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 inducibility of a cytochrome P450 isoform, CYP2E1 (cyp2e-1), was compared in colonic epithelium of selected inbred mice. Mice were chosen for study on the basis of reported susceptibility to 1,2-dimethylhydrazine (DMH)-induced colorectal tumor formation. DBA/2J (resistant), C57BL/6J (intermediate) and SWR/J (susceptible) mice were exposed to acetone (1% v/v) in drinking water for 10 days. SWR/J mice sustained the largest increase in colonic cyp2e-1, although protein levels, assessed by Western analysis, were markedly increased in mucosal tissue obtained from C57BL/6J mice as well. Further evidence for colonic cyp2e-1 induction is supported by elevated (3.5-fold) chlorzoxazone 6-hydroxylase activity in response to acetone. To more fully characterize these changes in colon, the tumor-sensitive SWR/J mice were chosen for further evaluation. Mice were treated with a panel of agents established to induce this protein in liver, including isoniazid (0.1% v/v) and ethanol (10% v/v) in drinking water and pyrazole (300 mg/kg), given intraperitoneally. With the exception of ethanol, each compound produced a marked (1.5- to 3-fold) elevation of cyp2e-1 in colon and liver. Overall balance between phase I and II metabolism may be a critical factor in determining tumor susceptibility. Therefore, glutathione S-transferase (GST) activity was also examined. In liver, basal GST levels varied less than 2-fold between strains, while in colon, levels were 5-10% of corresponding hepatic levels. Although acetone treatment did not significantly alter hepatic GST, a 30-60% decline in activity was observed in colons of SWR/J and C57BL/6J mice. Further examination of colonic GST revealed compound-specific effects. Ethanol exposure markedly (60%) lowered GST levels in colon, whereas pyrazole produced a 2-fold increase. None of these agents significantly altered hepatic GST activity. These studies demonstrate the ability of mouse colon to undergo an increase in immunoreactive cyp2e-1 in response to a panel of xenobiotics known to elevate this protein in liver. Further characterization of cyp2e-1 and GSTs in inbred mice may provide important information on the role of colonocytes in direct activation of ingested procarcinogens to DNA-reactive metabolites.
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PMID:Induction of cyp2e-1 protein in mouse colon. 829 51

The effect of Sudan III-pretreatment on the in vivo genotoxicity of 7,12-dimethylbenz[a]anthracene (DMBA) was investigated using C57BL/6 (B6) and DBA/2 (D2) mice. A significant increase in the frequency of micronucleated reticulocytes was observed in both strains of mice treated with DMBA. The increase was significantly reduced in B6 but not D2 mice by Sudan III-pretreatment. However, enhancement of metabolic activation was found in the Ames assay in the hepatic post-mitochondrial supernatant fraction (S9) from Sudan III-treated animals. It was greater with S9 from B6 than S9 from the D2 group. When the assay was performed in the presence of glutathione, this enhancement was significantly reduced. Sudan III induced some drug metabolizing enzymes, mainly CYP1A and glutathione S-transferase was also induced. The induction of CYP1A was more effective in B6 than D2 mice. These results support our hypothesis that the simultaneous induction of Phase I and II drug metabolizing enzymes is the mechanism for the chemoprevention by Sudan III and suggest that strong induction of CYP1A might be essential for a protective effect.
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PMID:Mechanism for mouse strain differences in the protective effect of Sudan III against the in vivo genotoxicity of 7,12-dimethylbenz[a]anthracene. 900 92

The binding of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) with the aryl hydrocarbon (AH) receptor and subsequent changes in gene expression have been studied intensively, but the mechanisms by which these lead to toxicity are unclear. We investigated the influence of iron, previously implicated in TCDD-induced hepatic porphyria, in mice with alleles of Ahr that encode receptors with varied affinity for TCDD. The administration of iron to Ahrb-1 C57BL/6J (AH-responsive) mice before a single dose of TCDD (75 micrograms/kg) markedly potentiated not only the hepatic porphyria but also general hepatocellular damage and elevation of plasma hepatic enzymes. The formation of hydroxylated and peroxylated derivatives of uroporphyrins formed from uroporphyrinogen and the induction of a mu-glutathione transferase (GST) were consistent with the operation of an oxidative mechanism. In a comparison of C57BL/6J mice with Ahrb-2 BALB/c (AH-responsive) and Ahrd SWR and DBA/2 (AH-nonresponsive) mice, iron overcame the weak hepatic porphyria and toxicity responses in BALB/c and SWR strains but not in DBA/2. CYP1A isoforms are strongly implicated in the mechanism of porphyria, but activities were lowered by 20-30% with iron treatment, and a comparison of levels between strains did not fully account for the resistance of DBA/2 mice. Studies with the use of gel shift assays and cytosolic aconitase of the capacity of the iron regulatory protein controlling the translation of some iron metabolism proteins showed a significant difference between C57BL/6J and DBA/2 mice after the administration of TCDD. We conclude that iron potentiates both the hepatic porphyria and toxicity of TCDD in susceptible mice in an oxidative process with disturbance of iron regulatory protein capacity. Iron even overcomes the AH-nonresponsive Ahrd allele in the SWR strain but not in DBA/2 mice, which remain resistant.
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PMID:Interaction between iron metabolism and 2,3,7,8-tetrachlorodibenzo-p-dioxin in mice with variants of the Ahr gene: a hepatic oxidative mechanism. 944 32

