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)

Male Sprague-Dawley rats were investigated after N-nitrosomorpholine (NNM) treatment with concomitant and subsequent administration of dehydroepiandrosterone (DHEA) for development of pre-neoplastic and neoplastic liver lesions. In addition to clear, acidophilic, mixed cell and basophilic foci, a hitherto undescribed lesion type demonstrating a unique morphological and histochemical phenotype was observed in animals receiving both NNM and DHEA. The cells of the majority of these lesions for which we propose the designation amphophilic foci were characterized by increased granular acidophilia and randomly scattered cytoplasmic basophilia. Histochemically, reduced glycogen content and elevated activity of glucose-6-phosphate dehydrogenase (G6PDH), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), acid phosphatase (AP), succinate dehydrogenase (SDH) and catalase (CAT) were evident. The lack of gamma-glutamyl transpeptidase (GGT) or glutathione S-transferase placental form (GST-P) in foci of this type allowed clear differentiation from other NNM-induced focal lesions while suggesting certain similarities to pre-neoplastic cells induced by hypolipidemic agents. Similar enzyme histochemical patterns were characteristic for foci and later appearing nodules (adenomas) composed of amphophilic/tigroid cells the basophilic material of which was increased and frequently arranged in long striped bands. DHEA treatment, while not itself inducing any preneoplastic foci, was thus associated with altered phenotypic expression of foci and adenomas generated by NNM.
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PMID:Enzyme histochemical and morphological phenotype of amphophilic foci and amphophilic/tigroid cell adenomas in rat liver after combined treatment with dehydroepiandrosterone and N-nitrosomorpholine. 296 25

Reduced glutathione, enzymes involved in its metabolism and other cytosolic activities were evaluated in liver preparations of Wistar rats fed with a diet supplemented with 2-acetylaminofluorene (0.05%) and/or with glutathione or N-acetyl-L-cysteine (0.1%). The treatment lasted 4 cycles, each composed of 3 weeks of special diet followed by 1 week of standard diet. The carcinogen produced a considerable increase in gamma-glutamyl transpeptidase in liver homogenates at cycles III and IV, with an irreversible trend which was not discontinued even during the weeks of standard diet. Moreover, generally from cycle I, 2-acetylaminofluorene stimulated several enzyme activities in the liver cytosol, such as glutathione S-transferase, glutathione reductase, glucose 6-phosphate dehydrogenase, NADH- and NADPH-dependent diaphorases. Administration of the two aminothiols to untreated rats resulted in a significant enhancement of glutathione peroxidase, glucose 6-phosphate dehydrogenase and diaphorases. In 2-acetylaminofluorene-treated rats, both thiols further stimulated glutathione S-transferase during the last treatment cycles and attenuated gamma-glutamyl transpeptidase activity, which however was not sufficient to thoroughly counteract the liver lesions due to the massive feeding of the carcinogen. Hepatocellular glutathione was enhanced during the last cycle of treatment with 2-acetylaminofluorene, and was further increased by co-administration of exogenous glutathione.
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PMID:Effects of aminothiols in 2-acetylaminofluorene-treated rats. II. Glutathione cycle and liver cytosolic activities. 297 75

In an attempt to characterize metabolism enzymes of the estrogen-induced kidney tumor in male Syrian hamsters, the activities of enzymes involved in drug and glutathione metabolism were determined in tumor tissue. Kidney tumors were induced in male Syrian hamsters by treatment with estradiol for 8 months. Cytochrome P-450 and cytochrome b5 concentrations in tumors were below detectable levels. However, when cytochrome P-450-mediated oxidation was analyzed by product formation assays, the oxidation of E-diethylstilbestrol to diethylstilbestrol-4',4"-quinone by tumor microsomes was 10-20% of the rate found in control microsomes. In kidney tissue surrounding estrogen-induced tumors, cytochrome P-450 and b5 contents were 50-60% less than those in untreated kidney. Activities of reducing enzymes of drug metabolism (cytochrome P-450, cytochrome b5 and NADH:cytochrome c reductases), glutathione metabolism enzymes (glutathione peroxidase, glutathione transferase, glutathione reductase, and gamma-glutamyl transpeptidase), and free radical scavenging enzymes (superoxide dismutase, catalase, and quinone reductase) in tumor were significantly lower than in untreated kidney tissue. The activities of these enzymes in renal tumor surrounding tissue were between those observed in tumor and control kidney. Glucose-6-phosphate dehydrogenase activity was increased by 50% in surrounding tissue and 430% in tumor compared to values in untreated controls. The decreased enzyme activity levels in hormone-exposed tissue surrounding tumors likely represented an adaptation of this tissue to the neoplastic environment induced by chronic estrogen treatment.
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PMID:Characterization of drug metabolism enzymes in estrogen-induced kidney tumors in male Syrian hamsters. 304 47

