Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Glutathione transferase P gene becomes highly and constitutively expressed in the course of chemical hepatocarcinogenesis of the rat. To understand the mechanism of this specific gene activation and also to obtain an insight into the general mechanism of tumor marker expression, we have been studying the regulation of a cloned gene of this enzyme. Analysis of the GST-P cDNA clone revealed that this enzyme consists of 209 amino acid residues and that homologies with other isozymes, Ya and Yc, were both about 32%. The rat GST-P gene consists of seven exons and six introns. Multiple regulatory elements were found in the 5' flanking region including two TPA responsive elements (TRE), a GC box, viral enhancer, core-like elements, and a silencer. This gene was activated by a tumor promoter TPA in certain cell lines. The rat cDNA clone or a TRE binding protein, c-jun oncogene, was isolated and characterized. Analysis of the tissue distribution and expression during chemical hepatocarcinogenesis of the c-jun mRNA suggests that the GST-P gene is regulated, at least in part, by the c-jun product. Further investigation of the mechanism of expression of GST-P, particularly in terms of the interaction with c-jun products, is now underway.
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PMID:Regulation of glutathione transferase P (GST-P) gene expression during chemical hepatocarcinogenesis. 239 67

Glutathione transferase (GST) was purified from the microsomes of rat liver by glutathione affinity chromatography. The interaction of 2,4-dichlorophenoxyacetic acid (2,4-D) and 1,4-benzoquinone with microsomal GST was investigated and compared with cytosolic GST. The kinetic inhibition pattern of 1,4-benzoquinone towards microsomal GST was found to be different from that towards cytosolic GST. Microsomal GST purified by affinity chromatography was inhibited by 2,4-D in a non dose-dependent manner, while the crude microsomal GST was inhibited in a dose-dependent manner. This difference was shown to be induced by a reaction on the affinity column, and not by Triton X-100 (also shown to be a GST inhibitor), glutathione, or the elution buffer 0.2% Triton X-100 and 5 mM glutathione in 50 mM Tris-HCl, pH 9.6. The binding of microsomal GST to the affinity matrix caused a partial inactivation of the active site for 2,4-D interaction. The results show that the properties of soluble GST enzymes may not be extrapolated to the microsomal ones.
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PMID:Interaction of 1,4-benzoquinone and 2,4-dichlorophenoxyacetic acid with microsomal glutathione transferase from rat liver. 246 44

Glutathione transferase (GST) activity towards racemic as well as the resolved enantiomers of 7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-epoxy-7,8,9,10-tetrahydrobenzo[a] pyrene (anti-BPDE) and 1-chloro-2,4-dinitrobenzene (CDNB) was measured in post-microsomal supernatants (PMS) obtained from eight human skin samples. All preparations showed significant activity towards anti-BPDE and an almost exclusive preference for the more tumourigenic (+)-enantiomer. The specific activity towards (+)-anti-BPDE varied about five-fold between different PMS (range 147-781 pmol/min per mg protein) whereas the variation in specific activities towards CDNB was about two-fold (range 30-71 nmol/min per mg protein). The activities obtained with PMS at saturating concentrations of racemic anti-BPDE were about half of the activity towards the (+)-enantiomer indicating that (-)-anti-BPDE competitively inhibits conjugation of the (+)-form. No correlation was evident between the activities towards (+)-anti-BPDE and CDNB implying that different classes of GST isoenzymes participated in the two different reactions. Immunoblot analysis revealed the presence of Class Alpha and Pi isoenzymes whereas Class Mu isoenzymes seemed to be absent in the human skin samples analyzed. Quantitatively, the Class Pi isoenzyme(s) predominated in all skin samples and the amount of enzyme was about 1-3 micrograms GST Pi/mg PMS protein. The almost exclusive conjugation of (+)-anti-BPDE by PMS and previous results with GST Pi enzymes from human placenta suggested that this type of enzymes catalysed the conjugation reaction. The five-fold variation in specific activity towards (+)-anti-BPDE observed among the different PMS may be explained by individual differences in GST Pi content or by the presence of endogenous modifiers of GST activity towards the diol-epoxide.
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PMID:Glutathione transferase catalyzed conjugation of benzo[a]pyrene 7,8-diol 9,10-epoxide with glutathione in human skin. 250 Feb 62

