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 mechanism of DDB (dimethyl 4,4'-dimethoxy-5,6,5',6'-dimethylenedioxy biphenyl-2,2'-dicarboxylate) prevention of aflatoxin B1 (AFB1)-induced hepatotoxicity in rats has been investigated. Pretreatment of DDB (200 mg/kg) daily for 4 days significantly suppressed (P < 0.05) the AFB1-induced hepatic damage as evidenced by the increase of serum marker enzymes. DDB induced rat hepatic cytochrome P450IA1, IIB1 and glutathione S-transferase activities. The hepatic microsomes derived from DDB treated rats increased the mutation frequency of AFB1 and enhanced the binding of AFB1 to DNA. However, the hepatic S9 fraction from DDB treated rats showed a protective effect against AFB1-induced damage. It is concluded that the protective effect of DDB against AFB1-induced damage might be mediated by the induced glutathione S-transferase activity and not from the accelerated hepatic cytochrome P450 detoxification pathway of AFB1 which was previously believed.
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PMID:Mechanistic study of the inhibition of aflatoxin b1-induced hepatotoxicity by dimethyl 4,4'-dimethoxy-5,6,5',6'-dimethylenedioxy biphenyl-2, 2'-dicarboxylate. 788 30

The inducing activities of two alkaloids, strychnine and brucine, on the hepatic drug metabolizing enzymes were studied in rats. Administration of strychnine in the drinking water to rats significantly increased the hepatic microsomal activities of benzphetamine N-demethylation, strychnine 2-hydroxylation and testosterone hydroxylations at positions 16 alpha and 16 beta. These results together with that of immunostaining of microsomal proteins revealed that strychnine is a potent inducer of CYP2B1 and 2B2. The comparable induction of CYP2B1/2 was observed by brucine treatment with less toxic effect. Although this inducer increased CYP2B cytochrome P450s (P450s) to the maximum levels after 4 consecutive days of administration, the maximal increase by strychnine was attained after 3 days of administration. Immunoblotting experiment suggested that significant proteolysis of CYP2B1 occurs during treatment by strychnine and brucine. These alkaloids exhibited no ability to induce the activities of testosterone hydroxylations at positions 2 alpha, 6 beta and 7 alpha, benzo[a]pyrene 3-hydroxylation and aniline hydroxylation. In addition to the CYP2B P450, strychnine and brucine induced glutathione S-transferase toward 1-chloro-2,4-dinitrobenzene and UDP-glucuronosyltransferase toward 4-nitrophenol. On the other hand, the glucuronidations of 4-hydroxybiphenyl and morphine were not enhanced by alkaloid treatments. These results indicated that strychnine and brucine cause phenobarbital-like induction of the P450 enzyme, but show a different profile from phenobarbital in the induction of UDP-glucuronosyltransferase.
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PMID:Strychnine and brucine as the potent inducers of drug metabolizing enzymes in rat liver: different profiles from phenobarbital on the induction of cytochrome P450 and UDP-glucuronosyltransferase. 790 30

The relative roles of hepatitis B virus (HBV) and aflatoxin and their possible mechanism of interaction in the etiopathogenesis of hepatocellular carcinoma (HCC) are not understood. One hypothesis is that viral infection and associated liver injury alter expression of carcinogen-metabolizing enzymes. We tested this hypothesis in an HBV-transgenic mouse model in which a synergistic interaction occurs between aflatoxin B1 (AFB1) and HBV in the induction of HCC (Sell et al., Cancer Res 51:1278-1285, 1991). In this transgenic mouse lineage, overproduction of the HBV large envelope protein results in progressive liver cell injury, inflammation, and regenerative hyperplasia. Initially, two cytochrome P450s of importance in AFB1 metabolism in the mice were identified, namely Cyp2a-5 and Cyp3a, using specific antibodies and chemical inhibitors. The expression of these P450 isoenzymes and an alpha-class glutathione S-transferase (GST) isoenzyme, YaYa, were examined. Increased expression and altered distribution of Cyp2a-5 were demonstrated, by immunohistochemical analysis, to be associated with the development of liver injury in mice and to increase with age between 1 and 12 months. Cyp3a expression was also increased in HBV-transgenic mice, but the increase was not as clearly related to age. GST YaYa levels were the same in HBV-transgenic mice and their nontransgenic littermates of all ages. These results show that expression of specific cytochrome P450s is altered in association with overexpression of HBV large envelope protein and liver injury in this model. This may have general relevance to human HCC, the etiology of which is associated with a diverse range of liver-damaging agents.
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PMID:Induction of specific cytochrome P450s involved in aflatoxin B1 metabolism in hepatitis B virus transgenic mice. 791 95

