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)

Maintenance of cellular homeostasis is a critical survival trait when cells are exposed to electrophilic chemicals. Because conjugation and elimination of these toxins is dependent upon sequential and coordinated metabolic pathways, acquired resistance through a gradual adaptive response would rarely be expected to be the consequence of changes in one gene product. Human HT29 colon cancer cells chronically exposed to EA have acquired resistance to the drug. Commensurate with resistance, EA is more effectively conjugated to GSH and effluxed from the resistant cells. Using directed and random (differential display) approaches, a number of detoxification and/or protective gene products have been shown to be expressed at elevated levels. These include gamma-GCS (approximately 3-fold), GST-pi (approximately 3-fold), MRP (approximately 3-fold), NQO1 (approximately 3-fold), DDH (20-fold), and SSP 3521, a transcriptional regulator (approximately 3-fold). Multiple mechanisms contribute to these increases, including enhanced transcriptional rate and prolonged mRNA and protein half lives. Further indications for the involvement of transcriptional regulators is found in HL60 adriamycin-resistant cells which overexpress MRP, GST-pi and gamma-GCS and also have 15-20-fold more DNA-dependent protein kinase. It is possible that this enzyme serves as an early stress response gene which may activate downstream transcription factors. Intriguingly, the catalytic subunit of DNA-dependent protein kinase has a high avidity for [35S]azidophenacyl-GSH. High levels of GSH conjugates indicate cell stress and it would seem reasonable to speculate that DNA-dependent protein kinase may serve as a receiver and transmitter of signals which contribute to drug resistance and maintain cell viability.
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PMID:Coordinate changes in expression of protective genes in drug-resistant cells. 967 55

Pentachlorobenzene (PeCB) is an important environmental contaminant derived primarily from the by-product contamination of the popular fungicides hexachlorobenzene and pentachloronitrobenzene. Its tumor-promoting activity was studied in a medium-term initiation/promotion assay in male F344 rats. Animals were given a single i.p. injection of diethylnitrosamine (200 mg/kg body weight) and 2 weeks later were administered 0.1 or 0.4 mmol/kg per day PeCB by gavage in a corn oil vehicle, 7 days/week. At the end of week 3, rats were subjected to a partial hepatectomy. Results showed that PeCB, at both doses, significantly increased both the number and area of glutathione S-transferase pi (GST-P) foci (>0.2 mm diameter) (P < 0.05). This trend was dose-dependent. In addition to increases in preneoplastic foci, liver glutathione concentrations and glutathione-associated enzymes showed significant changes in animals treated with PeCB. Glutathione reductase (GR) and gamma-glutamylcysteine synthetase (gamma-GCS) were both significantly induced in the centrilobular region. Changes in oxidized glutathione concentrations corresponded with the increase in GR activity with decreases of 40 and 30% in the low and high dose groups, respectively. No significant changes were detected in reduced glutathione concentrations. Together with changes in GR and gamma-GCS expression, a decrease in GST-P foci around the central veins was significant (P = 0.004) at the high dose. In these animals, 26% of the foci were classified as centrilobular whereas 37 and 39% of the foci were centrilobular in the low dose and control groups, respectively. Because of the co-localized nature of the changes in glutathione-associated enzymes and the decreased incidence of centrilobular foci, our results suggest that the reduced cellular environment may ultimately play a role in negatively selecting for foci growth.
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PMID:Evidence for hepatocarcinogenic activity of pentachlorobenzene with intralobular variation in foci incidence. 980 69

