 beta-hydroxylase activity, the major intestinal mono-oxygenase in all species, revealed some similarities between the responsible enzymes. Comparative studies with human liver microsomes suggested the possible involvement of CYP3A enzymes in the intestinal catalysis of testosterone 6 beta-hydroxylation similar to those observed with human hepatic CYP3A. Further studies on ESs, however, revealed multiplicity and species and/or tissue differences in the microsomal and cytosolic enzymes. Based on kinetic studies, monkey intestines and Caco-2 cells possessed NAT activities, with properties similar to those in human intestine and liver. Overall, the results demonstrated that both the preparations of small intestines and Caco-2 cells exhibited significant drug-metabolizing enzyme activities, although several differences were noted between the intestinal enzymes in the animals or in the Caco-2 cells and those found in humans.
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PMID:Comparative studies of drug-metabolizing enzymes in dog, monkey, and human small intestines, and in Caco-2 cells. 878 78

Medullary thyroid carcinoma (MTC) is frequently resistant to chemotherapy. In this work, we have studied the effect of cisdiamminedichloroplatinum (II) (CDDP) in six MTC human cell lines and we have tried to reverse the resistance to CDDP with amphotericin B (AmB). We also studied the metabolism of glutathione (GSH) and the presence of the glutathione-sulfotransferase pi (GST pi) mRNA in the MTC cell lines. The cisplatin-induced cytotoxicity was evaluated with the 3-4,5 dimethylthiazol-2,5 diphenyl tetrazolium bromide (MTT) test, the neutral red (NR) uptake and with total GSH measurement in six cell lines, TT cell line and five cell lines that we isolated. The cultures were performed with or without AmB (5 micrograms/mL). Intracellular GSH was measured in TMC cells and compared to the levels obtained in six normal thyroid tissues. The expression of GST pi mRNA was evaluated by Northern blotting in the different cell lines. A CDDP-induced cytotoxicity was obtained in the six cell lines at doses inhibiting 50% of the cellular proliferation (IC50) varying from 6 to 40 micrograms according to the tests and the cells tested. A low concentration of AmB (5 micrograms/mL) potentiated the cisplatin toxicity after a 48-h coincubation of TMC in all cases. GSH levels in TMC cell lines were identical to those found in normal cells. GST pi mRNA was detected in all the TMC lines, except in TT cell line. In conclusion, CDDP was toxic for all the TMC cell lines and AmB potentiated this antitumoral effect. On the contrary, GSH and GST pi do not seem to be involved in the mechanisms of the resistance in these cell lines.
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PMID:[Modulation of cisplatin cytotoxicity by amphotericin B in six human cell lines of medullary thyroid cancer]. 886 41

Bacterial systems have long been of use in toxicology. In addition to providing general models of enzymes and paradigms for biochemistry and molecular biology, they have been adapted to practical genotoxicity assays. More recently, bacteria also have been used in the production of mammalian enzymes of relevance to toxicology. Escherichia coli has been used to express cytochrome P450, NADPH-cytochrome P450 reductase, flavin-containing monooxygenase, glutathione S-transferase, quinone reductase, sulfotransferase, N-acetyltransferase, UDP-glucuronosyl transferase, and epoxide hydrolase enzymes from humans and experimental animals. The expressed enzymes have been utilized in a variety of settings, including coupling with bacterial genotoxicity assays. Another approach has involved expression of mammalian enzymes directly in bacteria for use in genotoxicity systems. Particularly with Salmonella typhimurium. Applications include both the reversion mutagenesis assay and a system using a chimera with an SOS-response indicator and a reporter.
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PMID:New applications of bacterial systems to problems in toxicology. 889 30

We recently reported that co-administration to female mice of tamoxifen or 4-hydroxytamoxifen (4-OH-tamoxifen) with pentachlorophenol (PCP), but not with 2,6-dichloro-4-nitrophenol (DNCP) results in strong intensification of a specific subgroup, termed group I, of tamoxifen-DNA adducts in female mouse liver. As both PCP and DCNP are sulfotransferase inhibitors, we concluded that the intensification of tamoxifen group I adducts is probably not due to inhibition of sulfation by these phenols of a tamoxifen metabolite. Since epoxide derivatives of 4-OH-tamoxifen are potential candidates involved in tamoxifen-induced DNA damage, the hypothesis was developed and tested that PCP inhibits epoxide detoxication. As 4-OH-tamoxifen metabolites were unavailable to us, we employed indirect approaches to test this hypothesis. In the first set of experiments we determined whether PCP would augment DNA adduct formation from the benzo[a]pyrene metabolite, 9-hydroxybenzo[a]pyrene (9-OH-BP), as 9-OH-BP-4,5-epoxide is known to be involved in the metabolic activation of this compound. Female mice were given a single i.p. dose of 9-OH-BP (50 mumol/kg) either alone or in combination with PCP (75 mumol/kg), and hepatic DNA adducts were measured 24 h later by nuclease P1-enhanced bisphosphate 32P-postlabeling. Co-administration of PCP with 9-OH-BP resulted in a statistically significant 1.5- to 1.7-fold increase in 9-OH-BP adduct levels versus 9-OH-BP controls. In order to determine whether PCP inhibits the enzymatic detoxication of epoxides in vitro, in a second set of experiments, the effects of PCP on liver microsomal epoxide hydrolase (mEH) and purified equine liver glutathione S-transferase (GST) activities were studied using, respectively, styrene-7,8-oxide and 1-chloro-2,4-dinitrobenzene (CDNB) as substrates. Incubation of mouse liver microsomes with PCP (10-100 microM) strongly inhibited (by 21-97%) mEH activity in a dose-dependent manner, the IC50 being 35 microM. DCNP was ineffective as a mEH inactivator. PCP also inhibited purified equine liver GST activity, with an IC50 of 23.5 microM. Taken together, the results of this study strongly support the hypothesis that PCP inhibited enzymatic detoxication of epoxides in vivo and in vitro. By this mechanism PCP would lead to enhancement of DNA damage caused by 9-OH-BP, and possibly other drugs and their metabolites, which undergo epoxidation prior to DNA binding.
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PMID:Pentachlorophenol enhances 9-hydroxybenzo [a] pyrene-induced hepatic DNA adduct formation in vivo and inhibits microsomal epoxide hydrolase and glutathione S-transferase activities in vitro: likely inhibition of epoxide detoxication by pentachlorophenol. 889 15

