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)

Glutathione S-transferases (GSTs), a family of isoenzymes that play an important role in protecting cells from cytotoxic and carcinogenic agents, can be separated by biochemical and immunologic characteristics into three distinct classes named alpha, mu, and pi. Previous studies have indicated that there is marked heterogeneity in the expression of different GST isoenzymes in different normal and malignant tissues. To better understand the regulation of the human pi class glutathione S-transferase isoenzyme (GST-pi), the tissue distribution of this protein wa studied by an immunohistochemical technique using an anti-GST-pi polyclonal antibody in normal paraffin-embedded human tissues. These studies indicate that there is a broad distribution of GST-pi in normal human tissues and establish a precise localization within the different organs studied. GST-pi was expressed predominantly in normal epithelial cells of the urinary, digestive, and respiratory tracts, suggesting a possible role for GST-pi in detoxication and elimination of toxic substances. Previous studies have indicated that GST-pi and the putative drug efflux pump P-glycoprotein are both overexpressed in multidrug-resistant human breast cancer cells and in xenobiotic resistant preneoplastic rat hyperplastic liver nodules. Results from this study indicate that there are also similarities between the normal tissue distribution GST-pi and that previously reported for mammalian P-glycoprotein, particularly in secretory epithelia. This finding suggests that these two gene products, which have been implicated in the development of resistance to cytotoxic drugs, may be coregulated in normal and malignant cells.
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PMID:An immunohistochemical study of pi class glutathione S-transferase expression in normal human tissue. 197 19

Four novel nontransformed epithelial cell lines, isolated from fetal or adult mouse liver, were tested: (a) to determine the profile of xenobiotic metabolizing enzymes; (b) to evaluate the inducibility of the polysubstrate (cytochrome P-450-dependent) monooxygenase system by various classes of inducers; and (c) to assess the capacity of the cells to metabolize structurally different procarcinogens. With regard to the phase I pathway, the cells expressed various P-450 (class IA, IA2, IIB, IIE1, IIIA) and flavin adenine dinucleotide-containing monooxygenase-dependent bio-transformation enzyme activities at levels (in lines C2.8 and C6) comparable with those present in murine adult liver preparations. The expression of various P-450s was demonstrated also by immunoprecipitation assays using rabbit polyclonal antibodies. For the phase II pathway, cells expressed substantial levels of glutathione S-transferase, glutathione S-epoxide transferase, and UDP-glucuronosyltransferase. Low expression of epoxide hydrolase was observed. Induction of P-450 function by sodium phenobarbital, beta-naphthoflavone, isosafrole, ethanol, and pregnenolone 16 alpha-carbonitrile, monitored using specific P-450-linked activities, was considerably elevated (over 5-fold in class IIB with the C2.8 and C6 cell lines). The most competent C2.8 and C6 cell lines were able to activate benzo(a)pyrene, cyclophosphamide, dimethylnitrosamine, diethylstilbestrol, and 2-naphthylamine as shown by the significantly increased frequencies of mitotic gene conversion, mitotic crossing-over, and point [reverse] mutation in the diploid D7 strain of Saccharomyces cerevisiae after 4 [cyclophosphamide], 24 [benzo(a)pyrene,2-naphthylamine, dimethylnitrosamine] or 48 [diethylstilbestrol], h of exposure in the presence of 3 x 10(6) cells/flask. The degree of conservation and the inducibility of representative oxidative and postoxidative reactions in the novel epithelial cell lines C2.8 and C6, together with their ability to activate a wide spectrum of procarcinogens, offers a means to study the potential of chemicals for inducing DNA damage in short-term genotoxicity testing. In addition the cells may be suitable for analyzing the metabolic disposition of compounds and the multistage process of carcinogenesis.
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PMID:Expression and inducibility of drug-metabolizing enzymes in novel murine liver epithelial cell lines and their ability to activate procarcinogens. 198 92

