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

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

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

Uncertainties about the composition and identities of glutathione S-transferases (GSTs) in human tissue have impeded studies on their biological functions. A rigorous protocol has therefore been developed to characterize the human proteins. Cytosolic GST subunits were resolved by reverse-phase HPLC methods, individual components were assigned to Alpha, Mu and Pi classes on the basis of their immunoreactivities, and peptide-sequence-specific antisera were used to distinguish among five different Mu-class subunits (GSTM1-GSTM5). Each subunit type was characterized and identified unambiguously by electrospray ionization-MS. Acetylation of N-terminal residues in the GSTA1, GSTA2, GSTM3 and GSTM4 subunits were the only natural post-translational modifications detected. The unique structure of GSTM3, with N- and C-terminal peptide extensions predicted from cDNA sequences, was confirmed. Only testis and brain were rich sources of GSTM3 subunits. Subunit profiles were distinct and characteristic of the particular tissue type, and this tissue specificity in GST expression was evident even in organs from different individuals. For instance, livers had relatively simple GST compositions, consisting of a preponderance of Alpha-class subunits and GSTM1 (when present). By contrast, representation of most subunit types was a characteristic feature of testis, which had the highest levels of GSTs. GSTM4 and GSTM5 subunits, here identified for the first time in human tissue extracts, were minor components, with GSTM5 found only in brain, lung and testis. Specimens devoid of GSTM1 subunits, particularly those from null-genotype individuals, were readily discerned at the protein level. Liver was the only rich source of the GSTM1 subunit (although it also constituted a major fraction of adrenal GSTs), and so the functional consequences of the GSTM1 gene deletion are likely to vary in extrahepatic tissues.
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PMID:Subunit diversity and tissue distribution of human glutathione S-transferases: interpretations based on electrospray ionization-MS and peptide sequence-specific antisera. 923 Jan 31

The effect of acute exposure to lead acetate on the expression of glutathione S-transferase (GST) subunits and the levels of reduced and oxidized glutathione (GSH) and malondialdehyde (MDA) in rat kidney and liver was determined. The purpose of this study was to determine if GSH depletion and/or oxidative stress were responsible for changes in the expression of some or all GSTs that followed lead exposure. In kidney, all GST subunits increased following injection of lead. The level of kidney GSH was not changed at either 0.5 or 1 h after lead exposure, but increased 3, 6, 12 and 24 h after a single injection of lead. MDA levels (a marker of lipid peroxidation) did not change in kidney following lead injection. Immunohistochemical markers of oxidative stress and nitric oxide production were also unchanged by lead administration. Therefore. we conclude that the increases in GST levels in kidney following lead exposure were not dependent on oxidative stress. In liver, lead injection caused GSH depletion (61% of control 12 h after lead treatment) and increased MDA production (2.5-fold increase 6 h after lead exposure), while GSTA1, GSTA2, GSTM1 and GSTM2 did not increase. Analysis of the effects of lead on GST mRNA and GST cellular localization were performed by Northern blot and immunohistochemical techniques. Immunoperoxidase light microscopy and immunogold electron microscopy revealed that the increase in kidney GSTM1 and GSTP1 occurred in nuclei, cytoplasm and microvilli of proximal tubules. Northern blot analysis of GSTA2 and GSTP1 mRNAs showed that their increase following lead exposure was inhibited by actinomycin D, suggesting transcriptional induction. This study demonstrates that acute lead exposure causes dramatic changes in the subcellular distribution and expression of rat kidney GSTs, and that these changes are not a result of oxidative stress.
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PMID:Effects of lead on rat kidney and liver: GST expression and oxidative stress. 975 42

SV40 T antigen downregulates the expression of an important detoxification enzyme, glutathione S-transferase alpha (GSTalpha). We show here that the target of this repression is a 14-bp element common to the human GSTA1 and GSTA2 promoters. This element, which we have named TAGR, is also critical for high-level, constitutive expression from these promoters. The TAGR element does not appear to contain a binding site for any transcription factor known to be present in fibroblasts, although the TAGR element does resemble the binding site for the Ikaros transcription factor found in hematopoietic cells. We also have identified a 47-amino-acid fragment of T antigen that includes amino acids 83-100 and 119-147, which is sufficient to repress transcription from the GSTalpha promoter in transient transcription assays. Thus, GSTalpha repression does not require binding of T antigen to pRb, p300, or p53, since the domains of T antigen required for binding these cellular proteins are missing from this T antigen fragment. We show, however, that this fragment does bind to three cellular proteins with approximate molecular weights of 54, 59, and 94 kDa.
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PMID:A 47-amino-acid fragment of SV40 T antigen represses transcription from human GSTalpha promoters. 979 Oct 19

