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)

Metabolism of methylene chloride, or dichloromethane (DCM), plays a key role in determining the kinetics and carcinogenicity of the halocarbon. The objectives of this study were: to evaluate and optimize the vial equilibration technique, originally described by Sato and Nakajima (1979a), in order to characterize the hepatic metabolism of DCM by Sprague-Dawley rats; to employ different hepatic microsomal preparations to examine buffer effects on DCM metabolism; and to assess the relative importance and metabolic constants of the mixed-function oxidase (MFO) and glutathione (GSH) S-transferase (GST) metabolic pathways. A crude liver homogenate (20% W/V) was prepared from perfused livers of male Sprague-Dawley (S-D) rats (275-325 g). A 30% glycerol buffer was found to significantly inhibit DCM metabolism, while 0.25 M sucrose buffer containing 10 mM EDTA and 1.15% KCl did not. DCM was incubated with the liver 10,000 g supernatant or microsomes and cofactors in sealed headspace vials. Disappearance of DCM, as a measure of the chemical's metabolism, was monitored by headspace gas chromatography. Different trials were conducted to elucidate time-, enzyme-, and substrate-activity relationships. The scaled-up K(m) and Vmax values for the microsomal fraction were quite similar to optimized in vivo values reported by other investigators. In the current study, DCM appeared to be metabolized preferentially by cytochrome P450 IIE1, since substrates (e.g., pyrazole, ethanol, and glycerol) for this isozyme completely inhibited DCM metabolism. Thus, glycerol should not be used as a P450 stabilizer for preparation or storage of microsomes. Phorone pretreatment caused marked hepatic GSH depletion, but had little effect on the overall rate of DCM metabolism. Quantitatively, the GST pathway in the cytosol played a very minor role in DCM metabolism. It was not possible to accurately calculate metabolic constants for this pathway in S-D rats. The vial equilibration technique, as described here, is a relatively simple and reliable method, which should be broadly applicable for measuring the microsomal metabolism of DCM and other VOCs.
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PMID:Use of the vial equilibration technique for determination of metabolic rate constants for dichloromethane. 880 40

Tobacco is responsible for 80 to 90% lung cancer cases in industrialized countries. However, genetic factors are likely to be involved in lung cancer susceptibility. Some degree of familial aggregation of lung cancer is evidenced in most family studies. On the other hand, many tobacco carcinogens are metabolised by enzymes of the P450 cytochrome family. Two enzymes of cytochrome P450, CYP1A1 and CYP1A2, are inducible by tobacco carcinogens, and animal studies evidenced a genetic polymorphism of CYP1A1 associated with tumour occurrence after administration of a polycyclic aromatic hydrocarbon. In humans, an association between lung cancer and some P450 polymorphisms (CYP1A1, CYP2D6, CYP2E1) was suggested but the results of epidemiologic studies are discordant and difficult to interpret. In addition, there is a polymorphism of glutathione S-transferase isoenzyme (GSTM1) involved in carcinogen elimination; an association between this polymorphism and lung cancer has also been reported. Further studies on combined effects of these polymorphisms should allow an identification of sub-groups of individuals at high risk of lung cancer.
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PMID:[Susceptibility to bronchial cancer: an example of genetic-environmental interaction]. 883 May 63

Human bronchial epithelial cells (BEC), a primary defense against inhaled materials, are the progenitor cells for bronchogenic carcinomas and have important metabolic capabilities. We used reverse transcriptase-polymerase chain reaction (RT-PCR) to identify xenobiotic metabolism enzymes expressed in primary BEC and alveolar macrophages (AM) of non-smoking volunteers. Cytochromes P450 (CYP) 1A1, 1B1, 2B7, 2E1, and 4B1 and microsomal epoxide hydrolase (mEH) were expressed in BEC but not AM. CYP2F1 was expressed in BEC, but it was expressed at barely detectable levels or not at all in AM. NADPH oxidoreductase (NADPH OR), microsomal glutathione transferase (GST 12), glutathione transferase mu, phenol sulfotransferase (PST), thermolabile phenol sulfotransferase (TL PST), and the clara cell-specific gene, CC10 were expressed in both BEC and AM. CYP3A4 and glucuronosyl transferases-1 and 2 were not expressed in either BEC or AM. In contrast to primary BEC, of the genes evaluated, the immortalized human bronchial epithelial cell line BEP2D constitutively expressed only CYP1A1, CYP2E1, NADPH OR, glucuronosyl transferase 1, GST 12, GST mu, PST, TL PST, and CC10. The loss of xenobiotic metabolism enzyme gene expression in the BEP2D cell line may result from either reduced exposure to inducing agents, or loss of differentiative characteristics in culture. It is clear from the data comparing BEC and AM that there are important intertissue differences in expression of xenobiotic metabolism enzymes.
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PMID:Xenobiotic metabolism enzyme gene expression in human bronchial epithelial and alveolar macrophage cells. 884 77

