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)

A previous in situ hybridization study with a Pi class glutathione S-transferase cDNA probe revealed the presence of hybridizing sequences on the long arms of chromosomes 11 and 12. Since the GSTP1 gene is known to be on chromosome 11 and since it is thought that chromosomes 11 and 12 arose from an ancient tetraploidization event, it was of interest to determine if the gene on chromosome 12 encoded a closely related Pi class glutathione S-transferase isoenzyme. This gene has now been cloned and sequenced. The results are surprising and indicate that the gene is a partial reverse-transcribed pseudogene that has been inserted into the genome at 12q by chance and has not resulted from the prior tetraploidization of the human genome.
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PMID:The human Pi class glutathione transferase sequence at 12q13-q14 is a reverse-transcribed pseudogene. 142 60

Class pi-glutathione S-transferase (GSTP-1) is one of several factors proposed to affect drug sensitivity to cisdiamminedichloroplatinum (II) (CDDP). It has also been investigated as a potential marker for the serodiagnosis of various types of cancers. In this study, attempts were made to quantify mRNA levels of the enzyme in healthy and cancerous gastric mucosa specimens, and to evaluate their significance in inherent drug resistance to CDDP. Thirty gastric cancer specimens were analysed by northern blotting with radiolabelled GSTP1 cDNA. Of these, the chemosensitivities of 22 specimens were evaluated by the succinic dehydrogenase inhibition (SDI) test. GSTP-1 mRNA was detected in all the specimens, with slightly increased, but non-significant expression in the neoplasms. Comparison of these drug sensitivities with results of northern blotting analysis showed no inverse correlation, as was expected from the widely investigated role of the enzyme in drug resistance.
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PMID:Expression of pi-glutathione S-transferase gene (GSTP1) in gastric cancer: lack of correlation with resistance against cis-diamminedichloroplatinum (II). 785 16

Expression of cloned genes in prokaryotes such as Escherichia coli is a widely used technique in both basic research and biotechnology. Despite the availability of several E. coli expression vector systems, adequate levels of expression may not be achieved. Expressing proteins as fusions to the highly conserved eukaryotic protein ubiquitin has been reported by several investigators to enhance protein yield in both bacterial and eukaryotic systems. We have modified this technique by the co-expression in E. coli of a ubiquitin-fusion protein and the Saccharomyces cerevisiae ubiquitin-specific protease Ubp2. This allows the co-translational cleavage of engineered ubiquitin-fusion proteins expressed in E. coli. This system was used to express a human Pi class glutathione S-transferase (GST) GSTP1 as well as two mutant GSTP1 derivatives, Trp39-->Cys and Gln52-->Glu. The yield of these enzymes was improved 40-fold by using the ubiquitin-fusion/co-translational cleavage technique, and no uncleaved product was detected. The Trp39-->Cys mutant was totally devoid of GST activity, while the activity of the Gln52-->Glu mutant was reduced to 6% of wild-type GSTP1-1. As both of the mutated residues map within the glutathione-binding site, the reduced GST activity is consistent with a marked reduction in glutathione binding ability.
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PMID:Protein expression using cotranslational fusion and cleavage of ubiquitin. Mutagenesis of the glutathione-binding site of human Pi class glutathione S-transferase. 792 35

Hypermethylation of regulatory sequences at the locus of the pi-class glutathione S-transferase gene GSTP1 was detected in 20 of 20 human prostatic carcinoma tissue specimens studied but not in normal tissues or prostatic tissues exhibiting benign hyperplasia. In addition, a striking decrease in GSTP1 expression was found to accompany human prostatic carcinogenesis. Immunohistochemical staining with anti-GSTP1 antibodies failed to detect the enzyme in 88 of 91 prostatic carcinomas analyzed. In vitro, GSTP1 expression was limited to human prostatic cancer cell lines containing GSTP1 alleles with hypomethylated promoter sequences; a human prostatic cancer cell line containing only hypermethylated GSTP1 promoter sequences did not express GSTP1 mRNA or polypeptides. Methylation of cytidine nucleotides in GSTP1 regulatory sequences constitutes the most common genomic alteration yet described for human prostate cancer.
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PMID:Cytidine methylation of regulatory sequences near the pi-class glutathione S-transferase gene accompanies human prostatic carcinogenesis. 797 32