Analysis of glutathione S-transferases (GSTs) of the alpha, mu, and pi classes by reverse-phase high-performance liquid chromatography and electrospray-ionization mass spectrometry in 43 samples of normal human pancreas demonstrated a wide variation in expression of subunits P1, A1, A2, A4, M1, M2, and M3 and the presence of a novel form designated GST "A5." GSTA2 consisted of three forms that were differentially expressed between individuals in a manner consistent with allelic polymorphism at the hGSTA2 locus. Expression, in terms of microg GST subunit/mg cytosolic protein, varied by 6-15-fold for subunits P1, A2, and M3 and 17-30-fold in the case of GSTs A1 and M2. Less consistently expressed were GSTs M1a, M1b, A4, and A5. Among these, GSTM1 expression (excluding M1-null samples) varied 12-fold between samples, whereas GST A4 and A5 expression varied approximately 50-100-fold between samples, well beyond the range of other subunits, suggesting that their expression is highly inducible. Linear correlations (P < 0.001-0.003) existed between levels of the most consistently expressed GST, GSTP1, and total GSTs, GSTA2 and M3, and in GSTM1-positive samples, between GSTM1, M3, and P1. The correlation between GST subunits P1 and M3 was bimodal according to M1 genotype, reflecting the presence of the regulatory element in hGSTM3*B that is linked with the hGSTM1*A genotype. It is concluded that although a degree of regulation of expression of GSTs occurs in human pancreas, the variability of phenotype is high and might obscure the effects of genetic polymorphisms on individual cancer susceptibility. Interindividual variation of GST expression is, therefore, a factor that should be taken account of in epidemiological studies.
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PMID:Quantitative analysis of interindividual variation of glutathione S-transferase expression in human pancreas and the ambiguity of correlating genotype with phenotype. 1067 39

Variability of expression of the major glutathione S-transferases (GSTs) of liver, GSTA1 and GSTA2, is thought to affect the efficiency of detoxification of xenobiotics, including chemical carcinogens. Polymorphism of the GSTA1 regulatory sequence determines some of the variation of hepatic GSTA1 expression, but the polymorphisms in GSTA2 (exons 5 and 7) were not thought to affect GSTA2 activity. By examining GST protein expression for a set of human liver and pancreas samples (coupled with a cloning/polymerase chain reaction-restriction fragment length polymorphism strategy), we identified a novel substitution Pro110Ser (328C>T) and the corresponding novel variant GSTA2*E (Ser110Ser112Lys196Glu210), and confirmed the presence of variants GSTA2*A (Pro110Ser112Lys196Glu210), GSTA2*B (Pro110Ser112Lys196Ala210) and GSTA2*C (Pro110Thr112Lys196Glu210). GSTA2*C occurred at 30-60% (i.e. approximately 100-fold more frequent than previously reported) and GSTA2*E occurred (heterozygous) at approximately 11%. Hepatic expression of the Ser112 variants (GSTA2*A, GSTA2*B or GSTA2*E) was approximately four-fold higher than that of the Thr112 variant (GSTA2*C). Compared to any other variant, GSTA2E had lower rates of catalysis towards 1-chloro-2,4-dinitrobenzene (CDNB), 4-vinylpyridine, and cumene-, t-butyl- and arachidonic acid hydroperoxides, although kcat/Km for CDNB were similar for all four variants. Using a prostate cancer case-control population, it was found that GSTA1*A/GSTA2 C335 and GSTA1*B/GSTA2 G335 were in linkage disequilibrium in Caucasians but not in African-Americans. However, there were no significant differences in the distribution of these polymorphisms or resultant haplotypes by case status. Nevertheless, the rare genotypes, GSTA2*E/*E and GSTA1*B/*B + GSTA2*C/*C (potential low GSTA2 activity and low hepatic GSTA1 and GSTA2 expression, respectively) could increase the risk of adverse effects of xenobiotics via compromised efficiency of detoxification.
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PMID:Human glutathione S-transferase A2 polymorphisms: variant expression, distribution in prostate cancer cases/controls and a novel form. 1512 49

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