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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 human glutathione S-transferase cDNAs encoding subunits 1 and 2 contain intrinsic ribosome-binding sites in their 5'-untranslated regions for direct expression in Escherichia coli. We show that functional human GSH S-transferases 1-1 and 2-2 are synthesized from lambda gt11 cDNA clones lambda GTH1 and lambda GTH2 in phage lysates of E. coli Y1090, in lysogens of E. coli Y1089, and from the plasmid expression constructs in pKK223-3. The E. coli-expressed human GHS S-transferases 1-1 and 2-2 do not have blocked N termini in contrast to those directly purified from human livers. These two isozymes, with 11 amino acid substitutions between them, are similar in their Km values for GSH and 1-chloro-2,4-dinitrobenzene and Kcat values for this conjugation reaction. The human GSH S-transferase 2-2, however, is a more active GSH peroxidase than transferase 1-1 toward cumene hydroperoxide and t-butyl hydroperoxide. Our results indicate that different members of a GSH S-transferase gene family with limited amino acid substitutions have different with limited amino acid substitutions have different but overlapping substrate specificities. We propose that accumulation of single amino acid replacements may be an important mechanism for generating diversity in GSH S-transferases with various xenobiotic substrates. In situ chromosomal hybridization results show that the GSH transferase Ha genes are located in the region of 6p12.
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PMID:Human glutathione S-transferases. The Ha multigene family encodes products of different but overlapping substrate specificities. 313 30

Resistance of Walker 256 rat mammary carcinoma cells to chlorambucil has been shown to be accompanied by a specific increase in the A2-2 subunit of glutathione S-transferase (GST) (Buller et al., Mol Pharmacol 31: 575-578, 1987). Analysis of the time course of GST activity following chlorambucil exposure revealed a 7.5- and 3-fold elevation on day 7 post-treatment in Walker-sensitive (WS) and Walker-resistant (WR) cells, respectively. Flow activated cell sorting (FACS) analyses using antibodies specific for rat liver cytosolic GST supported these results and demonstrated the heterogeneous response of WS cells to chlorambucil exposure. The range of GST levels in drug-treated cells was very broad as compared to that of untreated cells. Transcripts for each class of GST (alpha, mu and pi) were quantified for days 1-9 post-treatment from densitometric scans of RNA slot blots. Elevations in GST alpha RNA preceded increases in GST activity (day 7) in both WS and WR cells. Because fluctuations in GSTA1-1 transcripts were not observed, it was concluded that the increased expression of the alpha class must be attributed to increases in GSTA2-2 transcripts. Amplification of the GST genes in drug-treated cells was not present. These results support the role of GSTA2-2 in the detoxification of chlorambucil. The time course of the cellular response to chlorambucil suggests that the elevation of GSTA2-2 transcripts following alkylating agent exposure may represent only one component of a series of events which collectively confer protection and lead to the establishment of drug resistance.
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PMID:Time course of glutathione S-transferase elevation in Walker mammary carcinoma cells following chlorambucil exposure. 768 Feb 2

The relationships between smoking and the expression of glutathione S-transferase (GST*) isozymes GSTM1-1, GSTM3-3, GSTP1-1 and GSTA1-1/2-2 (GSTA1/2), or between smoking and activities of epoxide hydrolase (EH) and aryl hydrocarbon hydroxylase (AHH) were investigated in lung samples from 27 patients with lung cancer and 11 control patients by immunoblot analysis and enzyme assays. Determination of genotypes in blood leucocyte DNA showed that possession of the mu-class GSTM1 gene was closely related to the expression of GSTM1-1 and GSTM3-3 enzymes in lung cytosol: patients with the GSTM1 null genotype had no detectable GSTM1 protein and less GSTM3 protein than patients with the GSTM1 gene (P < 0.001). Absence of the GSTM1 gene did not affect the content of phi-class GSTP1-1 or alpha-class GSTA1/2. GST activity towards 1-chloro-2,4-dinitrobenzene was lower (P < 0.01) in patients lacking the GSTM1 gene than in those expressing GSTM1; in general, patients with a low GSTM3-3, GSTP1-1 or GSTA1/2 content also had significantly less overall GST activity. The pulmonary content of GSTP1-1 was greater in cancer than in non-cancer patients (P < 0.05). Smoking did not influence the levels of GST isozymes or the EH activity. In contrast, the AHH activity was significantly (P < 0.01) increased by smoking. Neither AHH nor EH showed a correlation with GSTM1 polymorphism. Our data support the idea that in smokers who lack the GSTM1 gene, activation of carcinogens in tobacco smoke (e.g. benzo[alpha]pyrene) is increased, while the efficacy of detoxification is limited both qualitatively (absence of GSTM1-1 enzyme and low expression of GSTM3-3 enzyme) and quantitatively (low overall GST activity). This imbalance in the metabolism of carcinogens may explain the increased susceptibility to lung cancer reported in smokers with the GSTM1 null genotype.
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PMID:Expression and polymorphism of glutathione S-transferase in human lungs: risk factors in smoking-related lung cancer. 772 47

