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)

Capsaicin (CAP; 50 mg/kg body wt., p.o.) and/or ethanol (EtOH; 10% (v/v) in the drinking water) were given for a period of 30 days to male rats, and changes in hepatic drug-metabolizing enzymes were investigated. The EtOH alone tended to increase the microsomal parameters such as cytochrome P-450 content and enzyme activities of aniline hydroxylase, aminopyrine demethylase and UDP-glucuronyl transferase, while it did not affect the cytosolic enzyme activities of sulfotransferase and glutathione S-transferase. The administration of CAP without EtOH tended to decrease all of the parameters studied. In contrast, the ingestion of CAP with EtOH tended to increase even the elevated microsomal enzyme activities by EtOH alone. These data suggest that chronic alcohol ingestion could modify the potential for detoxification of xenobiotics in persons who regularly consume a large amount of hot peppers.
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PMID:Effects of capsaicin and ethanol on hepatic drug-metabolizing enzymes in rat. 211 94

6-Hydroxymethylbenzo[a]pyrene was activated to an electrophilic and mutagenic sulfuric acid ester metabolite by rat and mouse liver sulfotransferase activity. The intrinsic mutagenicity of this reactive ester, 6-sulfooxymethylbenzo[a]pyrene, was inhibited by glutathione and glutathione S-transferase. A single i.p. dose of 2.5 nmol/g body wt of 6-sulfooxymethylbenzo[a]pyrene in infant male B6C3F1 mice induced liver tumors in 35 of 36 mice at 10 months with an average multiplicity of 4.4. A comparable dose of the parent hydrocarbon, 6-hydroxymethylbenzo[a]pyrene, was only a tenth as active. The electrophilic sulfuric acid ester produced high levels of benzylic DNA adducts in the livers of these mice that accounted for about 80% of the total DNA adducts. These results strongly suggest that this sulfuric acid ester is an important ultimate electrophilic and carcinogenic metabolite in carcinogenesis by 6-hydroxymethylbenzo[a]pyrene and possibly even by 6-methylbenzo[a]pyrene and benzo[a]pyrene in mouse liver.
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PMID:The strong hepatocarcinogenicity of the electrophilic and mutagenic metabolite 6-sulfooxymethylbenzo[a]pyrene and its formation of benzylic DNA adducts in the livers of infant male B6C3F1 mice. 222 84

Significant increases in activities of epoxide hydrolase, UDP-glucuronosyltransferase, and glutathione S-transferase, and marked reductions in cytochrome P-450 mixed-function oxidase systems occur in hyperplastic nodules induced in rat liver by chemical mutagens. In contrast, activities of both oxidative (Phase I) and conjugative (Phase II) enzymes are decreased in hepatocellular carcinomas induced by peroxisome proliferators. The present work compares alterations induced by chemical mutagens or peroxisome proliferators with changes in enzyme activities that occur in primary and secondary hepatic tumors in man. The above activities, along with beta-glucuronidase and arylsulfatase, were measured in liver samples from 6 normal livers obtained at immediate autopsy, and liver specimens obtained by surgical biopsy from the following patients: 8 with hepatomas, 5 with nonmetastatic colorectal carcinomas, and 14 with metastatic colorectal carcinomas. Cytochromes P-450MP and P-450NF in addition to epoxide hydrolase were measured by immunoquantitation. Enzymes involved in conjugation reactions were either assayed fluorometrically (UDP-glucuronosyltransferase, beta-glucuronidase, sulfotransferase, and sulfatase) or spectrophotometrically (glutathione S-transferase) using umbelliferyl substrates or 1-chloro-2,4-dinitrobenzene. Secondary hepatic tumors showed no significant change in drug-metabolizing enzymes, in contrast to primary hepatomas, which displayed decreases in all of the measured drug metabolizing enzymes. Arylsulfatase was markedly depressed in primary hepatomas (14% of normal values). Thus, activities of drug-metabolizing enzymes in human primary tumors resemble those associated with altered hepatic foci induced by peroxisome proliferators such as ciprofibrate. The marked decreases in sulfatase that occurred in primary but not in secondary human tumors suggest that sulfation of endogenous compounds and xenobiotics may differ in patients with primary and secondary hepatic tumors.
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PMID:Hepatic drug-metabolizing enzymes in primary and secondary tumors of human liver. 302 21