Glutathione transferase (GST) was investigated with 1-chloro-2,4-dinitrobenzene as substrate in tissues specimens of human nasal mucosa. The average +/- (SD) of GST activity in the cytosol was 76.8 +/- 21 nmol/min/mg with a range of 47-113. Using affinity chromatography and isoelectric focusing, the isozymes of GST from human nasal mucosa have been purified and characterized. On the criteria of isoelectric point, substrate specificities, apparent subunit molecular weight, sensitivity to characteristic inhibitors and immunological properties the major GST purified (about 85% of total activity) can be identified as class pi GST. Although a limited amount of class alpha GST was expressed by human nasal mucosa, no class mu isoenzymes was noted. In addition, we have also identified a GST subunit that cannot be related to any of three major classes of human GST.
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PMID:Glutathione transferases in human nasal mucosa. 261 55

The present study assesses the contribution of genetic and environmental factors to variability in placental aryl hydrocarbon hydroxylase and glutathione transferase activities using twin study methodology. Twin placentas were collected at the time of delivery. The placenta, except for a single layer of maternal decidua, consists of fetal tissue exhibiting fetal genotype. Microsomal and cytosolic fractions were prepared under stringent protocols to prevent enzyme activity loss. There were two monozygotic-monochorionic pairs, five monozygotic-dichorionic pairs, and 21 dizygotic-dichorionic pairs that showed measurable aryl hydrocarbon hydroxylase activity using the direct fluorometric assay. Most of the mothers were smokers. Aryl hydrocarbon hydroxylase activity was measured with two different substrates, benzo(a)pyrene and 7-ethoxyresorufin. Glutathione transferase activity was measured using glutathione and 1-chloro-2,4-dinitrobenzene as substrates for a spectrophotometric assay that follows the conversion of the aromatic substrate. Twin pair similarity was calculated with intraclass correlation coefficients. There is a high correlation between the activities of the two aryl hydrocarbon hydroxylase substrates (r = .814), but no correlation between aryl hydrocarbon hydroxylase and glutathione transferase activity levels. There is little evidence of genetic variability underlying the variation in the enzyme activities because monozygotic-dichorionic twins are no more similar to each other for the three substrate activities than are the dizygotic twins. To delineate the prenatal environmental influences on placental enzyme variability, dichorionic placentation was subdivided further into contiguous and noncontiguous placental position. Lower intraclass correlation coefficients are obtained for the dizygotic twins whose placentas were noncontiguous compared with dizygotic twins with contiguous placentas. The results suggest that most of the variability seen in these placental enzyme systems is due to environmental differences within uteri, rather than genetic variability in the population. This does not negate the possibility that between-pair, or population, variability may have a genetic component, because even dizygotic twins share a large proportion of their genes. This study points out that a significantly variable environment exists within the human uterus.
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PMID:Twin study methodology and variability in xenobiotic placental metabolism. 287 37

Glutathione transferase (GST) was present in 71 of 72 animal species/stages representing nine phyla when measured with 1-chloro-2,4-dinitrobenzene (CDNB). Our hypothesis that all animals have GST was not falsified. Transferase activity towards ethacrynic acid (ETHA) was present in species from all phyla investigated, but some animals seem to be without this activity. Activity towards 1,2-dichloro-4-nitrobenzene (DCNB) was less developed in aquatic animals than in terrestrial ones. The amount of protein binding to GSH-affinity gel matrix was rather uniform, ranging between 0.3 and 0.7% of soluble protein in homogenates of widely diverse animal species, thus being less variable than the enzyme activity. Transferases active towards DCNB did not bind at all or were less firmly bound to the GSH-affinity gel than the activity towards CDNB or ETHA. Fractionation was obtained by using a gradient of GSH. With SDS-electrophoresis it was demonstrated that the proteins with affinity to GSH had monomers in the MW-range 21.500-29.000. Hydra attenuata had one band (MW = 25,000); all other sources gave a complex pattern with up to six bands. It is concluded that GSTs are characteristic major constituents of animal cells, probably with some common basic function. Mutant forms able to aid detoxication are retained in the phylogenesis when they increase the fitness of the animal.
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PMID:Glutathione transferases in aquatic and terrestrial animals from nine phyla. 288 31