Study of oxidative and non-oxidative xenobiotic-metabolizing enzymes was undertaken in microsomal and cytosolic fractions of two human livers, 10 individual and several pooled samples of human respiratory nasal mucosa obtained by surgical operation of male and female patients affected by hypertrophy of the inferior turbinates. The purity of nasal microsomes was checked by electron microscopy and marker enzyme assay. The pooled samples of respiratory nasal epithelium contained, relative to liver, a low amount of cytochrome P450 (about 25 pmol/mg protein) and associated biotransformation activities, and a low level of other components of the mixed-function oxidase system such as cytochrome b5, NADH and NADPH-cytochrome c reductase however the NADH-cytochrome b5 reductase activity was comparable to that of liver. The P450-dependent monooxygenase activities such as ethoxycoumarin O-deethylase, ethoxyresorufin O-deethylase and the dimethylnitrosamine N-demethylase were found in nearly all nasal microsomal specimens. The aniline hydroxylase and the aminopyrine or hexamethylphosphoramide N-demethylases were detected only in the pooled nasal samples. With regard to the non-oxidative enzymes, the activities of glutathione S-transferase, DT-diaphorase, epoxide hydrolase, UDP-glucuronyl-transferase, carbonyl reductase, benzaldehyde and propionaldehyde dehydrogenases, were investigated both in the individual and pooled nasal tissues and livers. These activities were similar in nasal and liver tissue, except for UDP-glucuronyltransferase which was not detected in nasal mucosa. The present findings demonstrate that the respiratory section of human nose contains a wide array of oxidative and non-oxidative enzymes, which could play a crucial role in the bioactivation or detoxication in situ of inhaled xenobiotics.
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PMID:Xenobiotic-metabolizing enzymes in human respiratory nasal mucosa. 198 28

The promotion-suppressing ability of two antioxidants was measured to determine the role of oxidative stress in hepatocarcinogenesis. Four-day-old female F344/N rats were dosed with diethylnitrosamine (10 mg/kg). After weaning, they were fed semipurified diets with and without 500 ppm alpha-tocopherol, or the same two diets containing 500 ppm phenobarbital, or 5,000 ppm butylated hydroxyanisole (BHA) for 3 or 11 months. By 11 months, phenobarbital-fed groups had eaten 30% more than other groups did (p less than 0.05), suggesting a role for increased caloric intake in phenobarbital promotion. Phenobarbital and BHA significantly reduced body weights and increased liver weights compared with control rats. After three months, alpha-tocopherol significantly suppressed mean volume of placental glutathione S-transferase (PGST)-positive altered hepatic foci (AHF), regardless of xenobiotic treatment. Phenobarbital increased and BHA decreased the numbers of AHF compared with those of the control group. After 11 months, mean focal volume was significantly suppressed by BHA compared with that of the control group, and phenobarbital increased the total volume of AHF [PGST-positive plus gamma-glutamyltransferase (GGT)-positive AHF] compared with rats fed either control or BHA diets. BHA treatment also increased hepatic glutathione levels by 40% compared with control and rats fed phenobarbital. In conclusion, alpha-tocopherol had only a slight, early effect to suppress promotion of hepatocarcinogenesis. BHA suppressed some indices of promotion at both times and increased hepatic glutathione; however, BHA's toxicity (which suppressed body weight) may also be a factor in its supposable promotion-inhibitory effects.
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PMID:Effects of alpha-tocopherol, phenobarbital, and butylated hydroxyanisole during promotion of diethylnitrosamine-initiated rat hepatocarcinogenesis. 201 99

Mouse glutathione S-transferase GST YfYf (an orthologue of GST P or 7-7 in the rat and of GST pi in the human) was found to have a subunit Mr of 24,500 and cross-reacted with anti-(rat GST YfYf). N-Terminal analysis showed a close similarity to the rat, human and bovine orthologues. On isoelectric focusing the native enzyme had a pI of 8.3 and a pI of 7.3 in the presence of urea. Initial-rate studies with 1-chloro-2,4-dinitrobenzene (CDNB) and GSH as substrates and inhibition studies with the product of the enzyme-catalysed conjugation of CDNB and GSH, S-(2,4-dinitrophenyl)glutathione, indicated a rapid-equilibrium random mechanism for the enzyme. The diuretic drug ethacrynic acid was found to be simultaneously a competitive inhibitor and an uncompetitive activator of the enzyme (with CDNB as the substrate whose concentration was varied). By using a computer simulation program (EKPLOT) a model was developed that would explain the experimental data. It is proposed that ethacrynic acid can compete with CDNB at the active site but simultaneously bind to an allosteric site on the enzyme, causing an elevation in the Vmax. for the conjugation of CDNB and GSH. The implications of such an activation mechanism for an enzyme potentially conjugating a range of xenobiotic compounds are discussed.
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PMID:The initial-rate kinetics of mouse glutathione S-transferase YfYf. Evidence for an allosteric site for ethacrynic acid. 203 47