Despite the fact that Papilio glaucus and Papilio polyxenes share no single hostplant species, both species feed to varying extents on hostplants that contain furanocoumarins. P. glaucus contains two nearly identical genes, CYP6B4v2 and CYP6B5v1, and P. polyxenes contains two related genes, CYP6B1v3 and CYP6B3v2. Except for CYP6B3v2, the substrate specificity of which has not yet been defined, each of the encoded cytochrome P450 monooxygenases (P450s) metabolizes an array of linear furanocoumarins. All four genes are transcriptionally induced in larvae by exposure to the furanocoumarin xanthotoxin; several are also induced by other furanocoumarins. Comparisons of the organizational structures of these genes indicate that all have the same intron/exon arrangement. Sequences in the promoter regions of the P. glaucus CYP6B4v2/CYP6B5v1 genes and the P. polyxenes CYP6B3v2 gene are similar but not identical to the -146 to -97 region of CYP6B1v3 gene, which contains a xanthotoxin-responsive element (XRE-xan) important for basal and xanthotoxin-inducible transcription of CYP6B1v3. Complements of the xenobiotic-responsive element (XRE-AhR) in the dioxin-inducible human and rat CYP1A1 genes also exist in all four promoters, suggesting that these genes may be regulated by dioxin. Antioxidant-responsive elements (AREs) in mouse and rat glutathione S-transferase genes and the Barbie box element (Bar) in the bacterial CYP102 gene exist in the CYP6B1v3, CYP6B4v2, and CYP6B5v1 promoters. Similarities in the protein sequences, intron positions, and xanthotoxin- and xenobiotic-responsive promoter elements indicate that these insect CYP6B genes are derived from a common ancestral gene. Evolutionary comparisons between these P450 genes are the first available for a group of insect genes transcriptionally regulated by hostplant allelochemicals and provide insights into the process by which insects evolve specialized feeding habits.
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PMID:Conserved promoter elements in the CYP6B gene family suggest common ancestry for cytochrome P450 monooxygenases mediating furanocoumarin detoxification. 890 57

The inducing effects of some flavonoids (flavone, flavanone, tangeretin and quercetin) and model substances have been studied in rats, and the activity and the expression of drug-metabolizing enzymes have been compared in rats. The addition of flavonoids to the diet (0.3% w/w) for 2 weeks did not change the liver cytochrome P450 content nor the activities of the NADPH-cytochrome P450 and NADH-cytochrome b5 reductases, but it affected the activities of phase I and phase II enzymes. Flavone, and to a lesser extent tangeretin, increased the activities mediated by the P450 1A1,2 (EROD) and 2B1,2 (PROD) as well as the activities of p-nitrophenol UDP-glucuronyl transferase (UGT) and glutathione transferase (GST). Flavanone mainly enhanced PROD, UGT and GST, whereas quercetin did not modify any enzyme activities. None of the tested flavonoids modulated the activities catalyzed by P450 2E1, 3A and 4A. Immunoblotting studies showed that flavone and tangeretin increased the expression of cytochrome P450 1A and 2B forms, whereas flavanone only induced cytochrome P450 2B. Flavone and to a lesser extent flavanone, markedly increased the phenol-UGT protein level. Both flavone and flavanone also increased the androsterone- and testosterone-UGTs, whereas tangeretin and quercetin did not increase any UGT isoform. We concluded that the flavonoids tested specifically affected the expression of the drug-metabolizing isozymes in rat liver, their inducing properties were dependent on their chemical structures.
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PMID:Comparative effects of flavonoids and model inducers on drug-metabolizing enzymes in rat liver. 893 57

