Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have reported previously that a dietary deficiency in selenium results in an increase in glutathione S-transferase (GST) activity of various rat tissues. In order to verify that the increased GST activity observed in a selenium deficiency results from increased synthesis of GST protein, cytosolic fractions of livers obtained from rats fed selenium-deficient and selenium-supplemented diets were analyzed by Western (protein) blots. Antisera raised against purified individual GST subunits (Ya, Yb, and Yc) were used to detect the corresponding subunits on the blots. The Ya subunit was induced 2.5-fold in the selenium-deficient state. The amount of Yc subunit also increased significantly (p less than 0.05) in selenium deficiency but not to the extent of the Ya subunit. The Yb subunit was not significantly affected by altered selenium nutritional status. A corresponding increase in poly(A) RNAs coding for the Ya and Yc subunits was also observed by Northern blot analysis. Transcriptional activity of GST YaYc genes was elevated by approximately 2-fold in purified nuclei isolated from selenium-deficient rat livers, which is sufficient to account for the increase in YaYc mRNA levels. Therefore, it appears that transcriptional activation of rat liver YaYc genes is the primary cause for the elevation of the corresponding gene products in the selenium-deficient state. Since the GSTs, especially the isozymes containing Ya subunit, have been implicated in the formation of prostaglandin (PG) F2 alpha, we investigated the effect of selenium deficiency on the PGF2 alpha-forming activity using a specific inhibitor of GSTs, S-decyl-GSH. In rats fed a nutritionally adequate diet, the activity inhibited by S-decyl-GSH accounted for at least half of the conversion of PGH2 to PGF2 alpha. During selenium deficiency, this GST-catalyzed activity was approximately doubled with no change in PGF2 alpha formation by other pathways, resulting in a 2-fold increase in overall synthesis of PGF2 alpha. These data strongly support a role of GSTs, especially those composed of the Ya size subunit, in the synthesis of PGF2 alpha from PGH2.
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PMID:The induction of specific rat liver glutathione S-transferase subunits under inadequate selenium nutrition causes an increase in prostaglandin F2 alpha formation. 169 Jul 9

Malignant melanoma tumors are inherently resistant to anticancer drugs, yet the mechanism of this resistance is not understood. B16 melanoma, a spontaneous tumor which arose in the C57BL/6 mouse; BL6 melanoma, a highly invasive variant; and Mel-ab melanocytes, isolated from C57BL/6 mouse skin, were examined for intracellular glutathione (GSH) content. GSH was higher in BL6 and B16 cells than in Mel-ab cells, with the highest concentration in BL6 cells. Since GSH is thought to be involved in the resistance of many cells, including melanoma, to cytotoxic drugs, we determined whether intracellular GSH content was altered during transformation of Mel-ab cells. After transfection with pHO6T1 plasmid DNA, containing an activated c-H-ras oncogene flanked by transcriptional enhancers, 1.3% of successfully transfected Mel-ab melanocytes formed distinct colonies in soft agar, compared to 0.2% of cells transfected with control pHO6 plasmid without H-ras. Approximately 53% of the pHO6T1-transfected colonies isolated from soft agar grew in 5% CO2 in the absence of phorbol-12-myristate-13-acetate, a requirement for the extended growth of Mel-ab cells. Cells transfected with control pHO6 plasmid and non-transfected Mel-ab cells did not survive under these conditions. All of the isolated pHO6T1 transfected cells formed tumors when inoculated into C57BL/6 mice. Transformed cells had higher GSH content than non-transfected Mel-ab cells, whether expressed on a cellular or cell volume basis. Although the amount of oxidized glutathione was greater in the tumorigenic cells, this could not account for the overall increase in GSH. Neither glutathione S-transferase nor gamma-glutamyl transpeptidase activities were increased in the H-ras-transfected cells. Northern blot analysis confirmed H-ras-specific RNA in pHO6T1-transformed cells.
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PMID:Induction of glutathione content in murine melanocytes after transformation with c-H-ras oncogene. 171 78