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

Elevated levels of the human pi class glutathione S-transferase (GSTP1-1) have been implicated in the development of antineoplastic drug resistance. Using GSTP1 promoter deletion constructs we have shown that enhanced GSTP1 transcription (up to 18-fold) is the predominant mechanism responsible for increased GSTP1-1 levels in a multidrug resistant derivative (VCREMS) of the human mammary carcinoma cell line MCF7. Furthermore, disruption of a putative AP-1 response element within the GSTP1 promoter (nucleotides -69 to -63) abrogated GSTP1 transcription in both cell lines. In addition, band shift assays demonstrated binding of a VCREMS nuclear complex to the promoter region C1 (-73 to -54) which could be competed for by a DNA fragment containing a known AP-1 binding site from the human collagenase promoter. However, no such competition was observed for the major MCF7 C1 complex. The role of a Fos-Jun-like complex in regulating GSTP1 transcription in VCREMS cells was further emphasized by the introduction of point mutations within the C1 region which were known to inhibit AP-1 binding and the interaction of antisera raised against human c-Jun and c-Fos with the major C1 complex in VCREMS cells. These studies therefore highlight cell-specific differences in the binding pattern of Jun and Fos proteins to the GSTP1 promoter which are likely to play an important role in regulating transcriptional activation of the GSTP1 gene in drug-resistant breast cancer cells.
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PMID:Involvement of Jun and Fos proteins in regulating transcriptional activation of the human pi class glutathione S-transferase gene in multidrug-resistant MCF7 breast cancer cells. 820 48

Recently, Bora et al. (Bora, P. S., Bora, N. S., Wu, X., and Lange, L. G. (1991) J. Biol. Chem. 266, 16774-16777) reported the cloning and expression of a human fatty acid ethyl ester synthase III (FAEES-III) cDNA that has only four amino acid substitutions compared with human glutathione S-transferase (GST) GSTP1-1, and, when expressed in MCF-7 cells, the protein has both FAEES and GST activities. By site-directed mutagenesis of a GSTP1 cDNA, we have constructed a clone that encodes the FAEES-III protein described by Bora et al. (1991). The recombinant FAEES-III protein was expressed in Escherichia coli and has been shown to be devoid of FAEES and GST activities. The recombinant FAEES-III protein does not bind to a glutathione agarose affinity matrix, presumably because two of the substituted amino acids, Trp-39-->Cys and Gln-52-->Glu, are thought to contribute to the GST glutathione binding site. One of the base substitutions in the FAEES-III cDNA encodes an extra SacI site not found in the GSTPI cDNA. Polymerase chain reaction amplification of human genomic DNA has identified the GSTPI gene, but no DNA from the proposed FAEES gene with a diagnostic SacI site has been detected. Evaluation of the hybridization pattern of HindIII genomic restriction fragments has identified fragments that contain the GSTPI gene and a pseudogene (Board et al. 1992), and there do not appear to be any hybridizing fragments that could contain the FAEES-III gene. Our results do not provide any evidence in support of a relationship between FAEES-III and GST, and the cDNA reported by Bora et al. (1991) may have resulted from a cloning artifact.
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PMID:Evidence against a relationship between fatty acid ethyl ester synthase and the Pi class glutathione S-transferase in humans. 834 Mar 90

Glutathione S-transferases (GSTs) are a group of enzymes which play an important role in the detoxication of xenobiotics. It is shown that the expression of human glutathione S-transferase P1-1 (GSTP1-1) is suppressed by retinoic acid (RA) as the result of decreased transcription from its gene, GSTP1. Chloramphenicol acetyltransferase (CAT) assays indicate that the effect of RA on the transcription of a GSTP1 promoter-CAT fusion gene is mediated by the region -99 to +72 of GSTP1. A consensus activator protein 1-binding site, located at nucleotide position -59 to -65 of GSTP1, is suggested to be responsible for RA repression. This effect of RA on GSTP1 expression is mediated by the human beta-type RA receptor, hRAR beta, but not the chicken retinoid X receptor, cRXR. The retinoid X receptor does not augment the action of hRAR beta on GSTP1. In addition, it is shown that GSTP1-1 expression is enhanced by insulin as a result of increased transcription of GSTP1. Assay of CAT activity indicates that the effect of insulin on the transcription of GSTP1 is also mediated by the region -99 to +72 of GSTP1. Comparison with sequences of other insulin-responsive genes, suggests that insulin enhancement of GSTP1 expression is effected by an eight-base-pair sequence, 'CCCGCGTC', located at +48 to +55 in intron 1 of the gene. These results are discussed in relation to the increased expression of GSTP1-1 in many tumour cells.
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PMID:The human glutathione S-transferase P1-1 gene: modulation of expression by retinoic acid and insulin. 839 Dec 58