Metabolism of alkyl halides and some organophosphorous compounds by glutathione S-transferases (EC 2.5.1.18) leads to formation of an S-alkylglutathione as a common product. We have developed an HPLC assay for formation of S-methylglutathione and S-ethylglutathione that is applicable to measuring enzyme activity toward a variety of xenobiotic substrates. The conjugates are derivatized with 1-fluoro-2,4-dinitrobenzene to form the corresponding N-2,4-dinitrophenyl derivatives, which are then separated by reverse-phase HPLC with gradient elution. The utility of the method is illustrated by the use of partially purified preparations of rat liver glutathione S-transferases and several prototypic substrates including iodomethane, iodoethane, dichlorvos, and methyl parathion. The limit of detection is about 50 pmol of N-(2,4-dinitrophenyl)-S-alkylglutathione. Advantages of the method over other assays of S-alkyl transferase activity are discussed.
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PMID:Analysis of glutathione S-transferase-catalyzed S-alkylglutathione formation by high-performance liquid chromatography. 204 34

Male mice were treated (i.p.) for 3 days with 15 different environmentally encountered epoxides, and the effects of these compounds on liver microsomal and cytosolic epoxide hydrolase (mEH and cEH), glutathione S-transferase (mGST and cGST) and carboxylesterase (mCE) activities were determined. The epoxides included the pesticides: heptachlor epoxide, dieldrin, tridiphane, and juvenoid R-20458; the natural products: disparlure, limonin, nomilin, and epoxymethyloleate; the endogenous steroids: lanosterol epoxide, cholesterol-alpha-epoxide, and progesterone epoxide; and the industrial or synthetic epoxides: epichlorohydrin, araldite, trans-stilbene oxide, and 4'-phenylchalcone oxide. The pesticide epoxides were the most effective inducers of liver weight, microsomal protein, and the enzyme activities measured, with mEH and cEH activities towards cis-stilbene oxide (mEHcso and cEHcso), cGST activities towards four of five substrates, and mCE towards clofibrate (mCEclof) and p-nitrophenylacetate (mCEpna) increased following treatment with most of the pesticides. The synthetic epoxides increased some of the same activities, while the natural products, except for increases in cGST activities, and endogenous steroid epoxides were generally not inductive. cEH activity towards trans-stilbene oxide (cEHtso) was increased only following treatment with the peroxisome proliferator, tridiphane, but decreased following treatment with several of the epoxides, while microsomal cholesterol epoxide hydrolase (mEHchol) was increased only moderately by disparlure. Microsomes could effectively conjugate glutathione to chlorodinitrobenzene (mGSTcdnb) and cis-stilbene oxide (mGSTcso). These two activities were differentially induced by a few of the epoxides, suggesting that they may be selective substrates for different isozymes of mGST. Correlation coefficients were determined for the relative response of liver weight, subfraction protein, and enzyme activities. A relatively high correlation was found between the response of liver weight and cytosolic hydrolysis of trans-stilbene oxide (r = 0.73) and cis-stilbene oxide (r = 0.62), and cytosolic glutathione conjugation of dichloronitrobenzene (r = 0.66) and trans-stilbene oxide (r = 0.75). In addition, relatively high correlations were found between the different cGST activities, in particular for dichloronitrobenzene with trans-stilbene oxide (r = 0.89). These studies show that there exists a wide variation in the response of xenobiotic-metabolizing enzymes to environmentally encountered epoxides and that a fairly strong correlation exists between the increases in liver size and increases in certain cytosolic enzyme activities; they also suggest further studies concerning the possibility of an additional isozyme of mGST.
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PMID:Effects of environmentally encountered epoxides on mouse liver epoxide-metabolizing enzymes. 204 52

