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 metabolism of testosterone and benzo(a)pyrene (BaP) which is mediated by diverse enzymes was determined in cryopreserved rat liver parenchymal cells and compared with that found in freshly isolated cells. In addition, the activities of single xenobiotic-metabolizing enzymes were measured by using specific substrates. The cytochrome P450 (P450)-mediated total metabolic conversion of testosterone was reduced to 55% in cryopreserved cells. The metabolite profile, i.e. the formation of single metabolites compared with total metabolic conversion, was however unchanged when compared with freshly isolated cells. A concomitant reduction in the activities of the involved P450 isoenzymes can therefore be postulated. The amount of detected phase I-metabolites of BaP was unaffected by the cryopreservation method. The formation of phase II-metabolites and total metabolic conversion of BaP in cryopreserved cells was however reduced to about 50-60%. The reduced glutathione S-transferase and more obviously phenol sulfotransferase activities measured in cryopreserved cells, may explain the impaired conjugation of BaP. The ratio between phase I- and phase II-metabolites was thus changed by cryopreservation. Density separation on Percoll yielded cryopreserved cells with a viability and metabolic capacity not measurably different from freshly isolated cells. To this extent, cryopreserved, Percoll-purified liver parenchymal cells are a useful in vitro system for drug metabolism studies. However due to the extensive loss in cell number during this procedure (recovery = 22% of freshly isolated cells) the application of this system is limited.
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PMID:Characterization of cryopreserved rat liver parenchymal cells by metabolism of diagnostic substrates and activities of related enzymes. 164 45

The capacity of the testis to metabolize xenobiotics has been proposed to play a role in the susceptibility of different species to testicular toxicity. Since species differences in testicular xenobiotic metabolizing enzyme activities are not well documented, the primary objective of the present study was to compare enzyme activities in subcellular fractions prepared from rat, mouse, monkey, and human testes. In microsomal fractions, enzyme activities measured were pentoxyresorufin O-dealkylase (PROD), ethoxyresorufin O-dealkylase (EROD), and epoxide hydrolase (mEH). In cytosolic preparations, epoxide hydrolase (cEH) and glutathione S-transferase (cGST) activities were measured. PROD activity was not detectable in any of the species studied, while it was readily detected in liver microsomes used as a positive control. Although EROD activity was low, it was measurable in testicular microsomes from rat and mouse, but not monkey or human. No marked species differences in cEH activity were found. In contrast, mEH activity was low in the monkey, intermediate in the rat, and highest in the human and mouse. cGST activity was significantly lower in the two primate species compared with the rat and the mouse. The levels of activity of the xenobiotic metabolizing enzymes studied were generally more than an order of magnitude lower in the testis as compared to the liver. However, in rat and mouse, the levels of mEH and cGST activities in testis were relatively similar to hepatic levels. Overall, these data indicate that species differences in capacity to metabolize xenobiotics may play a role in differential sensitivity to testicular toxicants.
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PMID:Xenobiotic metabolizing enzyme activities in rat, mouse, monkey, and human testes. 167 4

The incidence and phenotype of preneoplastic and neoplastic liver lesions appearing in LEC rats after recovery from severe hereditary hepatitis were studied in comparison with the liver lesions appearing in chemical liver carcinogenesis. The livers of 168 rats (90 male, 78 female) were stained for seven histochemical markers at different time periods from the 20th week to the 122nd week of life. Glucose-6-phosphatase (G6Pase), adenosine triphosphatase (ATPase) and non-specific esterase (ES) were used as negative markers. Gamma-glutamyltransferase (GGT), glutathione S-transferase placental form (GSTP), esterase isozyme L-1 (L1) and alpha-fetoprotein (AFP) were used as positive markers. The study on the incidence of liver lesions in the LEC rats revealed sequential development of liver foci, nodules and hepatocellular carcinomas (HCCs) similar to those seen in chemically induced liver carcinogenesis. These lesions appeared earlier and more frequently in male LEC rats than in female ones, suggesting the importance of hormonal environment in spontaneous HCC development. The histochemical analysis of spontaneous liver lesions in LEC rats showed that GSTP was the most reliable positive marker as previously reported in chemical liver carcinogenesis. There was no essential difference in the expression of the markers in spontaneous and chemically induced liver lesions except for L1, which is considered to be related to xenobiotic metabolism. The results of this study suggest that both spontaneous and chemically induced liver cancer may develop by passing through phenotypically similar preneoplastic processes. In addition, the LEC rat uniquely showed chronic liver damage (hepatocyte death and regeneration) at the promotion stage of carcinogenesis. Such a natural history of HCC development in LEC rats is similar to that of human HCC which is frequently associated with chronic liver damage. Thus, the LEC rat provides a useful model for studying the process and underlying mechanisms of human liver cancer development.
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PMID:Phenotype of preneoplastic and neoplastic liver lesions during spontaneous liver carcinogenesis of LEC rats. 169 69