The murine aromatic hydrocarbon ([Ah]) gene battery consists of at least six genes that code for two functionalizing (Phase I) enzymes and four non-functionalizing (Phase II) enzymes. These enzymes are induced by compounds such as aromatic hydrocarbons and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) that bind to the cytosolic Ah receptor protein. Studies in rodents indicate that certain enzymes of this battery, namely cytochrome P4501A1 (CYP1A1), UDP-glucuronosyltransferase (UGT1*06) and NAD(P)H: quinone acceptor oxidoreductase (NMO1) are induced by the synthetic antioxidant 5,10-dihydroindeno[1,2-b]indole (DHII). The induction of [Ah] gene battery enzymes and the levels of reduced glutathione (GSH) were examined in mouse Hepa-1c1c7 hepatoma wild-type cells (wt), a CYP1A1 metabolism-deficient mutant (c37) and an Ah receptor nuclear translocation-defective mutant (c4). DHII and TCDD increased the activities of ethoxyresorufin O-deethylase, an indicator of CYP1A1 activity, as well as NMO1, UGT1*06, cytosolic aldehyde dehydrogenase class 3 and glutathione S-transferase form A1 in wt cells, but had little or no induction effect in c37 or c4 cells. DHII and TCDD differed in their effects on GSH levels; while DHII increased GSH levels 3-fold in wt, but not at all in c37 or c4 cells, TCDD had no effect on GSH levels in any cell type. However, GSH levels were enhanced in both wt and c4 cells by tert-butyl hydroquinone (TBHQ). L-Buthionine S,R-sulfoximine, an inhibitor of gamma-glutamylcysteine synthetase, prevented DHII-induced increases in wt cell GSH. The increase in GSH levels occurred after 8 h, while the induction of enzymes occurred within 4 h. The induction of the higher GSH levels in wt cells by DHII and TBHQ correlated with increases in intracellular levels of the GSH precursor thiol cysteine, as well as with increased activities of gamma-glutamylcysteine synthetase, the rate-limiting enzyme of GSH synthesis. However, TBHQ-mediated GSH increases in c4 cells were accompanied by increased gamma-glutamylcysteine synthetase activity with no change in intracellular cysteine concentration. The results suggest that DHII induction of [Ah] gene battery enzymes requires a functional Ah receptor, but not the functional gene product CYP1A1. Furthermore, metabolism, possibly via CYP1A1, appears to be required for DHII to enhance intracellular levels of cysteine and GCS activity that result in higher GSH levels.
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PMID:Regulation of [Ah] gene battery enzymes and glutathione levels by 5,10-dihydroindeno[1,2-b]indole in mouse hepatoma cell lines. 795 76

Fischer 344 rats were fed a low-fat high carbohydrate (HC) diet, an isocaloric fat-containing (IC) diet, a hypercaloric fat-containing (HF) diet or a commercial rodent chow. The effects of these diets were studied on the binding of aflatoxin B (AFB1) to exogenous DNA, and on the activities of hepatic glutathione transferases (GSTs), cytochromes 2B1 and 1A1. Microsome-mediated binding of [3H]AFB1 to exogenous DNA was significantly lower in the HC-rats than in the chow and IC-fed rats. No significant differences were noted between HF and either HC or IC rats. There was no significant difference in hepatic GST activity of rats fed the different diets. Our results suggest that high-carbohydrate low-fat diets reduce microsome mediated epoxidation of AFB1 to a larger extent than high-fat diets. In general, high fat diets increased cytochrome 1A1 and 2B1 activities relative to chow and high carbohydrate diet. This suggests greater detoxification of AFB1, thus reducing the amount of AFB1 available for hepatic macromolecular binding.
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PMID:The influence of dietary fat on hepatic bioactivation of aflatoxin B1 in rats. 800 77

