EC:2.5.1.18 - FACTA Search

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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)

Chromosomal assignments of genes for rat glutathione S-transferase Ya (GSTA1) and Yc subunits (GSTA2) were performed by Southern blot analyses of somatic cell hybrid DNAs.GSTA1 and GSTA2 were assigned to rat chromosomes 8 and 9, respectively.
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PMID:Chromosomal assignments of genes for rat glutathione S-transferase Ya (GSTA1) and Yc subunits (GSTA2). 139 20

Established cell lines derived from newborn livers of c14CoS/c14CoS and cch/cch mice were examined for differences in menadione toxicity. The 14CoS/14CoS cells exhibit 10-fold higher NAD(P)H:menadione oxidoreductase (NMO1) activity and 3-fold greater concentrations of reduced glutathione (GSH) than the ch/ch cells. In 14CoS/14CoS cells there are also 50% to 3-fold increases in glutathione transferase (GSTA1), UDP glucuronosyltransferase, and the copper, zinc-dependent superoxide dismutase activities. Catalase activity, on the other hand, is six times lower in the 14CoS/14CoS than the ch/ch line. The 14CoS/14CoS cells are two to four times more resistant to menadione killing than ch/ch cells. At concentrations of dicumarol that completely block NMO1 and GSTA1 activities, the 14CoS/14CoS cells show more than twice as much resistance to menadione toxicity than the ch/ch cells. Although superoxide formation is three times higher in untreated 14CoS/14CoS than ch/ch cells, menadione-induced superoxide formation is greater in the dying ch/ch than in the 14CoS/14CoS cells. Cellular resistance to menadione toxicity is correlated with intracellular GSH levels, rather than with the percentage of oxidized glutathione; cytotoxicity is not observed as long as GSH concentrations are sufficiently high (about 5-8 nmol/mg protein). For menadione, the results are consistent with a dominant role of GSH depletion in mediating toxicity and support a protective role for NMO1 activity. This report demonstrates the usefulness of these cell lines as a model system to study mechanisms of oxidative chemically induced toxicity, as well as to understand how intracellular levels of GSH are regulated.
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PMID:Menadione toxicity in two mouse liver established cell lines having striking genetic differences in quinone reductase activity and glutathione concentrations. 769 Sep 96

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

Current knowledge on the structure of human alpha-class glutathione S-transferase (GST) genes and the regulation of their expression is reviewed. The alpha-class GST comprises several genes and pseudogenes localised in a tight cluster on chromosome 6. Although the human GSTA1 and GSTA2 genes have the same number of exons and introns as their rat and mouse counterparts, the sequences of the 5'-flanking regions of the human alpha-class genes are significantly different from the rodents, suggesting different mechanisms of regulation between human and rodents. The expression of GST alpha is altered in a variety of tumors and several lines of evidence implicate the alpha-class GSTs in chemotherapeutic drug resistance. Finally, the induction of human GSTs by drugs or nutritional constituents would justify an interest for developing chemointervention strategies in populations highly exposed to carcinogens like aflatoxin B1 and polycyclic aromatic hydrocarbons.
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PMID:Gene structure and regulation of expression of human glutathione S-transferases alpha. 788 77

Hep G2 cells, an established cell line derived from a human hepatoma, have retained a number of hepatocytic phase I and II reactions. The influence of picolines (2-, 3- and 4-methylpyridine), related compounds and some classical enzyme inducers on specific glutathione transferase (GST) activity and its subunit composition in Hep G2 cells was investigated. Increased GST activity was observed for rifamycin, phenobarbital, pyrazine and the picolines, of which the 4-isomer was the strongest inducer. The GST subunits were analysed by HPLC. GSTP1, GSTM1a, GSTA1 and GSTA2 were present in control Hep G2 cells. GSTM1a disappeared or was strongly reduced under the influence of the test chemicals. All GST increases were due to augmented GSTA1 expression. Thus, picolines stimulate GST activity in Hep G2 cells by influencing the class alpha GSTA1.
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PMID:The influence of picolines on glutathione transferase activity and subunit composition in human liver derived Hep G2 cells. 798 10