Male mice were treated with structurally diverse herbicides to study their effect on liver xenobiotic-metabolizing enzymes. Chlorfiurecol, trifluralin, alachlor, propham, MCPP and 2,4-DP caused increases in phase I (cytochrome P-450, ethoxycoumarin O-deethylase, and/or aminopyrine N-demethylase) and phase II (microsomal epoxide hydrolase and cytosolic glutathione S-transferase) activities. MCPP and 2,4-DP also increased cytosolic epoxide hydrolase and carnitine acetyltransferase activities suggestive of peroxisome proliferation. Benthiocarb and molinate increased only some phase II enzyme activities. Dicamba, at the dose employed, caused mortality and decreases in some of the enzymes monitored. Most of the herbicides tested induced xenobiotic-metabolizing enzyme activities, the pattern of induction being dependent on herbicide structure.
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PMID:The effect of structurally divergent herbicides on mouse liver xenobiotic-metabolizing enzymes (P-450-dependent mono-oxygenases, epoxide hydrolases and glutathione S-transferases) and carnitine acetyltransferase. 175 24

The activity of the hepatic phase II enzymes of xenobiotic biotransformation after intravenous administration of perfluorodecalin emulsion to rats was measured. Perfluorodecalin was found to increase the microsomal glutathione S-transferase and UDP-glucuronosyltransferase activities 1.4- and 2.3-fold, respectively. The activity of sulphotransferase was decreased 2-fold. These results show that perfluorodecalin is an inducer of both the enzymes of cytochrome P-450-dependent monooxygenase system [Mishin V. et al (1989) Chem.-Biol. Interactions, 72, 143-155.] and those catalyzing conjugation reactions: microsomal glutathione S-transferase and UDP-glucuronosyltransferase.
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PMID:Effect of perfluorodecalin on activities of hepatic phase II xenobiotic biotransformation enzymes. 177 31

Activities of several drug metabolising enzymes in the small intestine were investigated in Swiss mice, Sprague Dawley rats and Syrian Golden Hamsters fed 10% masheri, a pyrolysed tobacco product, in diet, for 20 months. The basal levels of enzymes in proximal (PI), medium (MI) and distal (DI) parts of the intestine in the three species were similar. However, the levels of cytochrome P-450, benzo(a) pyrene hydroxylase (B(a)OH) and glutathione S-transferase (GST) were highest in hamsters followed by rat and mice. Upon treatment with masheri, significant induction of cytochrome P-450 and B(a)PH was observed in PI and DI of all the three species. However, GSH and GST was depleted upon masheri treatment in all the three species again only in proximal and distal parts of the intestine. Thus increase in activating enzymes together with depletion in GSH-GST system upon exposure could be an important factor in the susceptibility of the small intestine to hazardous xenobiotic exposure.
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PMID:Species difference in intestinal drug metabolising enzymes in mouse, rat and hamster and their inducibility by masheri, a pyrolysed tobacco product. 187 40

We have identified two regions in the 5'-flanking sequence of the rat quinone reductase gene that contain xenobiotic responsive elements. The DNA sequence of the first region spans nucleotides -393 to -352 of the 5'-flanking region and shares sequence identity with the xenobiotic responsive element (XRE) described for the cytochrome P-450 CYPIA1 gene. The DNA sequence of the second region spans nucleotides -434 to -404 of the 5'-flanking region of the quinone reductase structural gene. When a synthetic oligonucleotide corresponding to nucleotides -434 to -404 was inserted in front of a heterologous promoter linked to the chloramphenicol acetyltransferase structural gene, an increase in basal level expression as well as responsiveness to beta-naphthoflavone and t-butylhydroquinone, but not 2,3,7,8-tetrachlorodibenzo-p-dioxin, was observed. The sequence, -434 to -404, did not have any sequence identity with the XRE but shared a large degree of identity with the antioxidant responsive element recently described for the rat glutathione S-transferase Ya subunit gene (Rushmore, T. H., King, R. G., Paulson, K. E., and Pickett, C. B. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 3826-3830; Rushmore, T. H., and Pickett, C. B. (1990) J. Biol. Chem. 265, 14648-14653). These results indicate that the antioxidant responsive element can be distinguished functionally from the classical XRE and is also involved in the regulation of the quinone reductase gene by planar aromatic compounds and phenolic antioxidants.
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PMID:Transcriptional regulation of the rat NAD(P)H:quinone reductase gene. Identification of regulatory elements controlling basal level expression and inducible expression by planar aromatic compounds and phenolic antioxidants. 190 Feb 96