The alpha-class glutathione S-transferases are proposed to play a prominent role in catalyzing the conjugation of glutathione with electrophilic aldehydic products of lipid peroxidation. The effect of iron-induced lipid peroxidation on induction of glutathione S-transferase (GST) isozymes A1 and A4 in the livers of male C57/BL6Ibg and DBA/J2Ibg mice was studied. C57 and DBA mice were fed for 4 months on a diet supplemented with iron as ferrocene and then were assessed for liver injury, hepatic iron loading, indices of lipid peroxidation, GST activity, and induction of GST isozymes A1 and A4. Iron-treated animals displayed a loss in body weight from pair-fed controls and had large increases in hepatic non-heme iron with concomitant liver injury, as measured by serum alanine aminotransferase. Hepatic lipid hydroperoxides, a direct measure of oxidized membrane lipids, were significantly increased only in C57 mice, but hepatic concentrations of reduced glutathione (GSH) were significantly increased in both inbred strains. Total GST activity toward 1-chloro-2,4-dinitrobenzene was significantly increased in C57 mice but not in DBA. Western blot studies using polyclonal antibodies specific for GST A1 and A4 revealed significant increases of 1.5-2.0-fold in these GST isoforms in both inbred strains. These results in a unique murine model for hepatic iron overload further support recent in vivo studies (Khan et al., Toxicol. Appl. Pharmacol., 131, 63-72, 1995) that have associated induction of GST A4 with protection against oxidative stress-induced lipid peroxidation. The observed increases in lipid hydroperoxides, hepatic GSH, GST activity, and GST A1 and A4 protein strongly support the hypothesis that induction of GST A1 and A4 represents an important protective event in the detoxification of electrophilic products of lipid peroxidation.
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PMID:Association of glutathione S-transferase isozyme-specific induction and lipid peroxidation in two inbred strains of mice subjected to chronic dietary iron overload. 970 1

Mice of the XVIInc/Z and DBA/2N strains, which are responsive and nonresponsive, respectively, to the aryl hydrocarbon (Ah) receptor, were treated with the hepatocarcinogen 5,9-dimethyldibenzo[c,g]carbazole and their livers were examined by nuclease P1-enhanced 32P-postlabeling for the levels of DNA adducts formed. Pretreatment at the doses usually reported in the literature with the cytochrome P4501A (CYP1A) inducers 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), beta-naphthoflavone (BNF), and isosafrole modulated DNA adduction. In XVIInc/Z mice, DNA adduction was totally inhibited by TCDD (a CYP1A1/1A2 inducer), BNF (a CYP1A1/1A2 inducer), and isosafrole (a CYP1A2 inducer). In DBA/2N mice, in which DNA adduction was also inhibited by TCDD, about 25% of the DNA adduct levels persisted after pretreatment with BNF (not a CYP1A1/1A2 inducer in this strain) or isosafrole (a CYP1A2 inducer in this strain). The increase (in all cases less than twofold) in the levels of the phase-II drug-metabolizing enzymes glutathione S-transferase and uridine diphospho-glucuronyltransferase after treatment with inducers cannot explain the total disappearance of DNA adducts. Assays of 5-bromo-2'-deoxyuridine incorporation did not show any induction of DNA synthesis which could explain the decrease in adducts. These results suggest that in vivo 1) increases in CYP1A enzymes by inducers are not correlated with enhanced levels of certain DNA adducts; and 2) phase-II drug metabolizing enzymes are not the main cellular protection pathway for detoxification. An additional mechanism, perhaps also induced by the Ah receptor but highly dependent on the dose of inducer, could be involved in parallel to multidrug resistance (mdr); further experiments are needed to identify this process used by the cell to enhance its protection against toxic or genotoxic effects.
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PMID:Inhibition of 5,9-dimethyldibenzo[c,g]carbazole-DNA adduct formation in mouse liver by pretreatment with cytochrome P4501A inducers in vivo. 988 5