It is generally held that altered areas, neoplastic nodules and hepatocellular carcinomas (HCC) induced by mutagenic chemical carcinogens are resistant to the effects of hepatotoxins. This characteristic is attributed to the marked decrease in activating (phase I) enzymes and a several-fold increase in detoxifying (phase II) enzymes. In previous studies, we have shown that hepatic neoplastic lesions induced by non-mutagenic peroxisome proliferators differed from mutagenic carcinogen-induced lesions by lacking gamma-glutamyl transpeptidase and the placental form of glutathione S-transferase. In this study we have examined ciprofibrate-induced HCC for phase I and phase II enzymes. These tumors showed a marked decrease in cytochrome P-450 (53%), cytochrome b5 (79%) and aryl hydrocarbon hydroxylase (55%) activities compared to normal livers. Interestingly, activities of phase II enzymes in these tumors, such as UDP-glucuronyltransferases and sulfotransferases were decreased or remained the same as in the normal livers. In addition, the activity of epoxide hydrolase was also decreased markedly in all peroxisome proliferator-induced HCC. The decrease in the activity of various enzymes appears not to be due to the direct effect of ciprofibrate, since no inhibitory effect was observed after adding this compound in vitro. These findings further amplify the differences between the hepatic lesions induced by mutagenic hepatocarcinogens and non-mutagenic peroxisome proliferators suggesting a divergence in the mechanism by which peroxisome proliferators induce liver tumors.
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PMID:Peroxisome proliferator-induced hepatocarcinogenesis: levels of activating and detoxifying enzymes in hepatocellular carcinomas induced by ciprofibrate. 310 85

Glutathione-dependent enzymes play a central role in the protection of cells from cytotoxic chemicals and have been implicated in the intrinsic and acquired resistance of tumors to cytotoxic drugs. We have generated a Chinese hamster ovary line resistant to bifunctional nitrogen mustards and in this report have characterized and isolated the protein that represents the major observable phenotypic difference between the drug-sensitive and drug-resistant cell lines. This purified protein is shown to be an alpha class glutathione S-transferase comprising YcYc subunits and possessing a pI value of approximately 8.0. The intracellular level of the Yc subunit is elevated greater than 40-fold in the drug-resistant cell line, which could account for the increase in glutathione S-transferase (RX:glutathione R-transferase; EC 2.5.1.18) activity toward both 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide. Other glutathione S-transferase subunits within this gene family are also elevated. These changes are accompanied by a significant elevation in alpha class mRNA levels. Southern analysis indicates that the genes coding for these proteins are amplified 4- to 8-fold in the drug-resistant cell line. In addition, gamma-glutamyl transpeptidase [(5-glutamyl)-peptide:amino acid 5-glutamyltransferase; EC 2.3.2.2] activity is increased 3.6-fold in the drug-resistant Chinese hamster ovary cell line, which may explain the increase in cellular glutathione level. In this case no gene amplification was seen. These data indicate that gene amplification may be important in drug resistance toward alkylating agents and also that other enzymes in glutathione homeostasis are involved.
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PMID:Amplification and increased expression of alpha class glutathione S-transferase-encoding genes associated with resistance to nitrogen mustards. 318 41

The mechanisms by which diallyl sulfide (DAS), a component of garlic oil, inhibits hepatocarcinogenicity of 1,2-dimethylhydrazine (DMH) were examined in male Fischer 344 rats. Rats were subjected to partial hepatectomy to stimulate hepatocellular proliferation required for initiation by DMH (50-200 mg/kg i.p.) given 12 h later. Initiation was assessed by the numbers of foci and nodules of hepatocytes that were positive for gamma-glutamyl transpeptidase (gamma-GT) or glutathione-S-transferase-P (GST-P) after 6 weeks promotion by orotic acid (1% in semi-purified diet). DAS at doses above 50 mg/kg (by gavage) administered 1 h before DMH (50 mg/kg) partially reduced the numbers of gamma-GT and GST-P-positive foci. By comparison, all doses of DAS (25-100 mg/kg) completely prevented liver necrosis by DMH (200 mg/kg). DAS substantially reduced macromolecular binding of [14C]DMH in cultured liver cells, but had no effect on their levels of glutathione-S-transferase, glutathione reductase or glutathione peroxidase at 18 h. These findings suggest that low dosages of DAS which reduce DMH binding appear more likely to inhibit hepatocarcinogenicity by reducing the promoting influences of post-necrotic regeneration than by preventing initiation.
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PMID:Inhibition of hepatocarcinogenic responses to 1,2-dimethylhydrazine by diallyl sulfide, a component of garlic oil. 360 98

