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)

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

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

An hepatocyte culture system was developed for potential use in toxicological studies in vitro. Rat hepatocytes were isolated by two-step collagenase perfusion and cultured on Vitrogen-coated Permanox dishes in a modified Chee's medium containing 1 microM dexamethasone and 1% dimethylsulfoxide. The cells remained highly viable for at least 10 d as determined by lactate dehydrogenase release and total protein levels. Albumin secretion into the medium, as a measure of differentiated function, was maintained at elevated levels over the course of 10 d in culture. A number of CYP activities were determined by the analysis of testosterone metabolism in freeze-thawed cells, diazepam metabolism in live cells, and specific assays for CYP 1A1/2, 2B1/2, 2E1, and 3A. Results of these assays indicated that a wide range of CYP isozymes were maintained, some activities were enhanced under the conditions of culture and some activities were inducible. Activities of the phase II enzymes, glutathione S-transferase and UDP-glucuronosyltransferase, and glutathione levels were also maintained in the cultured hepatocytes for at least 6 d. These results strongly support the use of this hepatocyte culture system for in vitro toxicological studies.
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PMID:Characterization of a primary hepatocyte culture system for toxicological studies. 872 45

These studies examined the impact of dietary corn oil and its major constituent fatty acids on the occurrence of 7,12-dimethylbenz[a]anthracene (DMBA)-induced mammary DNA adducts. In study 1, rats were fed diets containing 5, 10 or 20% corn oil for 2 weeks prior to DMBA treatment (25 mg/kg). Mammary DNA adducts increased significantly (P < 0.05) as the quantity of dietary corn oil increased. Liver glutathione S-transferase (GST) activities increased while UDP-glucuronosyltransferase (UGT) activities decreased as the quantity of dietary corn oil increased. Increased adducts resulting from greater corn oil consumption were positively correlated with GST and negatively correlated with UGT activities. In study 2, rats were fed diets containing 5 or 20% corn oil, or 5% corn oil supplemented with 1.67% palmitic, 3.81% oleic or 8.78% linoleic acid (quantities in 15% corn oil) for 2 weeks prior to DMBA treatment (50 mg/kg). Total mammary DNA adducts were 75, 136 and 156% greater in rats fed the 20% corn oil, oleic acid-supplemented and linoleic acid-supplemented diets, respectively, than in those fed the 5% corn oil diet. Palmitic acid supplementation did not affect the occurrence of adducts. Adducts in study 2 did not correlate with GST or UGT activities. These studies demonstrate that enhanced DMBA bioactivation caused by increased corn oil consumption can be at least partially explained by increased intake of oleic and linoleic acids.
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PMID:Impact of dietary fatty acids on 7,12-dimethylbenz[a]anthracene-induced mammary DNA adducts. 884 70

The regulation of hepatic P450s has been the focus of numerous studies because of the importance of these proteins in endocrinology, oncology, and toxicology, as well as drug development. Considerable evidence exists demonstrating that many hepatic P450s are regulated by developmental, sex, or hormonal factors in addition to receptors that interact with foreign chemicals. The focus of work in our laboratory has been on the effects of steroid hormones, especially glucocorticoids, on expression of genes regulated by the Ah receptor. We have shown that most rat hepatic genes of the Ah receptor gene battery are regulated by glucocorticoids. We have used glucocorticoid-deficient animal models to demonstrate that these steroids do modulate the expression (basal and inducible) of these genes in vivo. Using cultured rat hepatocytes, we have demonstrated that polycyclic aromatic hydrocarbon (PAH) induction of cytochrome P4501A1, glutathione S-transferase Ya1, and UDP-glucuronosyltransferase 1*6 are apparently potentiated two- to fourfold upon inclusion of glucocorticoids in the media to activate the glucocorticoid receptor and further, that the receptor antagonist RU 38486 reverses these phenomenon. NAD(P)H:quinone oxidoreductase and aldehyde dehydrogenase 3 gene expression were repressed 70-80% by glucocorticoids in cultured hepatocytes through a glucocorticoid receptor-mediated process as well. The effect of glucocorticoid concentration on PAH induction of glutathione S-transferase Ya1 subunit for glucocorticoids was biphasic, but at physiological concentrations gene expression was repressed to approximately 20-40% of control. At supraphysiological concentrations, glucocorticoids alone induced expression two- to threefold and potentiated the PAH-inducible expression of the Ya1 subunit gene. Subsequent work in our laboratory has focused on defining the molecular basis of this hormonal regulation, specifically elucidating responsive elements responsible for the action of the glucocorticoid receptor and the mechanisms by which some of these genes are positively regulated and others are negatively regulated.
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PMID:Hormonal regulation of hepatic enzymes involved in foreign compound metabolism. 890 7