gamma-Glutamylcysteine synthetase (gamma-GCS) is a rate-limiting enzyme in the de novo synthesis of glutathione, a known scavenger of electrophiles and reactive oxygen species (ROS). The gamma-GCS gene is expressed ubiquitously and induced coordinately with NAD(P)H:quinone oxidoreductase(1) (NQO1) and glutathione S-transferase Ya (GST Ya) in response to xenobiotics and antioxidants. The antioxidant response element (ARE) is required for expression and induction of these genes. In the current report, we demonstrated that ARE-mediated gamma-GCS gene expression and induction is regulated by similar Nrf and Jun factors as reported earlier for the NQO1 and GST Ya genes. The gamma-GCS gene ARE competed with the binding of nuclear proteins (Nrf + Jun) to the NQO1 gene ARE (hARE). In addition, the overexpression of Nrf2 and Nrf1 with c-Jun significantly up-regulated gamma-GCS ARE-mediated basal expression and beta-naphthoflavone induction of the chloramphenicol acetyltransferase gene in transfected HepG2 cells. Interestingly, Nrf2 + c-Jun was more effective than Nrf1 + c-Jun in the regulation of ARE-mediated gamma-GCS gene expression. Further experiments demonstrated that the c-Jun level within the cells is an important determinant of the level of ARE-mediated gamma-GCS gene expression. Therefore, at higher concentrations of c-Jun, gamma-GCS gene expression is repressed, presumably due to generation of a sufficient amount of c-Jun + c-Fos complex that interferes with the binding of Nrf2 + c-Jun complex to the ARE.
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PMID:Nrf2 and c-Jun regulation of antioxidant response element (ARE)-mediated expression and induction of gamma-glutamylcysteine synthetase heavy subunit gene. 1075 53

TER286 [gamma-glutamyl-alpha-amino-beta(2-ethyl-N,N,N', N'-tetrakis(2-chloroethyl)phosphorodiamidate)-sulfonyl-propionyl-( R)- (-) phenylglycine] is a novel nitrogen mustard prodrug that is preferentially activated by glutathione S-transferase P1-1 (GSTP1-1). A human promyelocytic leukemia /TER286-resistant cell line was selected by chronic, long-term exposure to the prodrug. Although resistance was not readily achieved, eventually a 5-fold resistant clone was isolated. Cross-resistance to melphalan occurred, but not to doxorubicin (Adriamycin), taxol, and gamma-glutamyl-S-(benzyl)cysteinyl-R(-)-phenyl glycine diethyl ester, a GSTP1-1 inhibitor. The protein and transcript levels and enzymatic activity of GSTP1-1 were reduced significantly in the selected resistant line. GSTalpha levels were unchanged, and GSTmu was undetectable. Although glutathione levels were elevated in human promyelocytic leukemia/TER286 cells, no changes in the expression of thiol-related genes including gamma-glutamylcysteine synthetase, gamma-glutamyl transpeptidase, or multidrug resistance protein were found. A 7-fold increase in catalase expression in the resistant cell line indicated an adaptive response to oxidative and electrophilic stress, and this was also reflected in the lower prevalence of drug-induced DNA single-strand breaks in the resistant cells. Mouse embryo fibroblast GSTP1-1(-/-) cells exhibited 2-fold resistance to TER286 compared with GSTP1-1(+/+) cells. NIH3T3 cells transfected with combinations of gamma-GCS and multidrug resistance protein exhibited enhanced resistance to TER286, although the degree of resistance was impaired by cotransfection of GSTP1-1. These results are consistent with responses in the TER286-resistant cells indicative of GSTP1-1-mediated mechanism of activation. In consequence, these data support the rationale that tumors expressing high levels of GSTP1-1 will be more sensitive to the cytotoxic effects of the drug.
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PMID:Cellular response to a glutathione S-transferase P1-1 activated prodrug. 1086 Sep 39