The placenta possesses the ability to metabolize numerous xenobiotics and endogenous steroids. However, it is unknown whether regional differences in these enzymatic reactions exist in the human placenta. To this end, we undertook a study of four regions of the placenta, the chorionic plate, maternal surface, placental margin and whole tissue, to assess the activities of cytochrome P450 1A1 and 19A1 (aromatase) and glutathione S-stransferase in these fractions. No differences in either P450 1A1 or glutathione S-transferase activities were noted among any of the placental fractions. However, with respect to P450 19A1 activity, the placental margin differed significantly from all other fractions (p < 0.05). This study demonstrates that whole tissue samples of the human placenta are adequate for placental cytochrome P450 and glutathione S-transferase metabolism studies.
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PMID:Regiospecificity of placental metabolism by cytochromes P450 and glutathione S-transferase. 893 64

Effects of continuous feeding flavonoids (flavone, flavanone, and tangeretin) on drug-metabolizing enzymes in rat liver were investigated to ascertain how long feeding is required to reach maximal induction and to determine whether maximal induction is maintained for a long period of feeding. In the first experiment rats received a diet containing 10 mmol flavonoid/kg dry matter for 4, 8, 16, or 32 d. The second experiment was designed to examine the time course for induction during the first 4 d. The kinetics of induction depended on the chemical structure of the flavonoid and was different from one enzyme to another. Flavone increased P450 1A and P450 2B apoproteins and stimulated many enzyme activities. A significant increase of P450 1A1/2 proteins, ethoxyresorufin O-deethylase (EROD), and methoxyresorufin O-demethylase (MROD) activities occurred as early as 6 h after the first administration, and a gradual increase was observed up to 4 d of feeding. P450 2B1/2 proteins and pentoxyresorufin O-depentylase (PROD) activity were also increased but after a lag period when compared with P450 1A1/2 proteins. EROD and MROD activities declined after 4 d, whereas PROD activity remained steady during 32 d of flavone feeding. Glutathione transferase (GST) and p-nitrophenol UDP-glucuronosyl transferase (UGT) activities were also increased. The maximal induction was reached by 4 d of feeding for UGT and after a longer duration of feeding (16 d) for GST. Flavanone treatment induced mostly P450 2B1/2 proteins and PROD, GST, and UGT activites. After 4 d of feeding, P450 2B1/2 proteins and PROD activity declined whereas GST and UGT activities remained steady. Tangeretin treatment produced changes similar to flavone but of lesser magnitude and after a longer delay.
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PMID:Time course of induction of rat hepatic drug-metabolizing enzyme activities following dietary administration of flavonoids. 896 9

The dioxin-inducible mouse [Ah] battery contains at least six genes that "cross-talk" with one another and are believed to play important roles in reproduction and development, and in environmental toxicity, cancer, and oxidative stress. In addition to two P450 genes, Cyp1a1 and Cyp1a2, this laboratory has shown that the four Phase II [Ah] genes include: NAD(P)H:menadione oxidoreductase (Nmo1); a cytosolic "class 3" aldehyde dehydrogenase (Ahd4); a UDP glucuronosyltransferase having 4-methylumbelliferone as substrate (Ugt1a6); and a glutathione transferase having 2,4-dinitro-1-chlorobenzene as substrate (Gsta1, Ya). The Ah receptor-mediated coordinate induction is controlled positively in all six [Ah] battery genes. Oxidative stress up-regulates the four Phase II [Ah] genes. This laboratory is generating conventional, plus inducible, knockout mouse lines having homozygous disruptions in the above-mentioned genes; this novel methodology is described herein. If the conventional knockout is healthy and viable, the mouse line would be useful for studies involving environmental agents. If the conventional knockout is lethal during development, this model would be important for developmental biology, but the inducible (also called conditional) knockout can still be used--at selected ages and even in selected tissue or cell types--for studies designed to understand the mechanisms involved in reproduction and development, and in environmental toxicity, cancer, and oxidative stress.
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PMID:How knockout mouse lines will be used to study the role of drug-metabolizing enzymes and their receptors during reproduction and development, and in environmental toxicity, cancer, and oxidative stress. 906 27