The induction of oxidation and conjugation enzymes, the scavenging of carcinogen electrophiles, and the inhibition of aflatoxin B1 (AFB1) activation were examined as possible mechanisms of anti-carcinogenesis by indole-3-carbinol (I3C). Liver microsomal 7-ethoxycoumarin O-deethylase and 7-ethoxyresorufin O-deethylase activities were not induced significantly in rainbow trout fed diets containing 500-2000 ppm I3C for 8 days compared to trout fed the control diet. Furthermore, no detectable changes in the specific contents of cytochrome P-450 isozymes LM2 and LM4b, as measured by Western-blotting and immunoquantitation, were found in liver microsomes following dietary I3C administration. Dietary I3C had no significant effect on liver microsomal uridine diphosphate-glucuronyl-transferase activity, measured using the substrates 1-naphthol and testosterone, or on cytosolic glutathione S-transferase activity, measured using the substrate styrene oxide. The ability of I3C or its acid reaction products (RXM; generated by the reaction of I3C with HCl) to act as scavengers for the direct alkylating agent AFB1-8,9-Cl2 was examined. Addition of I3C or RXM to in vitro incubations did not inhibit the covalent binding of AFB1-8,9-Cl2 to calf thymus DNA. Kinetic analyses of microsome-mediated binding of AFB1 to DNA in vitro indicated that RXM inhibited the metabolic activation of AFB1. RXM increased the apparent Km for the AFB1-DNA binding reaction without changing the associated Vmax; the apparent Km values at 0, 3.5, 35, and 350 microM RXM were 35, 38, 66, and 86 microM for trout liver microsomes. RXM also inhibited the activation of AFB1 by rat liver microsomes, but I3C was not an effective inhibitor against AFB1-DNA binding mediated by either rat or trout liver microsomes. The results of the present study indicate that inhibition of microsome-activated AFB1 binding to DNA by I3C products may be of significant importance in I3C inhibition of hepatocarcinogenesis in trout and other species. The inhibition of carcinogen activation by I3C is contrasted with the mechanism of anti-carcinogenesis by beta-naphthoflavone, which involves induction of xenobiotic metabolizing enzymes.
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PMID:Mechanisms of anti-carcinogenesis by indole-3-carbinol. Studies of enzyme induction, electrophile-scavenging, and inhibition of aflatoxin B1 activation. 210 94

The nicotinamide administration to rats (50 mg/kg, subcutaneously, over 5 days) increased the concentration of liver cytochrome b5, the activities of cytosol and microsomal glutathione S-transferase, UDP-glucuronosyltransferase and urinary excretion of bound glucuronic acid by 26.7, 33.1, 33.3, 53.0 and 31.0%, respectively. The chloral hydrate-induced sleep time in mice was reduced by 65%. Under similar experimental conditions the administration of equimolar amounts of diethylamide of nicotinic acid (75 mg/kg) exerted a more pronounced enzyme-stimulating effect. The cytochrome P-450 concentration, the activities of cytosol and microsomal glutathione S-transferase, UDP-glucuronosyltransferase as well as the sulphobromophthalein elimination from blood plasma and urinary excretion of bound glucuronic acid were increased by 37.0, 33.1, 54.6, 80.5, 24.5 and 49.0%, whereas the chloral hydrate-induced sleep time decreased by 75%. The nicotinamide and diethylamide of nicotinic acid stimulating effects on xenobiotic biotransformation in rat liver are assumed to be due to enhanced NADPH, glutathione and UDP-glucuronic acid biosynthesis as well as their antioxidant properties.
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PMID:[A comparative study of the effects of nicotinamide and diethylnicotinamid on hepatic monooxygenase, glucuronyl and glutathione conjugating systems]. 215 Jun 2

We have identified a region in the 5' flanking sequence of the glutathione S-transferase (RX:glutathione R-transferase, EC 2.5.1.18) Ya subunit gene that contains a unique xenobiotic-responsive element (XRE). The regulatory region spans nucleotides -722 to -682 of the 5' flanking sequence and is responsible for part of the basal level as well as inducible expression of the Ya subunit gene by planar aromatic compounds such as beta-naphthoflavone (beta-NF) and 3-methyl-cholanthrene. The DNA sequence of this region (beta-NF-responsive element) is distinct from the DNA sequence of the XRE found in the cytochrome P-450 IA1 gene. In addition to the region containing the beta-NF-responsive element, two other regulatory regions of the Ya subunit gene have been identified. One region spans nucleotides -867 to -857 and has a DNA sequence with identity to the hepatocyte nuclear factor 1 recognition motif found in several liver-specific genes. The second region spans nucleotides -908 to -899 and contains a DNA sequence with identity to the XRE found in the cytochrome P-450 IA1 gene. The XRE sequence also contributes to part of the responsiveness of the Ya subunit gene to planar aromatic compounds. Our data suggest that regulation of gene expression by planar aromatic compounds can be mediated by a DNA sequence that is distinct from the XRE sequence.
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PMID:Regulation of glutathione S-transferase Ya subunit gene expression: identification of a unique xenobiotic-responsive element controlling inducible expression by planar aromatic compounds. 216 79


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