In this study, Morris hepatoma 7800C1 cells (from rat) were exposed to 500 microM perfluorooctanoic acid (PFOA) in the culture medium for 7 days. This treatment resulted in inductions of catalase, lauroyl-CoA oxidase (which catalyzes the first step in peroxisomal beta-oxidation) and of cytochrome P-450IVA (specialized for omega- and omega-1 hydroxylation of fatty acids). Northern blot analysis revealed that the level of mRNA for peroxisomal fatty acyl-CoA oxidase was enhanced in cells treated with PFOA. Inductions of the enzymes mentioned above are generally connected with peroxisome proliferation in vivo. This work also includes a comparison between the activities of catalase, lauroyl-CoA oxidase, DT-diaphorase and glutathione transferase in rat liver homogenate and 7800C1 cells in order to investigate to what extent this cell line differs from the situation in vivo. The findings suggest that the cells selectively lost most of their peroxisomes during transformation into a cell line and subsequent propagation. The control activities of catalase and lauroyl-CoA oxidase (marker enzymes for peroxisomes) were only about 2% of the corresponding enzyme activities in rat liver. In addition, a morphological study revealed that the frequency of peroxisomes in 7800C1 cells is very low. The control activity of glutathione transferase in 7800C1 cells was 11% of the corresponding activity in rat liver homogenate, whereas the level of DT-diaphorase was virtually the same in 7800C1 cells as in rat liver. Electron microscopic investigation of the control cultures revealed all signs of viable cells, with well-developed cell organelles. Treatment of 7800C1 cells with 500 microM PFOA has little effect on cellular morphology.
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PMID:Effects of perfluorooctanoic acid--a potent peroxisome proliferator in rat--on Morris hepatoma 7800C1 cells, a rat cell line. 801 82

Biochemical and histochemical studies were conducted in aflatoxin B1-induced liver tumors in adult rainbow trout. Specific activities of the phase I enzymes, ethoxyresorufin-O-deethylase (EROD), microsomal and cytosolic epoxide hydrolase (mEH and cEH), aldehyde dehydrogenase (ALDH) and DT-diaphorase, and the phase II enzymes, gamma-glutamyltransferase (gamma-GT), glutathione transferase (GST) and uridine diphosphoglucuronyl transferase (UDPGT) were measured. Cryostat sections of tumor and surrounding liver from the same cohorts were analyzed immunohistochemically for cytochrome P450IA1 and histochemically for ALDH (benzaldehyde and hexanal), DT-diaphorase, gamma-GT and uridine diphosphoglucuronyl dehydrogenase (UDPGdH). In tumor tissues, the largest biochemical changes were found with benzaldehyde dehydrogenase, where activity increased from undetectable levels to 7.4 nmol/min/mg protein, and gamma-GT, where activity increased 12-fold over controls. Increases in other enzymes ranged from 1.26 to 2.84 times that of control liver, except EROD, which decreased, and cEH and mEH, which were unchanged. Histochemical analyses showed the induction of ALDH, gamma-GT, DT-diaphorase and UDPGdH, and the depression of cytochrome P450IA1 in hepatic neoplasms. In addition, marker enzyme histochemistry of neoplasms revealed heterogeneous populations of hepatocytes and absence of necrotic areas.
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PMID:Biochemical and histochemical properties of hepatic tumors of rainbow trout, Oncorhynchus mykiss. 809 46

1. Previous studies have demonstrated the presence of phase I mixed-function oxidases (cytochrome P450-dependent) and phase II conjugation (glutathione S-transferase) enzymes in camel liver. This study represents further characterisation of these drug metabolising enzyme systems in camel liver by comparing their catalytic and immunochemical properties with enzymes of rat and mouse liver. 2. Using the specific P450 substrate aniline, the microsomal aniline hydroxylase activity of camel liver was found to be significantly lower than that of rat and mouse. The Km values of the enzyme for aniline was similar in rat and camel liver; however, the Vmax for camel liver enzyme was 50% of the rat liver enzyme. Aminopyrene N-demethylase activity in camel liver, was lower than that of rat but higher than in mouse. Microsomal NADPH cytochrome C-reductase and NADPH-supported lipid peroxidation activities were similar in all three species. 3. The cytosolic phase II conjugation enzyme glutathione S-transferase and glutathione peroxidase activities in camel liver were markedly lower than those of rat and mouse enzymes. However, GSH concentration was similar in all three species. 4. Immunodot blot and Western blot analysis of liver cytosols, using antibodies to specific GST isoenzymes, have shown that camel liver like mouse and rat, expresses predominantly the Alpha and Mu classes of GST. GST Pi on the other hand, was abundant in mouse liver and was underexpressed in camel and rat liver. 5. Our results demonstrate that there are multiple forms of phase I (P450) and phase II (GST) enzymes in camel liver and that they are comparable with the drug metabolising enzymes of rat and mouse.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Drug and xenobiotic metabolising enzymes in camel liver: multiple forms and species specific expression. 809 48