The objective of the present investigation was to evaluate the effect of tamoxifen (TAM) on the gene expression of different phase I and phase II drug-metabolizing enzymes. Groups of male and female F344/NCr rats were administered either corn oil or TAM (2.8 to 45 mg/kg body wt x 14 days) dissolved in corn oil by gavage. An additional group of rats received a diet supplemented with phenobarbital (PB, 500 ppm). Northern blot analyses of total liver RNA were conducted using [32P]-labeled cDNA or oligonucleotide probes coding for different sulfotransferase (ST); UDP-glucuronosyltransferase (UGT), glutathione S-transferase (GST), epoxide hydrolase (EPH) or cytochrome P450 (CYP) mRNA transcripts. In male rats, TAM increased the levels of STel, STa and STpl mRNAs, whereas PB increased only the STel mRNA. In female rats, there was no expression of STel and STHA mRNA in either control or TAM-treated animals. TAM and PB increased UGTBe/p mRNAs in all rats, whereas UGTml mRNA was elevated only in PB-treated animals. EPH mRNA was elevated markedly in all rats treated with TAM and PB, whereas GSTya/ye mRNA was highly increased by PB, but only marginally increased by TAM. Finally, TAM increased CYP3A1 mRNA, and slightly increased CYP2B1 mRNA, whereas PB highly elevated mRNAs for both of these CYP genes. In conclusion, treatments of rats with TAM increased the mRNA levels of many phase I and phase II drug-metabolizing enzymes, and this pleiotypic response to TAM seems to be different from other prototype inducers such as PB or dioxin (TCDD).
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PMID:Regulation of gene expression of various phase I and phase II drug-metabolizing enzymes by tamoxifen in rat liver. 893 71

This report describes the establishment and characterization of the mhPKT cell line derived from the liver of a transgenic mouse harboring the simian virus (SV40) large T and small t antigens placed under the control of the 5' regulatory sequence of the rat L-type pyruvate kinase (L-PK) gene. mhPKT cells had a prolonged life span, expressed the SV40-encoded nuclear large T antigen when grown in glucose-enriched medium, and induced tumors when injected subcutaneously into athymic (nu-nu) mice. Growth on petri dishes or filters yielded multiple layers of cuboid cells, with numerous spaces between adjacent cells that were closed by junctional complexes. These bile canaliculi-like structures exhibited numerous microvilli in which villin, an actin-binding brush-border protein, colocalized with actin. These bile canaliculi-like structures appeared to be functional as they accumulated fluorescein. mhPKT cells conserved the expression of the liver-specific transcription factors HNF1, HNF3, HNF4, and DBP together with substantial levels of L-PK and albumin but not alpha-fetoprotein mRNA transcripts. mhPKT cells mainly metabolized testosterone into androstenedione and 6beta-hydroxytestosterone, as in vivo. 3-Methylcholanthrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) markedly increased ethoxyresorufin-O-deethylase activity and the related cytochrome P450 (CYP) 1A1/2 protein, whereas alpha-naphtoflavone antagonized the TCDD-elicited induction. Phenobarbital slightly increased the CYP2B-mediated activities of pentoxyresorufin-O-depentylase, 2beta- and 16beta-testosterone hydroxylase. mhPKT cells also had substantial sulfotransferase, UDP-glucuronyltransferase, and glutathione S-transferase activities. This model may serve as a tool for long-term in vitro studies of xenobiotic metabolism, potent CYP inducers, and hepatocyte damage due to drugs and other factors.
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PMID:Activity and inducibility of drug-metabolizing enzymes in immortalized hepatocyte-like cells (mhPKT) derived from a L-PK/Tag1 transgenic mouse. 926 Sep 6

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