Glutathione (GSH), glutathione S-transferases (GSTs), and the multidrug resistance-associated protein 1 (MRP1) have been independently studied for their contributions to drug resistance. Single cDNA transfection experiments have provided inconsistent and disparate conclusions with respect to the importance of GSH and GST in conferring a resistant phenotype. Because these three proteins can act as a concerted coordinated pathway, we reasoned that equivalent increases may be required for enhanced resistance to be expressed. We have assembled these proteins together, or in various combinations, to determine whether they show cooperativity in determining drug response. Increased expression through single cDNA transfection of GSTpi, gamma-glutamylcysteine synthetase (gamma-GCS) (regulatory plus catalytic subunits), or MRP1 enhanced resistance to a number of anticancer drugs. Cotransfection of GSTpi and GCS, gave higher resistance to doxorubicin, etoposide, and vincristine than with either alone. Resistance toward chlorambucil and ethacrynic acid was similar in cells overexpressing either component or overexpressing GST alone. Coexpression of GSTpi with MRP1 conferred significant resistance above that seen for MRP1 alone to chlorambucil, etoposide, ethacrynic acid, and vincristine. The combination of GCS and MRP1 did not afford additional resistance above MRP1 alone. When all three were transfected, significantly higher levels of resistance were found for doxorubicin and etoposide. These results support the concept that coordinate enhancement of focal thiol elements of detoxification pathways provides a more efficient protective phenotype than do single components alone.
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PMID:The influence of coordinate overexpression of glutathione phase II detoxification gene products on drug resistance. 1090 Feb 22

Apoptosis involves a series of genetically programmed events associated with endonucleolytic cleavage of DNA. This process is triggered by a variety of agents, including oxidants such as hydrogen peroxide (H(2)O(2)) and it plays a key role in eliminating pre-neoplastic cells from the lung. Failure to do so could favor tumor promotion. The current study demonstrated that alveolar epithelial cells, adapted to cadmium (CdCl(2)) by repeated in vitro exposure, exhibit lower levels of H(2)O(2)-induced apoptosis than similarly challenged non-adapted cells. An immunologic assay, measuring cytoplasmic histone-associated DNA fragments, indicated maximal apoptosis 24 h after exposure to 400 microM H(2)O(2). Non-adapted cells showed a 13-fold increase in oxidant-induced apoptosis while Cd-adapted cells had only a 4-fold elevation. A terminal deoxyribonucleotidyl transferase mediated dUTP nick end labeling (TUNEL) method was used to assess the percentage of cells with DNA breaks consistent with apoptosis. Cd-adapted and non-adapted cells that were not exposed to H(2)O(2) did not differ in TUNEL positivity. However, after H(2)O(2) treatment, the percentage of TUNEL positive cells was 4-fold higher in non-adapted cultures than in adapted ones. Suppression of oxidant-induced apoptosis is due, in part, to up-regulation in the gene expression of several resistance factors including metallothioneins (MT-1 and MT-2), glutathione S-transferases (GST-alpha and GST-pi), and gamma-glutamylcysteine synthetase catalytic subunit (gamma-GCS). These steady-state mRNA changes, determined by Northern blotting, were accompanied by increased levels of MT and gamma-GCS protein, GST activity, and glutathione (GSH). Suppressed oxidant-induced apoptosis, resulting at least in part from these response modifications, could leave pre-neoplastic or neoplastic cells alive, favor clonal expansion, and ultimately lead to cancer development.
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PMID:Suppressed oxidant-induced apoptosis in cadmium adapted alveolar epithelial cells and its potential involvement in cadmium carcinogenesis. 1092 3