We have expressed human glutathione S-transferases GSTA1-1 and GSTP1-1 in Salmonella typhimurium TA100 in order to assess the ability of these enzymes to modulate the mutagenicity of 1,2-dibromo-3-chloropropane (DBCP) and tris(2,3-dibromopropyl)phosphate (Tris-BP). Both compounds were mutagenic when activated by Aroclor-induced rat liver microsomes. However, when Aroclor-induced rat liver microsomes were used together with the GST-expressing strains the mutagenicity of both DBCP and Tris-BP was markedly potentiated. Neither of the GST-expressing strains potentiated the mutagenicity in the absence of microsomes, indicating that cytochrome P450-mediated metabolism was a prerequisite for GST-mediated potentiation. With DBCP both isozymes had comparable effects on mutagenic frequency, although the highest dose of DBCP was toxic in strains expressing GSTP1-1. In the case of Tris-BP, GSTP1-1 was much more active in potentiating the mutagenicity. These results indicate that human GSTs can play an important role in the activation of compounds such as DBCP and Tris-BP to mutagenic metabolites.
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PMID:Increased mutagenicity of 1,2-dibromo-3-chloropropane and tris(2,3-dibromopropyl)phosphate in Salmonella TA100 expressing human glutathione S-transferases. 824 59

Glutathione (GSH) conjugation of 2-bromoisovalerylurea (BIU) enantiomers is stereoselective in humans in vivo. Administration of racemic BIU results in a higher plasma elimination and urinary excretion of R-BIU and its mercapturate, respectively, than of S-BIU and its mercapturate. In order to relate the in vivo BIU pharmacokinetics to the activity of glutathione S-transferase (GST) isoenzymes, the GSH conjugation of BIU enantiomers was studied with human liver and intestinal cytosolic fractions as well as purified human class alpha (GSTA1-1, GSTA2-2), mu (GSTM1a-1a) and pi (GSTP1-1) GST isoenzymes. Stereoselective GSH conjugation of BIU enantiomers was observed for most human liver and intestinal cytosolic fraction. In general, the cytosolic fractions preferentially conjugated S-BIU. Stereoselective preference for GSH conjugation of S-BIU was also observed for GSTA2-2 and GSTM1a-1a, whereas GSTA1-1 was not selective for either of the BIU enantiomers. GSTP1-1 did not catalyse conjugation of R- and S-BIU. Quantification of the GST isoenzymes in the liver cytosolic fractions showed that the stereoselectivity towards S-BIU was related to the profile and amount of GST subunits in the cytosolic fractions. The discrepancy in stereoselectivity between the BIU pharmacokinetics in vivo and the GSH conjugation of BIU enantiomers in vitro is discussed. In addition, since in contrast to human GSTM1a-1a, rat class Mu isoenzymes prefer R-BIU, the present results indicate that related isoenzymes in different species may have a different stereoselectivity.
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PMID:Stereoselectivity of human liver and intestinal cytosolic fractions as well as purified human glutathione S-transferase isoenzymes towards 2-bromoisovalerylurea enantiomers. 825 Sep 63