The metabolism of butachlor was studied in rat liver and kidney homogenates. In vitro incubation of butachlor with liver fractions (S9, microsome, and cytosolic fractions) formed a considerable amount of butachlor glutathione conjugate (BGSC), while the conjugating activity was not efficient for the kidney S9 fraction. There is a sex difference in the distribution of glutathione S-transferase in the liver. It seems that more enzyme activity is detected in the female liver microsome, while this is not the case in its cytosolic fraction. Further biotransformation of BGSC to mercapturate was not observed in the liver S9 fraction. This metabolite was further transformed to butachlor acetyl cysteine conjugate (BACC) in the presence of acetyl CoA, but to butachlor cysteine conjugate (BCC) in the absence of acetyl CoA. These findings demonstrated that butachlor is initially conjugated with GSH to form BGSC by the enzyme glutathione S-transferase in the liver. This metabolite is apparently transported to the kidneys, where it is transformed to the mercapturate.
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PMID:Biotransformation of butachlor through mercapturic acid pathway in rat tissue homogenates. 172 63

The effects of administration of dec-2-ynol and dec-2-ynoic acid on the hepatic glutathione (GSH) content and hepatic microsomal trans-2-enoyl-CoA reductase activity were examined in rat. Both compounds, when administered ip, caused a marked depletion of GSH levels and a corresponding inactivation of trans-2-enoyl-CoA reductase activity in both a time- and dose-dependent manner. The dec-2-ynoic acid caused greater hepatotoxicity than dec-2-ynol based on serum alanine transaminase activity. Based on the observations that (a) the alcohol did not interact with GSH in the presence or absence of cytosol, (b) the spectral manifestation of the interaction between GSH and the alcohol occurred only when NAD+ was added to the reaction mixture containing the cytosol and reactants, and (c) a similar absorbance spectrum was obtained following the interaction between aldehyde and GSH, it was concluded that dec-2-ynol is converted to an electrophile, dec-2-ynal, which causes depletion of GSH. The decrease in GSH content following administration of the acid appears to be due to activation of the acid to the electrophile, dec-2-ynoyl CoA, which then interacts with GSH, resulting in its depletion, based on the in vitro observations that (a) the acid did not interact with GSH in the presence or absence of cytosol, and (b) the spectral manifestation of interaction between GSH and dec-2-ynoyl CoA occurred both nonenzymatically and enzymatically in the presence of rat liver glutathione S-transferase (Sigma). Bovine serum albumin stimulated the enzymatic reaction. Comparable to the effects on GSH were the effects of dec-2-ynol, dec-2-ynal, dec-2-ynoic acid, and dec-2-ynoyl CoA on the microsomal trans-2-enoyl-CoA reductase activity in vitro. While the alcohol had no effect on the enzyme activity, its electrophilic product, the aldehyde, was a potent inhibitor. Similarly, the acid did not inhibit the enzyme activity unless the acid was present at high concentration; however, its electrophilic product, the CoA thioester, was a very potent inhibitor at very low concentration.
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PMID:Depletion of rat hepatic glutathione and inhibition of microsomal trans-2-enoyl-CoA reductase activity following administration of a dec-2-ynol and dec-2-ynoic acid. 173 41

Subpopulations of HT 29 human colon carcinoma cells (HT/M and HT/S) were selected for resistance to the glutathione S-transferase (GST) inhibitor ethacrynic acid (EA). Both clones displayed a 2-fold resistance to the selection agent and required its constant presence for the maintenance of the resistant phenotype. Purification and characterization of GST isoforms showed similar profiles in the wild-type (WT) and EA-resistant clones, with microheterogeneous forms of the pi isoenzyme detected in each case. Metabolism of EA in vitro in the presence of GSH and the isolated GST from each cell line was characterized by a biphasic disappearance of the parent drug; the initial rate at which each of these enzymes metabolized EA was similar. These enzymes also displayed similar Km values for 1-chloro-2,4-dinitrobenzene. However, the amount of GST isolated per total cellular protein was 3.0-fold in HT/M and 1.6-fold in HT/S relative to WT in the continuous presence of EA. Under these conditions GST activity was increased by 2.3-fold in HT/M and 3.2-fold in HT/S as were GSH levels (2.7- and 4.1-fold for HT/M and HT/S respectively). When EA was removed, enzyme activity and GSH concentrations decreased to values similar to those of the WT. Slot-blot and Southern analyses of the DNA gave no evidence of GST-pi-gene amplification or rearrangement. However, RNA analyses by both slot-blot and Northern studies indicate a 2.5-3.5-fold elevation in the GST pi transcript in the EA-resistant population. Results from these studies indicate that: (1) maintenance of the EA-resistant phenotype requires constant presence of the agent; (2) the 2-fold resistance to EA can be quantitatively related to a 2-3-fold increase in GST activity and amount which appears to be the result of a 2.5-3.5-fold elevation in GST transcript; (3) EA, a Michael-reaction acceptor, can induce GST at the transcriptional level.
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PMID:Increased levels of glutathione S-transferase pi transcript as a mechanism of resistance to ethacrynic acid. 173 59