Anthraquinone dyes are utilized by the military in colored-smoke grenades. During production, workers in munitions plants may be exposed to fugitive emissions of these dyes or mixtures thereof. The effects of a prototype violet dye mixture (VDM) consisting of Disperse Red 11 (DR11), [1,4-diamino-2-methoxy-anthraquinone] and Disperse Blue 3 (DB3) [1-methylamino-4-hydroxyethylamino-anthraquinone] on F344 male and female rats have been investigated. Acute 1-day inhalation exposures (6 hr) to VDM were conducted at 1000, 300, 100, 70, 40, and 10 mg/m3, with an additional exposure to 40 mg/m3 6 hr/day for 5 days; 4.22 +/- 2.1 microns (MMAD +/- delta g). Lung burdens of dye, general histopathology, and/or liver function were evaluated at 0, 3, and 7 days postexposure. Unexpected lethality due to severe liver damage was observed with acute exposures of > or = 300 mg/m3 and in the 5-day 40 mg/m3 exposures. Centrilobular degeneration and necrosis of liver cells was concentration-dependent with inhalation of VDM > or = 40 mg/m3. In addition, nasal olfactory epithelium exhibited degeneration and necrosis with acute exposures > or = 10 mg/m3. Lung instillations at 250, 500, and 1000 micrograms of the VDM revealed no lung or liver toxicity. Because per os exposure due to preening was suspected as a major exposure route, a gavage study with the VDM and its two component dyes DR11 and DB3 (800 mg/kg) was undertaken. One day following gavage with DR11 or DB3, serum enzymes indicative of liver toxicity (LDH, SGPT, SDH, and ICDH) were slightly elevated (1-6x control). However, rats gavaged with VDM had serum enzyme levels 10-100x control by Day 1 after gavage, indicating acute liver toxicity. Activities of liver enzymes involved in xenobiotic and glutathione metabolism were also acutely affected. All of the dyes caused various degrees of induction of glucose-6-phosphate dehydrogenase, glutathione reductase, glutathione peroxidase, and nonprotein sulfhydryls. The enzymes involved in xenobiotic metabolism (glutathione S-transferase, NADPH cytochrome-c reductase, and P450) were also elevated by the two component dyes, in contrast to their significant depression with VDM treatment. The similarity between the liver and olfactory epithelium effects of these compounds and the lack of pulmonary tissue effects is not fully understood, but the interaction of the individual dyes as VDM emphasizes the need to assess chemicals such as the anthraquinones as their likely-to-be-encountered mixtures.
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PMID:Toxicity of an anthraquinone violet dye mixture following inhalation exposure, intratracheal instillation, or gavage. 812 3

The binding of the cytochrome-c derived haem peptides microperoxidase-8, -9, and -11 (MP-8, -9, and -11) to the human erythrocyte glutathione S-transferase rho (GST-p) enzyme is demonstrated. Inhibition by the haem peptides of the enzymic conjugation of glutathione (GSH) with the electrophilic cosubstrate 1-chloro-2, 4-dinitrobenzene (CDNB) is mixed-type with respect to CDNB, and Ki, the inhibition constant, increases with increasing length of the peptide chain. The results obtained here for the GST-p are compared to those published recently for the previously-supposed identical isoenzyme human placental GST-pi.
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PMID:Haem peptide/protein interaction. Part 6: The kinetic mechanisms of the interactions with, and inhibition of enzymic activity of the human erythrocyte glutathione S-transferase isoenzyme rho (p), by haem octa-, nona-, and undecapeptides MP-8/-9/-11. 813 52


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