We have isolated the 5'flanking regions of two human Alpha class glutathione S-transferase genes, GSTA1 and GSTA2. The two genes share 95% sequence identity between nucleotide positions -1,300 and +500 from the transcriptional start site. Various DNA fragments from the 5' flanking region of the GSTA1 gene were fused to the chloramphenicol acetyltransferase reporter gene and transfected into HepG2 cells. The results indicated that negative regulatory and enhancer elements are located in the sequence upstream of the GSTA1 gene. Sequence analysis and functional assays have not found any evidence for xenobiotic- or antioxidant-responsive elements previously described in rodent Alpha class genes. Thus the transcriptional regulation of the human Alpha class glutathione S-transferase genes may be dramatically different from the regulation of Alpha class glutathione S-transferase genes in rodents.
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PMID:Structure and function of the 5' flanking sequences of the human alpha class glutathione S-transferase genes. 818 23

We have isolated and characterized genomic DNA encoding several human Alpha class glutathione S-transferase genes and pseudogenes. All the genes are composed of seven exons with boundaries identical to those of the Alpha class genes in rats. The GSTA1 gene is approximately 12 kb in length and is closely flanked by other Alpha class gene sequences. The complete sequence of the 1.7-kb intergenic region between exon 7 of an upstream pseudogene and exon 1 of the GSTA1 gene has been determined. An additional gene that encodes an uncharacterized Alpha class glutathione S-transferase has been identified. The protein derived from this gene would have 19 amino acid substitutions compared with the GSTA1 isoenzyme. Several pseudogenes with single-base and/or complete exon deletions have been identified, but no reverse-transcribed pseudogenes have been detected. The occurrence of multiple genes and pseudogenes on a single fragment of cloned genomic DNA and the prior identification of a single chromosomal region (6p12) of hybridization (Board and Webb, 1987, Proc. Natl. Acad. Sci. USA 84:2377-2381) suggest that all the Alpha class genes are members of a closely linked gene family that has evolved by duplication and gene conversion events.
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PMID:Structure and organization of the human alpha class glutathione S-transferase genes and related pseudogenes. 830 79

In rodents, a diversity of compounds are able to protect against acute and chronic toxicities of various xenobiotics including carcinogens, at least in part through induction of drug-metabolizing enzymes including glutathione S-transferase (GST) enzymes. We have posed the question as to whether or not these compounds also induce GSTs in human liver. Primary human hepatocyte cultures were exposed to phenobarbital, 3-methylcholanthrene, and two dithiolethiones [1,2-dithiole-3-thione and its 5-(2-pyrazinyl)-4-methyl derivative, oltipraz], and steady-state mRNA levels of GST classes alpha, mu, and pi were determined by Northern blot analysis. After 3 daily treatments, the two dithiolethiones were the most potent inducers; phenobarbital was also effective but to a lesser extent and 3-methylcholanthrene increased GST mRNA in only 2 of the 6 samples, although it stimulated cytochrome P-450 1A2 mRNA in all cell preparations. Whatever the compound only GSTA1 and/or A2 transcripts were induced. GST M1 mRNAs were not responsive or only slightly responsive, and GST P1 mRNAs, which were mostly undetectable in control cells, were not affected by treatment with any of the four chemicals. Large individual variations were observed in the level of induction of GST A1 and/or A2 mRNAs, and no sex difference could be demonstrated. These results clearly indicate that phenobarbital, 3-methylcholanthrene, and dithiolethiones are able to markedly increase mRNA levels of GST in human hepatocytes and that the GST alpha class is preferentially involved.
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PMID:Preferential increase of glutathione S-transferase class alpha transcripts in cultured human hepatocytes by phenobarbital, 3-methylcholanthrene, and dithiolethiones. 841 13

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

Glutathione S-transferases are involved in the detoxification of reactive electrophilic compounds, including intracellular metabolites, drugs, pollutants and pesticides. A cluster of three glutathione S-transferase genes, designated GSTA, GSTA1 and GSTA2, was isolated from the marine flatfish, plaice (Pleuronectes platessa). GSTA and GSTA1 code for protein products with 76% amino acid identity. GSTA2 appears to contain a single nucleotide deletion which would render any product non-functional. All of these genes consist of six exons of similar sizes and greater than 70% nucleotide identity, and are interrupted by five introns of differing sizes. GSTA and GSTA1 mRNAs were present in a range of tissues, while GSTA2 mRNA was no detected. Expression of GSTA mRNA was increased in plaice intestine and spleen by pretreatment with beta-naphthoflavone, and expression of both GSTA and GSTA1 mRNAs was increased in plaice liver and gill by pretreatment with the peroxisome proliferating agent perfluoro-octanoic acid.
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PMID:Structure and expression of a cluster of glutathione S-transferase genes from a marine fish, the plaice (Pleuronectes platessa). 902 Aug 73

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