Bovine adrenal cortex tissue expresses high levels of glutathione S-transferase (GST) from each of the alpha, mu and pi gene families. We describe the purification and characterization of an abundant alpha-class GST from this tissue that has not been identified previously because of its failure to bind to S-hexylglutathione-Sepharose 6B (S-hexG-Ag). This enzyme has been affinity purified on glutathione-Sepharose 6B (GSH-Ag) and was obtained in a highly purified form by employing S-hexG-Ag to remove the bulk of GST before chromatography on GSH-Ag. The purified GST eluted from GSH-Ag was found to exhibit marked peroxidase and delta 5-ketosteroid isomerase activities (19.2 and 1.67 U/mg respectively). The bovine enzyme also showed high GST activity towards 4-hydroxynonenal (5.09 U/mg). Sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis revealed that the bovine GST contains two distinct polypeptides, one with an Mr of 25,900 and the other with an Mr of 26,500. An abundant alpha-class GST was also purified from human adrenal cortex that possessed properties which were similar to the bovine alpha-class GST described above; however, unlike the bovine enzyme, the corresponding human alpha-class GST bound to S-hexG-Ag. As with the bovine enzyme, the purified human GST displayed marked peroxidase and isomerase activities (27 and 4.02 U/mg respectively). Further analysis on SDS-PAGE (Mr 25,800) and reverse-phase high-performance liquid chromatography established that this abundant alpha-class GST in human adrenal cortex is equivalent to the human liver GST B1B1 enzyme. As both human and bovine adrenal cortex contain high levels of alpha-class GST with similar catalytic properties, we discuss the possible functions of these enzymes in this tissue.
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PMID:Expression of an abundant alpha-class glutathione S-transferase in bovine and human adrenal cortex tissues. 173 63

We have previously shown that 2-hydroxamino-1-methyl-6-phenylimidazo[4,5-b]pyridine(2-h ydroxamino-PhIP) is the principal metabolite leading to mutations in Salmonella typhimurium TA98 and DNA damage in mammalian cells. In rat hepatocytes this metabolite can be further conjugated to 2-(N-beta-D-glucuronopyranosyl (hydroxamino)-1-methyl-6-phenylimidazo[4, 5-b]pyridine[N(OH)-gluc-PhIP]. Its rate of formation was increased in hepatocytes from polychlorinated biphenyl (PCB)-pretreated animals. This metabolite is the main metabolite of PhIP in bile and it is hydrolyzed both by human and rat intestinal bacteria. Smaller amounts are excreted into urine. The evidence for the proposed structure is based on 1H- and 13C-NMR, beta-glucuronidase-lability giving 2-hydroxamino-PhIP upon hydrolysis and on the results obtained by using biochemical enzyme inhibitors. N(OH)-gluc-PhIP may be important for genotoxic lesions and tumors of 2-amino-1methyl-6-phenylimidazo [4,5-b]pyridine (PhIP) in extrahepatic tissue. In hepatocytes and bile from PCB-pretreated rats a PhIP-glutathione conjugate, 2-glutathionyl-1-methyl-6-phenylimidazo[4,5-b]pyridine (GSH-PhIP) was also found. The evidence for the proposed structure is based on 1H-NMR and high-resolution mass spectrometry. The metabolite can also be produced by a direct nucleophilic substitution of the nitro group in 2-nitro-PhIP by glutathione (GSH) in vitro. The metabolite did not form from 2-hydroxamino-PhIP and GSH either directly or in the presence of glutathione S-transferase. The formation of GSH-PhIP in rat liver and isolated cells only at a high rate of 2-hydroxamino-PhIP formation (PCB-treated animals) indicates that 2-nitro-PhIP may be formed in the liver during such N-oxidation of PhIP.
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PMID:Formation of a glutathione conjugate and a semistable transportable glucuronide conjugate of N2-oxidized species of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) in rat liver. 174 23