Activities of glucuronosyltransferase, sulfotransferase, glutathione S-transferase, beta-glucuronidase and sulfatase were determined in microdissected samples of periportal and pericentral sublobular regions from four human livers obtained at immediate autopsy. New methods are presented for the microdetermination of sulfotransferase and sulfatase activities in microdissected samples weighing 0.1 to 4 micrograms dry weight using umbelliferone and 4-methylumbelliferone sulfate as substrates. The three transferases were distributed heterogeneously across the liver lobule. Glucuronosyltransferase and glutathione S-transferase were localized predominantly in pericentral regions. In contrast, sulfotransferase activity was greater in periportal than pericentral regions. Average activities for glucuronosyltransferase and sulfotransferase were 23, and 50 mumoles X gm dry wt-1 X hr-1, respectively, in periportal regions, and 34 and 38 mumoles X gm dry st-1 X hr-1, respectively, in pericentral regions. Activities of glutathione S-transferase were considerably higher than those of the other transferases and were 8.3 mmoles X gm dry wt-1 X hr-1 in periportal areas and 12.2 mmoles X gm dry wt-1 hr-1 in pericentral areas. The two hydrolases studied, beta-glucuronidase and sulfatase, were evenly distributed across the liver lobule. The presence of significant hydrolase and transferase activities in both zones of the liver lobule supports the idea that net production of both sulfate and glucuronide conjugates may be influenced by futile cycling of conjugation-deconjugation reactions in both zones of the liver. Based on enhanced formation of sulfate but not glucuronide conjugates in homogenates of human liver treated with inhibitors of the hydrolases, it is suggested that futile cycling is more pertinent to the regulation of sulfation than glucuronidation.
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PMID:Sublobular distribution of transferases and hydrolases associated with glucuronide, sulfate and glutathione conjugation in human liver. 308 5

Enzyme catalyzed detoxication reactions are one of the primary defenses organisms have against chemical insult. This article reviews current chemical approaches to understanding the cooperative role of enzymes in the metabolism of foreign compounds. Emphasis is placed on chemical and stereochemical studies which help elucidate the mechanism of action and active-site topologies of the detoxication enzymes. The stereoselectivity of the cytochromes P-450 and flavin containing monooxygenases as well as the role of hemoglobin and lipid peroxidation in the primary metabolism of xenobiotics is discussed. Current knowledge of the mechanism and stereoselectivity of epoxide hydrolase is also presented. Three enzymes involved in secondary metabolism of xenobiotics, UDP-glucuronosyltransferase, sulfotransferase and glutathione S-transferase are discussed with particular emphasis on active site topology and cooperative participation with the enzymes of primary metabolism.
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PMID:Enzyme-catalyzed detoxication reactions: mechanisms and stereochemistry. 311 76

A major concern of contemporary medicine is the adverse effects resulting from the use of prescribed and over-the-counter pharmacologic agents. In many cases more than one drug is taken at the same time, which increases the risk of overloading the detoxification mechanisms. If the individual has poor nutritional status, the system becomes even more inefficient. The liver contains the most important of these detoxification systems: the cytochrome P-450-dependent mixed function oxidase (MFO) and several conjugation enzymes, e.g., sulfotransferase, glucuronyl transferase, and glutathione transferase, which convert lipophilic compounds to more water-soluble products to enhance their excretion. The balance of these reactions determines the rate of metabolism and clearance of xenobiotic agents, and regulates in part the degree of intracellular damage. Nutritional factors, including proteins, carbohydrates, fats, vitamins, and minerals, affect the efficiency of these reactions. Changes in intracellular metabolism can alter not only the enzyme levels but also the availability of their cofactors, e.g., NADPH, UDPGA (uridine diphosphate glucuronic acid), PAPS (3'-phosphoadenosine-5'-phosphosulfate), and GSH. Diets restricted in calories, protein, or essential fatty acids, as well as those having low quality protein or high sugar content, can affect the component enzymes, cytochrome P-450 and the cytochrome P-450 reductase, and the MFO activity toward a variety of drugs. In addition, deficiencies of specific vitamins (riboflavin, ascorbic acid, and vitamins A and E) and minerals (iron, copper, zinc, and magnesium) affect the components and activities of the system in unique ways. Insight into the regulation of the hepatic detoxification mechanism can be gained by using nutrient variables to perturb the system.
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PMID:Nutritional parameters that alter hepatic drug metabolism, conjugation, and toxicity. 351 Sep 12

Microsomal and cytosolic preparations of hepatic, renal, ileal and ruminal tissues of cattle and sheep were used to measure oxidative, hydrolative and conjugative biotransformations of 11 xenobiotic substrates. Within species, enzyme activities were generally higher (P less than .05) in hepatic than non-hepatic tissue but, in both species, non-hepatic tissue exhibited considerable capacities for metabolizing certain substrates. Sheep rumen wall (with papillae) was notably high in cytochrome P-450 content (34% of hepatic value), in glutathione conjugation of ethacrynic acid (223% of hepatic activity; P less than .05), and UDP-glucuronidation of estrone (290% of hepatic activity; P less than .05). Sheep differed (P less than .05) from cattle, having lower cytochrome P-450 content in liver and ileum (but not kidney); lower N-demethylase activity in liver, but two- to threefold higher activity in kidney; lower sulfotransferase activity in liver and kidney; and higher glutathione S-transferase activity toward certain substrates. UDP-glucuronidation varied too widely among substrates to afford strong generalization in comparisons among tissues or between species. Non-hepatic tissues in ruminants exhibit considerable capacities for oxidative, hydrolative and conjugative metabolism of xenobiotics. Sheep and cattle differ widely in hepatic and non-hepatic capacities for biotransforming certain xenobiotics.
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PMID:Characterization of xenobiotic biotransformation in hepatic, renal and gut tissues of cattle and sheep. 361 Aug 68