Glutathione transferase (GST) (EC 2.5.1.18) was purified from a cell extract of Issatchenkia orientalis, and two GST isoenzymes were isolated. They had molecular weights of 37,500 and 40,000 and were designated GST Y-1 and GST Y-2, respectively. GST Y-1 and GST Y-2 gave single bands with molecular weights of 22,000 and 23,500, respectively, on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. GST Y-1 and GST Y-2 were immunologically distinguished from each other. GST Y-1 showed specific activity 10.4-times and 6.0-times higher when 1-chloro-2,4-dinitrobenzene and o-dinitrobenzene were used as substrates, respectively, than GST Y-2. GST activity was not detected for either isoenzyme when other substrates such as bromosulfophthalein and trans-4-phenyl-3-buten-2-one were used. GST Y-1 and GST Y-2 had Km values of 0.51 and 0.75 mM for glutathione, respectively, and of 0.16 and 4.01 mM for 1-chloro-2,4-dinitrobenzene. GST Y-1 was significantly inhibited by Cibacron blue 3G-A, and GST Y-2 was significantly inhibited by bromosulfophthalein.
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PMID:Purification and properties of glutathione transferase from Issatchenkia orientalis. 291 66

Glutathione transferase (EC 2.5.1.18) from horse erythrocytes has been purified and some molecular and kinetic properties have been investigated. It appears to be a dimeric protein composed of subunits of about 23 kDa, indistinguishable either in sodium dodecyl sulfate or in urea electrophoresis. Amino acid composition, substrate specificities, sensitivity to inhibitors, CD spectra, and immunological studies provide evidence that the horse enzyme is related to the pi class transferases. This enzyme has only two reactive thiol groups/dimer whose integrity appears to be essential for the activity. A peculiar feature of these protein thiol groups is that they react nonidentically with a number of thiol blocking reagents, i.e. iodacetamide, bromopyruvate, N-ethylmaleimide, and 1-chloro-2,4-dinitrobenzene. Also many disulfides react with one thiol group 5- to 10-fold more rapidly than with the other. The two mixed disulfides so formed also have different rates of reactivation by dithiothreitol. All the structural and kinetic data reported in this paper indicate a nonsymmetrical association of two identical subunits, or alternatively heterodimeric structure with subunits of very similar charge and size.
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PMID:Nonequivalence of the two subunits of horse erythrocyte glutathione transferase in their reaction with sulfhydryl reagents. 292 13

Glutathione transferase activity in the cytosolic fractions of human lung tumors was found to be significantly higher than that present in the corresponding non-tumor cytosolic fractions. The relative activities of 'cationic', 'near-neutral' and 'acidic' glutathione transferases of both tumor and non-tumor cytosols were estimated after isoelectric focusing. More than 90% of activity in both tumor and non-tumor cytosols was found to be associated with the 'acidic' (pI 4.6) activity peak. In the chromatogram of tumor tissues the activity associated with the 'acidic' peak was found to be increased in comparison with non-tumor tissues. When the protein fractions associated with the 'acidic' peak of both tumor and non-tumor tissues were tested against the antibodies raised against human placenta transferase (transferase pi) a continuous precipitin line was obtained. An increased amount of immunoreactive glutathione transferase was also found in tumor cytosols as compared with non-tumor cytosols. Thus, our studies indicate that the predominant glutathione transferase of human lung appears to be electrophoretically and immunologically very similar or identical to transferase pi and that the elevation of transferase activity measured in the lung tumor cytosols was mainly due to increased quantity of this isoenzyme.
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PMID:Elevation of glutathione transferase activity in human lung tumor. 312 87

Glutathione transferase (GT; EC 2.5.1.18) mRNA levels were measured in human liver samples by using mouse and human cDNA clones that encode class-mu and class-alpha GT. Although all the RNA samples examined contained class-alpha GT mRNA, class-mu GT mRNA was found only in individuals whose peripheral leukocytes expressed GT activity on the substrate trans-stilbene oxide. The mouse class-mu cDNA clone was used to identify a human class-mu GT cDNA clone, lambda GTH411. The amino acid sequence of the GT encoded by lambda GTH411 is identical with the 23 residues determined for the human liver GT-mu isoenzyme and shares 76-81% identity with mouse and rat class-mu GT isoenzymes. The mouse and human class-mu GT cDNA inserts hybridize with multiple BamHI and EcoRI restriction fragments in the human genome. One of these hybridizing fragments is missing in the DNA of individuals who lack GT activity on trans-stilbene oxide. Hybridizations with nonoverlapping subfragments of lambda GTH411 suggest that there are at least three class-mu genes in the human genome. One of these genes appears to be deleted in individuals lacking GT activity on trans-stilbene oxide.
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PMID:Hereditary differences in the expression of the human glutathione transferase active on trans-stilbene oxide are due to a gene deletion. 317 34


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