The estrogenic activities of benzo[a]pyrene (B[a]P) and 10 metabolites (1, 3-, 7-, and 9-hydroxy-B[a]P; 4,5-, 7,8-, and 9,10-dihydrodihydroxy-B[a]P; and 1,6-, 3,6-, and 6,12-B[a]P-dione) were investigated. In vitro, B[a]P did not displace tritiated 17beta-estradiol ([3H]E2) from either a bacterially expressed fusion protein consisting of glutathione-S:-transferase linked to the D, E, and F domains of human ERalpha (GST-hERalphadef), or from full-length human ERbeta (hERbeta) at concentrations as high as 60 microM. However, 10 microM B[a]P demonstrated partial agonist activity in human Gal4-ERalphadef and mouse Gal4-ERbetadef reporter gene assays in transiently transfected MCF-7 cells, relative to 10 nM E2. 1-, 3-, 7-, and 9-hydroxy-B[a]P were found to bind to both receptor isoforms, each showing a higher affinity for the beta isoform. At 10 microM the four monohydroxylated metabolites were able to induce Gal4-hERalphadef- and Gal4-mERbetadef-mediated reporter gene expression to levels 20-100% of that caused by 10 nM E2, suggesting that these metabolites, and not the parent compound, induced reporter gene expression following B[a]P treatment of transiently transfected MCF-7 cells. In addition, the effect of B[a]P on two estrogen-inducible end points, uterine weight and lactoferrin mRNA levels, was determined in ovariectomized DBA/2 and C57BL/6 mice. Neither orally administered B[a]P at doses as high as 10 mg/kg body weight nor subcutaneously injected 3- or 9-hydroxy-B[a]P at doses as high as 20 mg/kg induced effects on uterine wet weight or uterine lactoferrin mRNA levels in either strain. These data suggest that B[a]P metabolites that are estrogenic at high concentrations in vitro do not induce estrogenic effects in the mouse uterus.
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PMID:Hydroxylated benzo[a]pyrene metabolites are responsible for in vitro estrogen receptor-mediated gene expression induced by benzo[a]pyrene, but do not elicit uterotrophic effects in vivo. 1115 16

Strains of mice that differ in voluntary alcohol consumption (VAC) are valuable models for the identification of genes involved in the complex etiology of alcohol effects and alcoholism. These mice offer a novel approach to the identification of strain-specific ethanol responsive (SSER) genes in tissues directly involved in alcohol metabolism and preference. We assessed mRNA from the liver and brain from male mice representing C57BL/6J, BALB/c, A/J, and DBA/2J strains following ethanol treatment (chronic ethanol fed liquid diet for 14 days or acute i.p. injection at two doses; 4 g/kg or 8 g/kg), using an expression array containing 588 genes (Clontech #7741-1). The results have identified NADPH cytochrome P450 oxidoreductase, insulin-like growth factor binding protein-1, glutathione S-transferase Mu 1, and cathepsin L as ethanol responsive genes in the liver. Further, we have established that IkB-alpha and clusterin genes in the brain are ethanol responsive, but only at the lower dose of the ethanol challenge. Although a number of other genes showing subtle (<2X) differences across strains and treatment combinations were reproducible in repeated blots, they were not confirmed by still evolving independent technologies of gene specific mRNA quantitation. The results demonstrate that comparative expression studies are an efficient approach to discover interacting gene networks that underlie the etiology of complex phenotypes including response to alcohols.
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PMID:Examination of ethanol responsive liver and brain specific gene expression, in the mouse strains with variable ethanol preferences, using cDNA expression arrays. 1246 48