Glutathione peroxidase (GSH-PO) and glutathione S-transferase (GST), class alpha, showing GSH-PO-like enzymatic activity, were localized immunohistochemically in frozen sections of rat intestine in order to elucidate changes in the expression of these antilipoperoxidative enzymes during normal development. The direct immunoperoxidase method was performed using specific rabbit antibodies (Fab fragments) against the enzymes purified from rat liver. Immunoreactive GSH-PO and GST-alpha were demonstrated in the intestinal villous epithelial cells. In the duodenum, GSH-PO was positive during the period from 19 days of gestation to 1 week after birth, while GST-alpha was negative during this period. Two weeks after birth, positivity for GST-alpha appeared, and GSH-PO became undetectable. In the ileum, both of the enzymes were observed until 2 weeks of age, but after weaning their expression disappeared. These immunohistochemical findings were confirmed by immunoblot analysis using intestinal tissue extracts. To evaluate environmental effects on the expression of these enzymes, germ-free animals, common bile duct-ligated rats, and Hank's solution-fed infant rats were prepared. No remarkable alterations in the immunohistochemical localization pattern were observed. Since the switching of enzyme expression around the time of weaning was not influenced by these experimentally induced environmental conditions, it appears that these enzymatic changes are genetically predetermined.
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PMID:Glutathione peroxidase and glutathione S-transferase, class alpha, in rat intestine. Immunohistochemical and immunoblotting studies on changes in expression of these antilipoperoxidative enzymes during normal development. 175 Mar 55

A method for the rapid analysis of isozyme subunits of glutathione transferase (GST) from human liver is described. Following purification of enzyme protein to electrophoretic homogeneity on columns of GSH-agarose, pooled transferase fractions were concentrated by ultrafiltration and subjected to further fractionation and analysis by urea-isoelectric focusing in minigels using a Hoefer Mighty Small II electrophoresis system. These methods combined with immunoblotting techniques permitted the resolution, detection, and eventual analysis of up to six different subunits of the alpha isozyme of human GST and at least three to four different forms of the pi isozyme of the transferase rapidity, accuracy, and sensitivity of the methodology may prove useful to the analysis and quantification of GST subunits in biopsies of malignant human tissue and to the development of effective chemotherapeutic regimens.
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PMID:Analysis of glutathione S-transferase from human liver by isoelectric focusing in a urea minigel system. 175 Jun 75

In order to examine the roles of cysteine and histidine residues in the activity of human class Pi glutathione S-transferase (GST pi), site-directed mutagenesis was used to replace each of the four cysteine residues (at positions 14, 47, 101 and 169) with serine and each of the two histidine residues (at positions 71 and 162) with asparagine using a cDNA for the enzyme (Kano, T. et al. (1987) Cancer Res., 47, 5626-5630) and an E. coli expression system. The replacements of Cys101, Cys169, His71 and His162 did not affect the GSH-conjugating activity toward 1-chloro-2,4-dinitrobenzene and ethacrynic acid. On the other hand, the activities were partly decreased by the replacements of Cys47 and Cys14. These results indicated that the cysteine and histidine residues in GST pi are not essential for the catalytic activity, although Cys47 and Cys14 may contribute to some extent to the catalytic efficiency.
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PMID:Non-essentiality of cysteine and histidine residues for the activity of human class PI glutathione S-transferase. 175 56


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