Injection of perfluorodecaline to rats caused an increase of the phase II xenobiotic biotransformation enzyme activities followed by cytochrome P-450 induction. The activities of liver microsomal UDP-glucuronosyl transferase and glutathione transferase increased by 130 and 40%, respectively, against the control level. The increase of the cytosolic glutathione transferase activity was insignificant In contrast, the activity of sulfotransferase decreased about 2-fold. The role of modification of xenobiotic biotransformation enzymes in the biological effect of perfluorodecaline is discussed.
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PMID:[The effect of perfluordecaline on the activity of phase III xenobiotic transformation enzymes]. 191 74

In order to investigate the binding affinities of ocular lens glutathione S-transferases for non-substrate ligands we have studied the inhibition of bovine lens GSTs by physiological ligands, hematin, bilirubin and the xenobiotic bromosulfophthalein. Hematin was found to be a strong inhibitor as compared to bromosulfophthalein and bilirubin for the two lens isoenzymes, GST 7.4 and GST 5.6, both of which belong to the mu class of GSTs. Except for the competitive inhibition of GST 5.6 by hematin both the isoenzymes were inhibited non-competitively by these compounds. These results indicate binding of these non-substrate ligands to lens GSTs and suggest that similar to the extra ocular GST, the lens GSTs also play a role in the detoxification of hydrophobic compounds through non-catalytic binding.
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PMID:Inhibition of bovine lens glutathione S-transferases by hematin, bilirubin, and bromosulfophthalein. 195 38

C3H/10T1/2 clone 8 (10T1/2) cells possess Phase I and Phase II xenobiotic metabolizing enzymes associated with the metabolism of polycyclic aromatic hydrocarbons to activated or detoxified species. We compared the metabolism of benzo[a]pyrene (BaP) by these cells to an aflatoxin B1 (AFB1)-transformed line (7SA) and a 3-methylcholanthrene (3-MC)-transformed line (MCA) isolated from carcinogen-treated 10T1/2 cells. Relative to 10T1/2 cells, basal levels of cytochrome P450-mediated aryl hydrocarbon hydroxylase (AHH) were significantly depressed in 7SA cells by about 30%. The inducibility of AHH by BaP treatment was depressed by 30-70% in MCA and 7SA cells over a 36-hr time course. 10T1/2 and MCA cells accumulated similar intracellular amounts of 3-OH-BaP by 12 and 24 hr, respectively; in contrast the accumulation of 3-OH-BaP in 7SA cells was 70% lower. During 36 hr of BaP treatment, total BaP-DNA adduct levels formed in 7SA and MCA cells, determined by 32P-postlabeling analysis, were 90 and 83% lower, respectively, than those found in 10T1/2 cells. These differences in response to BaP treatment were not related to cellular differences in the uptake or efflux of BaP. Relative to 10T1/2 or MCA cells, 7SA cells were found to have at least a twofold increase in UDP-glucuronyltransferase activity, which correlated with the lower intracellular accumulation of 3-OH-BaP and enhanced formation of extracellular polar metabolites. MCA cells had an almost twofold increase in glutathione S-transferase activity relative to parental 10T1/2 cells but produced lower levels of extracellular polar metabolites. These results demonstrate an association between chemical transformation of 10T1/2 cells and altered xenobiotic metabolism. This system may provide an in vitro model for examining the molecular events responsible for the biochemically altered phenotype of the malignantly transformed cell.
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PMID:Altered benzo[a]pyrene metabolism in C3H/10T1/2 cells transformed by aflatoxin B1 or 3-methylcholanthrene. 197 7

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