Effects of tanshinone IIA, an active diterpene quinone of the herbal medicine Salvia miltiorrhiza (Danshen), on cytochrome P450 (CYP), UDP-glucuronosyl transferase (UGT), and glutathione S-transferase (GST) were studied in the arylhydrocarbon (Ah)-responsive C57BL/6J (B6) and nonresponsive DBA/2J (D2) mice. Oral treatment of tanshinone IIA caused a dose-dependent increase of liver microsomal 7-methoxyresorufin O-demethylation (MROD) activity in B6 but not in D2 mice. In B6 mice, tanshinone IIA increased hepatic benzo(a)pyrene hydroxylation (AHH), 7-ethoxyresorufin O-deethylation, MROD, and 7-ethoxycoumarin O-deethylation activities. The levels of Cyp1A2 protein and mRNA were elevated. On the contrary, in D2 mice, tanshinone IIA decreased hepatic AHH and nifedipine oxidation activities and the CYP3A protein level without affecting other activities determined. Cyp1A2 protein and mRNA levels were not affected by tanshinone IIA in D2 mice. Tanshinone IIA had no effects on UGT and GST activities in both B6 and D2 mice. These results demonstrated that induction of CYP1A2 by tanshinone IIA depended on the Ah-responsiveness and occurred at pre-translational level.
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PMID:Induction of CYP1A by a diterpene quinone tanshinone IIA isolated from a medicinal herb Salvia miltiorrhiza in C57BL/6J but not in DBA/2J mice. 1465 77

The liver is the main organ of drug metabolism, but the expression and induction by xenobiotics of drug-metabolizing enzymes is also often observed in extrahepatic tissues. Recently, we reported that lipophilic cytochrome P450 inducers, beta-naphthoflavone (BNF), phenobarbital, and dexamethasone, induced CYP1, CYP2B, and CYP3A enzymes, respectively, in rat epididymal white adipose tissue (WAT) at both mRNA and protein levels. To further confirm the xenobiotic-induced expression of drug-metabolizing enzymes in adipose tissue, we studied the induction of CYP1A1 and other detoxifying enzymes by aryl hydrocarbon receptor (AhR) agonists and antioxidants. BNF increased CYP1A1 mRNA levels in several visceral WATs (epididymal, perirenal, and mesenteric) to a greater degree than in subcutaneous WAT in rats. Using C57BL/6 and DBA/2 mice with different responsiveness to aryl hydrocarbons and detecting cytoplasmic levels of AhR proteins, we have demonstrated that AhR mediates this CYP1A1 induction by BNF in WAT. Moreover, the NF-E2-related factor 2 (Nrf2)/antioxidant responsive element pathway is also functional in WAT, since BNF, which is known to activate both AhR and Nrf2, and antioxidants including tert-butylhydroquinone, 1-chloro-2,4-dinitrobenzene, and menadione induced the expression of Nrf2-target genes (NAD-(P)H:quinone oxidoreductase, glutathione S-transferase A subunits, and heme oxygenase-1) in rats and mice. These results suggest that both AhR and Nrf2 pathways are active in WAT and that lipophilic compounds accumulated in WAT can activate these transcription factors to increase detoxification capability in the tissue.
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PMID:Induction of detoxifying enzymes in rodent white adipose tissue by aryl hydrocarbon receptor agonists and antioxidants. 1658 46

Inorganic arsenic is a human carcinogen to which millions of people are exposed via their naturally contaminated drinking water. Its molecular mechanisms of carcinogenicity have remained an enigma, perhaps because arsenate is biochemically transformed to at least five other arsenic-containing metabolites. In the biotransformation of inorganic arsenic, GSTO1 catalyzes the reduction of arsenate, MMA(V), and DMA(V) to the more toxic +3 arsenic species. MMA(V) reductase and human (hGSTO1-1) are identical proteins. The hypothesis that GST-Omega knockout mice biotransformed inorganic arsenic differently than wild-type mice has been tested. The livers of male knockout (KO) mice, in which 222 bp of Exon 3 of the GSTO1 gene were eliminated, were analyzed by PCR for mRNA. The level of transcripts of the GSTO1 gene in KO mice was 3.3-fold less than in DBA/1lacJ wild-type (WT) mice. The GSTO2 transcripts were about two-fold less in the KO mouse. When KO and WT mice were injected intramuscularly with Na arsenate (4.16 mg As/kg body weight); tissues removed at 0.5, 1, 2, 4, 8, and 12 h after arsenate injection; and the arsenic species measured by HPLC-ICP-MS, the results indicated that the highest concentration of the recently discovered and very toxic MMA(III), a key biotransformant, was in the kidneys of both KO and WT mice. The highest concentration of DMA(III) was in the urinary bladder tissue for both the KO and WT mice. The MMA(V) reducing activity of the liver cytosol of KO mice was only 20% of that found in wild-type mice. There appears to be another enzyme(s) other than GST-O able to reduce arsenic(V) species but to a lesser extent. This and other studies suggest that each step of the biotransformation of inorganic arsenic has an alternative enzyme to biotransform the arsenic substrate.
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PMID:Glutathione-S-transferase-omega [MMA(V) reductase] knockout mice: enzyme and arsenic species concentrations in tissues after arsenate administration. 1693 Jun 57

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