The present study examines the effects of thiabendazole (TBZ), its metabolites, 5-hydroxythiabendazole (5-OH TBZ) and 2-acetylbenzimidazole (ABI), and structural related compounds, thiazoles and thioamides on glutathione (GSH) concentration and GSH-related enzymes in the livers of ICR 11 week-old female mice. GSH concentration in liver and kidney of mice given orally TBZ 0.65 mol/kg (TBZ group) increased significantly compared with control mice from 24 h to 48 h after administration of TBZ. Even in mice to which TBZ at 0.175 mol/kg was administered in combination with L-buthionine sulfoximine (BSO) 4 mmol/kg (i.p.) (BSO-TBZ group), kidney GSH showed significant increase compared with BSO-control mice 48 h after the administration of TBZ. gamma-Glutamylcysteine synthetase (gamma-GCS) activity in the livers of the TBZ group markedly increased at 48 h and that of BSO-TBZ group increased from 24 h to 48 h. gamma-GCS in mice liver is thus enhanced by TBZ regardless of BSO administration. Hepatic glutathione peroxidase activity of the TBZ group did not change in response to cumene hydroperoxide assubstrate. That of BSO-treated mice decreased by TBZ-coadministration and significant differences was noted between BSO-control and BSO-TBZ group from 1 h to 48 h later. Hepatic glutathione S-transferase (GST) activity toward 1,2-dichloro-4-nitrobenzene (DCNB) was significantly elevated 24 h after administrations of TBZ in TBZ and BSO-TBZ groups. GST activity toward 1,2-epoxy-3-(p-nitrophenoxy) propane of TBZ group increased from 0.5 h to 24 h. Hepatic GST activity toward DCNB and 1-chloro-2,4-dinitrobenzene did not change by administration of 0.65 mol/kg 5-OH TBZ or ABI but increased by administrations of 0.33 mol/kg of thiazole, 4-methylthiazole, 4,5-dimethylthiazole or 2,4-dimethylthiazole. Increase in GSH concentration and GST activity in mice liver by TBZ administration may be considered to provide protection from TBZ or its active metabolites.
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PMID:[Effect of thiabendazole (TBZ) on glutathione (GSH) and GSH related enzymes in mice liver]. 1101 51

Exposure of rat alveolar epithelial cells to 10 micromol/L CdCl2 causes time-dependent increases in steady-state mRNA levels of the gamma-glutamylcysteine synthetase catalytic (heavy) subunit (gamma-GCS) and of glutathione S-transferase isoforms (GST-alpha and GST-pi). The expression of gamma-GCS was significantly increased as early as 2 h after addition of cadmium. Maximal induction of gamma-GCS mRNA (approximately 4-fold), at 8 h, was subsequently followed by increases in gamma-GCS activity/protein and glutathione (GSH) levels. Maximal elevations in GST-pi (approximately 2-fold) and GST-alpha (approximately 10-fold) transcripts, at 8 and 24 h, respectively, were also accompanied by enhanced GST activity. Cadmium-induced oxidative stress, assessed by alterations in GSH homeostasis and an accelerated rate of intracellular oxidant production, could constitute early events in the signal transduction pathway mediating these responses. The dimeric transcription factor, activator protein-1 (AP-1), may also play a regulatory role in this process. This association is suggested by transcriptional activation of the immediate-early response genes, c-fos and c-jun, within 15 min after exposure to cadmium and by the enhancement of AP-1 DNA binding activity, involving a c-Jun protein complex, which is maximally induced (approximately 4-fold) by 2 h. These molecular changes likely function together to protect alveolar epithelial cells against cadmium toxicity.
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PMID:Cadmium-mediated oxidative stress in alveolar epithelial cells induces the expression of gamma-glutamylcysteine synthetase catalytic subunit and glutathione S-transferase alpha and pi isoforms: potential role of activator protein-1. 1125 61