The reaction of 1,2-dibromoethane and glutathione with DNA in the presence of glutathione S-transferase results in the formation of a single major DNA adduct, which can be released by thermal hydrolysis at neutral pH and separated by octadecylsilyl and propylamino high-performance liquid chromatography. The same DNA adduct is the only major one formed in livers of rats treated with 1,2-dibromo[1,2-14C]ethane. The DNA adduct was identified as S-[2-(N7-guanyl)ethyl]glutathione: (1) The chromatographic behavior was altered by treatment with gamma-glutamyl transpeptidase or Streptomyces griseus protease. (2) The molecular ions observed in positive and negative mode fast atom bombardment mass spectrometry were those expected for the structure when either glycerol or a mixture of dithiothreitol and dithioerythritol was used as the bombardment matrix. (3) The two-dimensional 1H NMR correlated spectroscopy spectrum of the DNA adduct was compared to the spectra of glutathione, oxidized glutathione, and N7-methylguanine and found to be consistent with the assigned structure. No evidence for in vitro or in vivo opening of the guanyl imidazole ring was observed under these conditions. The structure of the adduct supports a pathway involving enzyme-catalyzed conjugation of 1,2-dibromoethane with glutathione, non-enzymatic dehydrohalogenation of the resulting half-mustard to form a cyclic episulfonium ion, and attack of the N7 nitrogen of DNA guanine on the episulfonium ion to generate this major DNA adduct, which may be related to the carcinogenicity of this chemical.
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PMID:S-[2-(N7-guanyl)ethyl]glutathione, the major DNA adduct formed from 1,2-dibromoethane. 370 41

Intra-gastric administration of brotizolam (0.1-200 mg/kg) daily for three days to rats resulted in no significant changes in the hepatic and intestinal cytochrome P-450-dependent or P-448-dependent mixed-function oxidases, or in the hepatic flavoprotein dimethylaniline N-oxidase. Liver microsomes from mouse, rat and man metabolized brotizolam by hydroxylation of the diazepine ring and of the methyl group at rates which were greater for mouse greater than rat greater than man. Brotizolam and its metabolites generated by rat-liver microsomes in vitro were not mutagenic in the Ames' test. Brotizolam, at 200 mg/kg per day for two to six weeks, depleted liver glutathione concentration and markedly increased liver gamma-glutamyl transpeptidase, glutathione reductase and glutathione transferase activities. Similar changes were not seen at the lower dose of 0.3 mg/kg. The observed increases in glutathione metabolism and the decreased tissue concentration of glutathione are indicative of high levels of glutathione conjugation, and provide a possible explanation for the equivocal increase in tumorigenicity seen in rats receiving brotizolam at high dosage.
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PMID:Effects of brotizolam on mixed-function oxidases and glutathione metabolism in the rat. 375 Nov 14

Analogous to the liver, ocular tissues contain large concentrations of glutathione and are exposed to potentially damaging chemical compounds. Since glutathione has been shown to have a detoxification function, via mercapturic acid production in the liver, we investigated whether glutathione has a similar function in ocular tissues. We have demonstrated the presence of all of the enzymes involved in the mercapturic acid pathway i.e. glutathione S-transferase, gamma-glutamyl transpeptidase, cysteinylglycinase, and N-acetyl transferase, in the ocular tissues of bovine lens, cornea, retina, and retinal pigmented epithelium. Therefore glutathione may have another function in ocular tissues, that of the detoxification of xenobiotics.
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PMID:Mercapturic acid pathway enzymes in bovine ocular lens, cornea, retina and retinal pigmented epithelium. 612 91

1. Gills, kidney, intestinal caeca and liver of trout have glutathione S-transferase activity with 1-chloro-2,4-dinitrobenzene (200 500 nmol/min/mg protein), and reduced glutathione (0.5 2.0 mmol/kg tissue). 2. Only kidney and intestinal caeca have substantial gamma-glutamyl transpeptidase activity with gamma-glutamyl-rho-nitroanilide (2-9 nmol/min/mg protein). 3. Renal gamma-glutamyl transpeptidase is membrane-bound and has similar kinetic properties to its mammalian counterparts. 4. The data are consistent with the presence of a mercapturic acid pathway in trout.
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PMID:Distribution and some properties of the glutathione S-transferase and gamma-glutamyl transpeptidase activities of rainbow trout. 613 76


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