Several communications pertaining to research on human fetal drug biotransformation have appeared in the literature in the past 3 to 4 years (Aranda et al. 1979; Cresteil et al. 1982; Pacifici et al. 1981; Pacifici and Rane 1982, 1983; Schroeter and Amon 1983). In general, research in this area has produced no major recent surprises, but it has confirmed, extended, and supported the earliest findings through those of the mid-1970s and has served to expand our understanding of these important systems. The important aspects of our current knowledge may be summarized very briefly as follows: Each of the major drug metabolic reactions (oxidations, reductions, hydrolyses, and conjugations) can be catalyzed at generally low rates by enzymes present in human fetal and placental tissues. Reaction rates appear, in general, to increase with advancing gestational age. Placental xenobiotic-biotransforming monooxygenases display a high sensitivity to the effects of MC-type (methylcholanthrene) but not PB-type (phenobarbital) inducing agents during the later stages of gestation. Responsivity is minimal during early gestation. Monooxygenases in other fetal tissues (liver, adrenal gland, etc.) appear to respond minimally to inducing agents, at least during the earlier stages of gestation. Glucuronyl transferase activities appear to be very low in all fetal and placental tissues. Epoxide hydrolase, glutathione S-transferase, and sulfotransferase (and perhaps others) activities can be relatively high in prenatal primate hepatic tissues but, at present, are difficult to predict. Some of these may respond to environmental inducers in situ, but solid evidence for this is still lacking.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biotransformations of drugs and foreign chemicals in the human fetal-placental unit. 393 63

Homogenate preparations from fresh livers of cattle, sheep, swine and rats were assayed for microsomal cytochrome P-450 content, for mixed-function oxidase activities and for a wide array of conjugative activities using numerous xenobiotic substrates. Results show that hepatic enzymatic capabilities toward xenobiotics do not parallel phylogenetic classifications, thus strengthening the view that most of the comparative data available at present is more descriptive than predictive of relationships among species. Livestock species differed widely from rats in having lower activities of benzo(alpha)pyrene hydroxylase, glutathione S-transferase and acetyltransferase toward isoniazid and sulfamethazine and UDP-glucuronosyl-transferase toward bilirubin. Acetyltransferase activities toward beta-naphthylamine and 2-aminofluorene were not detected in livers of livestock species studied. Cattle livers were remarkably high in activities of styrene oxide hydrolase, ethoxyresorufin O-deethylase, 2-naphthol sulfotransferase and p-aminobenzoic acid acetyltransferase; but notably low in activity of glutathione-S-transferase toward sulfobromophthalein and 1,2-dichloro-4-nitrobenzene. Swine livers had low activity of glutathione-S-transferase toward four of six substrates and low acetyltransferase activity toward four of five substrates. Sheep livers generally were higher than cattle livers in sulfo- and UDP-glucuronsyltransferase activities and lower in acetyl- and glutathionyl-S-transferase. Findings emphasize the risk of error in extra-polations among species and in extrapolations among substrates.
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PMID:Oxidative and conjugative metabolism of xenobiotics by livers of cattle, sheep, swine and rats. 642 1

5-Hydroxymethyl-2-furaldehyde (HMF), a ubiquitous food contaminant, has been proposed to be metabolically activated through sulfonation of its allylic hydroxyl functional group. In support of this idea, we have found the strong direct mutagenicity of chemically synthesized sulfuric acid ester, 5-sulfooxymethylfurfural (SMF), in Salmonella typhimurium TA104. The intrinsic mutagenicity of this reactive ester was significantly inhibited by glutathione and glutathione S-transferase activity in dialyzed rat liver cytosol. The metabolic formation of SMF was elucidated by enhanced mutagenicity of HMF in the presence of rat hepatic cytosol enriched with the sulfo-group donor, 3'-phosphoadenosine-5'-phosphosulfate (PAPS). The PAPS- and cytosol-dependent mutagenicity of HMF was markedly lessened by sulfotransferase inhibitors such as 2,6-dichloro-4-nitrophenol and dehydroepiandrosterone. These results suggest that HMF can be metabolically activated to an allylic sulfuric acid ester which may play a role as an ultimate electrophilic metabolite in toxification of the parent compound in vivo.
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PMID:Bioactivation of 5-hydroxymethyl-2-furaldehyde to an electrophilic and mutagenic allylic sulfuric acid ester. 773 94


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