We have developed Salmonella typhimurium strains expressing human glutathione S-transferases (GSTs) to establish the role of these enzymes in chemical activation and deactivation. Alpha and pi class GSTs, GSTA1-1 and GSTP1-1, were expressed in Salmonella TA100 using a regulatable tac promoter expression system. The ability of these GST to modulate the mutagenicity of a range of mutagens including ethylene dibromide, ethylene dichloride and methylene dichloride was then investigated. Ethylene dibromide, ethylene dichloride and methylene dichloride were directly mutagenic in the control TA100 strain. The mutagenicity of ethylene dibromide and ethylene dichloride was increased in cells expressing GSTA1-1, but not in cells expressing GSTP1-1. In contrast, methylene dichloride mutagenicity was unaffected by the presence of either GST. The mutagenicity of 2-aminofluorene, was not altered by the presence of either GST isozyme, while that of N-hydroxy-2-acetylaminofluorene was slightly reduced with both isozymes. The mutagenicity of aflatoxin B1 (AFB1) was marginally decreased in strains expressing GSTP1-1. When GSTA1-1 expression was maximally induced, however, a more pronounced reduction was observed suggesting a role for GSTA1-1 in AFB1 deactivation. The tester strains described here should be valuable in establishing the specificity of human GST isozymes towards chemical toxins and carcinogens, especially for compounds whose reactive intermediates are short lived.
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PMID:Human glutathione S-transferase-expressing Salmonella typhimurium tester strains to study the activation/detoxification of mutagenic compounds: studies with halogenated compounds, aromatic amines and aflatoxin B1. 833 Mar 52

Class Alpha glutathione S-transferases (GST-Alpha) are found in high concentrations in human liver. Increased plasma concentrations of GSTA1-1, the most abundant isoform of GST-Alpha, are a very sensitive marker for hepatocellular leakage. A sandwich-type ELISA was developed, based on a monoclonal antibody specific for human GSTA1-1 and a polyclonal rabbit anti-human GST-Alpha antiserum. The assay is specific for human GSTA1-1, and has a detection limit of 0.04 micrograms/L. The distribution of plasma GSTA1-1 concentrations in 350 blood donors was nearly normalized by logarithmic transformation and an upper normal reference concentration of 5.9 micrograms/L was calculated. Men had significantly higher plasma GSTA1-1 concentrations than women (P <0.0001). In women, but not in men, a significant increase was noted with age (P <0.05). In patients with inflammatory bowel disease (n= 210), gastrointestinal tumors (n= 70), irritable bowel disease (n= 36), or chronic pancreatitis (n= 12), plasma GSTA1-1 concentrations were similar to those of controls. In contrast, plasma GSTA1-1 concentrations were increased to a similar extent as alanine aminotransferase activities in patients with liver disorders (n= 37).
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PMID:Sandwich ELISA for glutathione S-transferase Alpha 1-1: plasma concentrations in controls and in patients with gastrointestinal disorders. 859 5

Busulfan is eliminated by glutathione S-transferase (GST)-catalyzed conjugation with glutathione (GSH). We have characterized the busulfan-conjugating activity of purified human liver GSTA1-1, GSTA1-2, GSTA2-2, GSTM1-1, and placental GSTP1-1. Isoforms were purified from cytosol by GSH-affinity chromatography and chromatofocusing. In addition, the busulfan-conjugating activity of cDNA-expressed GTH1 and GTH2, corresponding to GSTA1-1 and GSTA2-2, were characterized. The major product of busulfan conjugation, a thiophenium ion (THT+), was assayed by GC/MS after conversion to tetrahydrothiophene (THT). THT+ formation rate increased linearly with busulfan concentration up to its solubility limit for all GST isoforms. Because Vmax and KM could not be determined separately, the slope of the velocity vs. substrate concentration plot, Vmax/KM was used to compare isoform activities. Vmax/KM for GSTA1-1 was 7.95 microliters/min/mg protein, the highest busulfan-conjugating activity of all human liver and placenta isoforms evaluated. GSTM1-1 and GSTP1-1, respectively, had 46% and 18% of the activity of GSTA1-1. Since the polymorphic mu-class GST catalyzed busulfan conjugation, we examined busulfan clearance in 50 patients undergoing high-dose busulfan before bone marrow transplantation. Busulfan clearance was normally distributed, suggesting that GSTM1-1 does not contribute significantly to the elimination of busulfan from the body. We conclude that GSTA1-1 is the major isoform catalyzing busulfan conjugation, whereas GSTM1-1 and GSTP1-1 may be important in the protection of specific cells.
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PMID:Busulfan conjugation by glutathione S-transferases alpha, mu, and pi. 888 13