High levels of expression of GSTP1-1 are associated with cell proliferation, embryogenesis and malignancy. Given the role of glutathione S-transferase (GST) in detoxication, it is possible that GSTP1-1 evolved specifically to protect proliferating cells and share regulatory mechanisms with other cellular genes which are involved in cell division and tumorigenesis. We have previously shown that the expression of GSTP1 is suppressed by retinoic acid (RA) in the presence of the retinoic acid receptor (RAR) as a result of decreased transcription from its promoter. Through deletion analysis, we show here that the RA-RAR-dependent repression is mediated by the region -73 to +8. Further mutation analysis of this region indicates that the DNA sequence required for RA-RAR-dependent repression co-localizes with a consensus activator protein-1 (AP1) site essential for the promoter activity. The degree of repression correlates with the residual activity of the AP1 site. There are two adjacent G/C boxes. The one immediately downstream from the AP1 site is not essential for the promoter activity, but mutation of the second, further downstream, impairs the promoter. On the other hand, mutation of either of these two G/C boxes has little effect on RA-RAR suppression. We also show that the expression of GSTP1 is regulated by the redox status of the cell. Using the chloramphenicol acetyltransferase assay system, we have demonstrated that treatment with H2O2 induced transcription from the promoter and that this effect can be blocked by pre-incubation with N-acetylcysteine (NAC). It was shown that the induction by H2O2 is mediated by trans-acting factor NF-kappa B (nuclear factor kappa B), via a putative NF-kappa B site, 'GGGACCCTCC', located from -96 to -86. Co-transfection with an NF-kappa B (p65) expression construct increased the promoter activity, an effect which could be blocked by co-transfection with an I kappa B (MAD-3) expression construct. Deletion of the NF-kappa B site abolished the effect of both H2O2 and co-transfection of NF-kappa B. Interestingly, NAC is also an inducer for GSTP1. The effect of NAC was shown to be mediated largely by the AP1 site, since mutation of this site abolished the induction by NAC.
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PMID:The organization of the human GSTP1-1 gene promoter and its response to retinoic acid and cellular redox status. 854 77

The steady state expression of glutathione S-transferases (GSTs) at both the protein and mRNA level is reported for the 60 tumor cell lines that are used for the National Cancer Institute Drug Screening Program. Individual GST isozymes were separated, identified, and quantified (with reverse-phase calibration curves) through a novel high performance liquid chromatographic procedure. GSTP1 was the predominant isozyme and was found at quantifiable levels in all but two of the cell lines. This isozyme ranged from 0.03% to 2.7% of the total cytosolic protein. For the mu family, 90% of the lines had GSTM2, 68% had GSTM3, but only 28% were positive for the M1 phenotype. The M1 proportion is lower than would be expected from the standard M1 null phenotype for human populations. Isozymes of the alpha family were detected only at very low levels in 35% of the lines. Significant quantitative correlations among enzyme activity, total enzyme protein, and mRNA were shown for GSTP1. However, such relationships were not apparent for the mu or alpha families. Levels of glutathione (GSH), and the transcript levels of other enzymes involved in GSH homeostasis were determined. gamma-Glutamyl cysteine synthetase (gamma-GCS) was present in all cell lines, but did not correlate with levels of intracellular GSH. Glyoxalase-I and gamma-glutamyl transpeptidase, both involved in GSH salvage, were found in 100% and 70% of the cell lines, respectively. Using a pattern-matching computer program, COMPARE, we compared and correlated the arrays of mRNA and protein levels with the pattern of chemosensitivity or chemoresistance of the 60 cell lines with 175 agents constituting a standard agent database. This database is composed of compounds to which a putative mechanism of action has been assigned. Although Pearson correlation coefficients relating the target and drug patterns were generally modest, when the patterns for the enzyme protein and mRNA levels for GST pi were correlated to drug sensitivity patterns, the list of 30 agents most closely matching (for which P < 0.05) was enriched with alkylating agents. gamma-GCS also showed an enrichment of alkylating agents in the COMPARE correlations, indicating that high levels of gamma-GCS may be an important determinant of resistance. In contrast, none of the other enzymes or GSH had patterns of expression that resulted in an obvious correlation to the sensitivity or resistance of alkylating agents.
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PMID:Glutathione-associated enzymes in the human cell lines of the National Cancer Institute Drug Screening Program. 870 Jan 7

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