1,2-Dibromoethane (1,2-DBE) is a carcinogenic compound that is metabolized both by cytochrome P450 (P450) and glutathione S-transferase (GST) enzymes, and that has been used by us as a model compound to study interindividual variability in biotransformation reactions. In this study, the excretion of thiodiacetic acid (TDA) and S-(2-hydroxyethyl)-N-acetyl-l-cysteine (2-HEMA) were measured in the urine of rats dosed with 1,2-DBE, and experiments were performed to investigate to what extent P450 and GST enzymes contribute to the formation of TDA. To this end, CYP2E1, the main P450 isoenzyme catalyzing the oxidation of 1,2-DBE, was inhibited using disulfiram and diallylsulfide. Significant inhibition of CYP2E1, as confirmed by inhibition of the hydroxylation of chlorzoxazone, as well as inhibition of the formation of TDA from 1,2-DBE, was observed upon pretreatment of rats with these inhibitors, indicating that the P450-catalyzed oxidation of 1,2-DBE plays the major role in the TDA formation. No significant excretion of TDA was observed after administration of intermediate products of the GST pathway [i.e. S-(2-hydroxyethyl)glutathione and 2-HEMA], indicating that the GST-catalyzed metabolism of 1,2-DBE does not contribute to a significant extent to the formation of TDA. The results of this study show that TDA is specifically formed by P450 metabolites of 1,2-DBE, whereas the conjugation of 1,2-DBE to glutathione by GST enzymes does not contribute to the formation of TDA. TDA, excreted in urine, may thus be used as a biomarker of exposure to 1,2-DBE selectively reflecting the P450-catalyzed oxidation. In addition to 2-HEMA and S-[2-(N7-guanyl)ethyl]-N-acetyl-l-cysteine, TDA may be a valuable tool for biomonitoring and mechanistic studies into the metabolism and toxicity of 1,2-DBE.
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PMID:Urinary thiodiacetic acid. A selective biomarker for the cytochrome P450-catalyzed oxidation of 1,2-dibromoethane in the rat. 910 51

The ability of the benzodiazepines, as a chemical class, to cause the induction and/or inhibition of cytochromes P450 has not been well characterized. In the present study, the induction of the cytochrome P450 2B subfamily (CYP2B) in vivo and the inhibition of CYP2B activity in vitro by selected benzodiazepines was examined in hepatic tissues derived from male F344/NCr rats. Initial studies of the in vivo induction or in vitro inhibition of benzyloxyresorufin O-dealkylation activity revealed that both clonazepam and diazepam were relatively effective in vivo inducers of CYP2B when administered in the diet at 500 ppm for 5 days and also were fairly potent inhibitors of the activity of these hemoproteins in vitro. Oxazepam, in contrast, was ineffective as an inducer or an inhibitor of this activity. Further studies were performed to characterize the subfamily selectivity of the P450 induction and inhibition displayed by clonazepam. Specifically, microsomes from rats treated with clonazepam (1000 or 1800 ppm in the diet for 5 days) were found to be highly induced with respect to catalytic activities mediated by CYP2B, including benzyloxyresorufin and pentoxyresorufin O-dealkylation or testosterone 16 beta-hydroxylation, but other CYP proteins were minimally induced. In addition to inducing the CYP2B subfamily, clonazepam also induced the RNA encoding other drug metabolizing enzymes (e.g., epoxide hydrolase and the glutathione S-transferase alpha-subfamily) that are typically induced by phenobarbital-type inducers. Finally, clonazepam proved to be a potent noncompetitive or "mixed-type" competitive inhibitor of catalytic activities mediated by CYP2B, but not by other CYP proteins (e.g. CYP2A, CYP3A) in microsomes derived from phenobarbital-pretreated rats.
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PMID:In vivo induction and in vitro inhibition of hepatic cytochrome P450 activity by the benzodiazepine anticonvulsants clonazepam and diazepam. 919 78

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