Prostaglandins containing an alpha,beta-unsaturated keto group, such as prostaglandin A2 (PGA2) and prostaglandin J2 (PGJ2), inhibit cell proliferation. These cyclopentenone prostaglandins may be conjugated with GSH chemically or enzymatically via glutathione S-transferases, and this has been suggested to result in inhibition of the antiproliferative mode of action. In the present study, the role of the major human GSTs in the conjugation of PGA2 and PGJ2 with GSH was investigated with purified enzymes, i.e., the Alpha-class enzymes GST A1-1 and GST A2-2, the Mu-class enzyme GST M1a-1a, and the Pi-class enzyme GST P1-1. The GSH conjugates were separated from the parent compound by HPLC and identified by fast atom bombardment mass spectrometry and 1H-NMR. Two GSH conjugates were found for both PGA2 and PGJ2, the R- and S-GSH conjugates of both prostaglandins. Incubation experiments with PGA2 and PGJ2 (70-600 microM) clearly showed the role of individual GSTs in the conjugation of PGA2 and PGJ2. Compared to the chemical reaction, enzyme activities towards PGA2 were up to 5.4 times as high (GSTA1-1) at the lowest concentration (70 microM), while at the highest concentration (600 microM) enzyme activities were up to 3.0 times as high (GST P1-1). For PGJ2, enzyme activities were up to 4.3 (GSTM1a-1a, 70 microM) and up to 3.1 (GSTM1a-1a, 600 microM) times as high. As expected, similar amounts of the R- and S-conjugates of both prostaglandins were found in the chemical reaction. Striking stereoselectivities in conjugating activities were observed for GST A1-1 and GST P1-1. GST A1-1 favors the formation of the R-GSH conjugates of both prostaglandins. GST P1-1 showed a clear selectivity with regard to the formation of the S-GSH conjugate of PGA2. However, this selectivity was not found for the formation of the S-GSH conjugate of PGJ2. GSTM1a-1a showed no stereoselectivity with regard to the GSH conjugation of both PGA2 and PGJ2. GSTA2-2 only showed some minor formation of the R-GSH conjugate of PGJ2. The possible implications of the observed stereoselectivity on the effects of PGA2 and PGJ2 are discussed.
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PMID:Stereoselective conjugation of prostaglandin A2 and prostaglandin J2 with glutathione, catalyzed by the human glutathione S-transferases A1-1, A2-2, M1a-1a, and P1-1. 908 11

The steric conversion of 13-cis-retinoic acid (13-cRA) to all-trans-retinoic acid (t-RA) has been proposed as an activation mechanism for the observed therapeutic and teratogenic activities of 13-cRA. Here we have investigated the catalysis of isomerization of 13-cRA to t-RA by recombinant human glutathione S-transferases (GSTs). Substrate was incubated with GST in 0.1 M sodium phosphate buffer, pH 7.5, at 37 degrees C in total darkness. The t-RA generated was measured quantitatively by HPLC. Under the reaction conditions used, GSTP1-1 was far more effective than human GSTM1-1 or human GSTA1-1 in catalysing the isomerization reaction. The reaction catalysed by GSTP1-1 showed substrate saturation and the Km and Vmax values for the reaction were approx. 7 microM and 650 pmol/min per nmol respectively. The reaction rate increased linearly with increasing enzyme concentration. The reaction was inhibited both by heat treatment and by S-decylglutathione (a potent inhibitor of transferase activity associated with GST). Additions of polyclonal rabbit antiserum for human GSTP1-1 to the reaction resulted in a significant decrease in generation of t-RA (70-80%). In addition, ethacrynic acid, a selective substrate for Pi isoforms of GST, also inhibited the isomerization of 13-cRA to t-RA catalysed by GSTP1-1. Under the same reaction conditions, GSTP1-1 was much less effective in catalysing the steric conversion of 9-cis-retinoic acid to t-RA, indicating that the enzyme was stereospecific for the conversion of 13-cRA to t-RA. These observations suggest that enzymic catalysis was the primary mechanism for the GSTP1-1-dependent conversion of 13-cRA to t-RA. Reactions catalysed by a purified rat hepatic GST Pi isoenzyme proceeded more slowly than reactions catalysed by human GSTP1-1. Comparative studies also showed that there were marked species differences in catalytic activities between various purified mammalian hepatic GST mixtures.
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PMID:Recombinant human glutathione S-transferases catalyse enzymic isomerization of 13-cis-retinoic acid to all-trans-retinoic acid in vitro. 980 4


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