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

An investigation was made of cytochrome P4501A (CYP1A) induction, determined by the activity of EROD (7-ethoxyresorufin O-deethylase), and formation of benzo[a]pyrene-diolepoxide-DNA (BPDE-DNA) adducts, measured by synchronous fluorescence spectrophotometry, in liver microsomes of perch (Perca fluviatilis), bream (Abramis brama), and roach (Rutilus rutilus). Fish were collected from the southern part of Lake Saimaa (Finland), an area polluted by effluents from the pulp and paper industry. In addition, two conjugation enzymes (UDP-glucuronosyltransferase and glutathione S-transferase) were determined. Overall, when compared to an upstream reference, EROD activity was higher in fish at waters downstream of the mill sewer. In bream EROD activity was threefold and in roach twofold. The changes in conjugation enzymes were not clearly related to the pollution gradient. The formation of BPDE-DNA adducts by liver microsomes was in correlation to both the pollution gradient and the EROD activity. This implies that CYP1A enzymes may play an important role in carcinogen activation in natural fish populations and that the formation capacity of DNA adducts may be a useful indicator when evaluating the potential toxicity of industrial water pollution.
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PMID:The capacity of liver microsomes to form benzo[a]pyrene-diolepoxide-DNA adducts and induction of cytochrome P450 1A in feral fish exposed to pulp mill effluents. 895 May 35

The systemic toxicity of benzothiophene, a sulfur-containing heterocyclic present in petroleum, coal, and their derived products, was studied in male rats following short-term oral exposure. Male Sprague-Dawley rats (130 +/- 20 g) (n = 5 per dose group) were treated with benzothiophene by gavage at dosages of 0, 2, 20 or 200 mg/kg/d for 21 d. In another study, male rats were treated with 0, 100, or 500 ppm benzothiophene via the diet for 28 d. In the gavage study, the 200 mg/kg/d rats showed depressed weight gain, increased relative liver and kidney weights, decreased relative thymus weights, and elevated levels of serum gamma-glutamyltransferase (gamma-GT), hepatic aniline hydroxylase (AH), aminopyrine N-demethylase (APDM), pentoxyresorufin O-dealkylase (PROD), glutathione S-transferase (GST), and UDP-glucuronosyltransferase (UDPGT) activities. A 4.5-fold increase in urine volume on d 14-21 and a transient, 4-fold increase in urinary ascorbic acid on d 1 were also detected. No treatment related changes in urinary N-acetylglucosaminidase (NAGA) activity were observed. Benzothiophene residues were not detected in adipose tissue, liver, and serum of rats in the 200 mg/kg rats, but a small quantity was detected in the urine. In the diet study, animals fed the 500 ppm diet had increased absolute and relative liver weights, elevated AH, APDM, and GST activities, decreased red blood cell count, and minor increases in serum urea nitrogen and glucose. In summary, benzothiophene produced adverse effects in male rats that included increased relative liver and kidney weights and increased urine output. Benzothiophene also caused increases in hepatic drug metabolizing enzyme activities of a phenobarbital type and a transient elevation in urinary ascorbic acid.
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PMID:Effects of benzothiophene on male rats following short-term oral exposure. 901 32

The filamentous fungus Cunninghamella elegans has the ability to metabolize xenobiotics, including polycyclic aromatic hydrocarbons and pharmaceutical drugs, by both phase I and II biotransformations. Cytosolic and microsomal fractions were assayed for activities of cytochrome P450 monooxygenase, aryl sulfotransferase, glutathione S-transferase, UDP-glucurono-syltransferase, UDP-glucosyltransferase, and N-acetyltransferase. The cytosolic preparations contained activities of an aryl sulfotransferase (15.0 nmol min-1 mg-1), UDP-glucosyltransferase (0.27 nmol min-1 mg-1) and glutathione S-transferase (20.8 nmol min-1 mg-1). In contrast, the microsomal preparations contained cytochrome P450 monooxygenase activities for aromatic hydroxylation (0.15 nmol min-1 mg-1) and N-demethylation (0.17 nmol min-1 mg-1) of cyclobenzaprine. UDP-glucuronosyltransferase activity was detected in both the cytosol (0.09 nmol min-1 mg-1) and the microsomes (0.13 nmol min-1 mg-1). N-Acetyltransferase was not detected. The results from these experiments provide enzymatic mechanism data to support earlier studies and further indicate that C. elegans has a broad physiological versatility in the metabolism of xenobiotics.
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PMID:Phase I and phase II enzymes produced by Cunninghamella elegans for the metabolism of xenobiotics. 902 50

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