Northern blotting has shown that mouse small intestine contains relatively large amounts of the nuclear factor-E2 p45-related factor (Nrf) 2 transcription factor but relatively little Nrf1. Regulation of intestinal antioxidant and detoxication enzymes by Nrf2 has been assessed using a mouse line bearing a targeted disruption of the gene encoding this factor. Both Nrf2-/- and Nrf2+/+ mice were fed a control diet or one supplemented with either synthetic cancer chemopreventive agents [butylated hydroxyanisole (BHA), ethoxyquin (EQ), or oltipraz] or phytochemicals [indole-3-carbinol, cafestol and kahweol palmitate, sulforaphane, coumarin (CMRN), or alpha-angelicalactone]. The constitutive level of NAD(P)H:quinone oxidoreductase (NQO) and glutathione S-transferase (GST) enzyme activities in cytosols from small intestine was typically found to be between 30% and 70% lower in samples prepared from Nrf2 mutant mice fed a control diet than in equivalent samples from Nrf2+/+ mice. Most of the chemopreventive agents included in this study induced NQO and GST enzyme activities in the small intestine of Nrf2+/+ mice. Increases of between 2.7- and 6.2-fold were observed in wild-type animals fed diets supplemented with BHA or EQ; increases of about 2-fold were observed with a mixture of cafestol and kahweol palmitate, CMRN, or alpha-angelicalactone; and increases of 1.5-fold were measured with sulforaphane. Immunoblotting confirmed that in the small intestine, the constitutive level of NQO1 is lower in the Nrf2-/- mouse, and it also showed that induction of the oxidoreductase was substantially diminished in the mutant mouse. Immunoblotting class-alpha and class-mu GST showed that constitutive expression of most transferase subunits is also reduced in the small intestine of Nrf2 mutant mice. Significantly, induction of class-alpha and class-mu GST by EQ, BHA, or CMRN is apparent in the gene knockout animal. No consistent change in the constitutive levels of the catalytic heavy subunit of gamma-glutamylcysteinyl synthetase (GCS(h)) was observed in the small intestine of Nrf2-/- mice. However, although the expression of GCS(h) was found to be increased dramatically in the small intestine of Nrf2+/+ mice by dietary BHA or EQ, this induction was essentially abolished in the knockout mice. It is apparent that Nrf2 influences both constitutive and inducible expression of intestinal antioxidant and detoxication proteins in a gene-specific fashion. Immunohistochemistry revealed that induction of NQO1, class-alpha GST, and GCS(h) occurs primarily in epithelial cells of the small intestine. This suggests that the variation in inducibility of NQO1, Gsta1/2, and GCS(h) in the mutant mouse is not attributable to the expression of the enzymes in distinct cell types but rather to differences in the dependency of these genes on Nrf2 for induction.
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PMID:The Cap'n'Collar basic leucine zipper transcription factor Nrf2 (NF-E2 p45-related factor 2) controls both constitutive and inducible expression of intestinal detoxification and glutathione biosynthetic enzymes. 1130 84

Polyphenolic compounds extracted from red wine (WE) and black tea (BT), 50 mg/(kg. d), inhibit the promotion phase of the colon carcinogenesis process induced by azoxymethane (AOM) in rodents. To investigate possible mechanisms of this protective activity, we evaluated by RT-PCR the gene expression of cycloxygenase-2 (COX-2), inducible NO synthase (iNOS), gamma-glutamylcysteine synthetase (gamma-GCS) and two isoforms of glutathione S-transferase (GST), GST-P and GST-M2, in 30 AOM-induced tumors and in the corresponding normal colon mucosa. AOM-induced colon tumors had significantly greater GST-P, GST-M2, COX-2 and iNOS gene expression than the corresponding normal mucosa. However, tumors harvested from rats treated with BT (P < 0.05) and WE (P < 0.01) polyphenols had a lower GST-P mRNA level than tumors from controls. Treatment with WE polyphenols induced a similar inhibitory effect on the colon tumor overexpression of GST-M2 (P < 0.01), COX-2 (P < 0.05) and iNOS (P < 0.05). In the normal mucosa, rats treated with BT polyphenols had greater gamma-GCS expression than controls (P < 0.01). Our results provide evidence that WE and BT polyphenols modulate COX-2, iNOS and glutathione-related gene expression in tumors, suggesting that these compounds have possible chemotherapeutic activity.
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PMID:Red wine and black tea polyphenols modulate the expression of cycloxygenase-2, inducible nitric oxide synthase and glutathione-related enzymes in azoxymethane-induced f344 rat colon tumors. 1204 61

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