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)

Six forms of glutathione transferase (GST) were resolved from the cytosolic fraction of Bufo bufo embryos at developmental stage 4 by GSH-Sepharose affinity chromatography followed by f.p.l.c. chromatofocusing in the 9-6 pH range. They have apparent isoelectric points at pH 8.37 (GST I), 8.22 (GST II), 8.10 (GST III), 7.84 (GST IV), 7.37 (GST V) and 7.12 (GST VI), and each displayed an apparent subunit molecular mass of 23 kDa by SDS/PAGE. The Bufo bufo embryo enzymes showed very similar structural, catalytic and immunological properties, as indicated by their substrate-specificities, inhibition characteristics, c.d. spectra, h.p.l.c. elution profiles and immunological reactivities, as well as by their N-terminal amino acid sequences. Although Bufo bufo embryo GSTs do not correspond to any other known GSTs, the results of our experiments indicate that amphibian GSTs could be included in the Pi family of GSTs. This conclusion is supported by the analysis of c.d. spectra, and by the fact that mammalian Pi class GSTs and amphibian GSTs showed about 80% identity in their N-terminal amino acid sequences. Furthermore, antisera prepared against Bufo bufo GST III cross-reacted in immunoblotting analysis with Pi class GSTs, and vice versa.
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PMID:Glutathione transferase isoenzymes from Bufo bufo embryos at an early developmental stage. 156 69

To assess the effect of prolonged administration of midazolam or isoflurane on hepatocellular integrity, we measured the concentrations of glutathione transferase (EC 2.5.1.18) B1 subunit and the activities of alanine aminotransferase (ALT; EC 2.6.1.2) and aspartate aminotransferase (AST; EC 2.6.1.1) in 40 patients who required long-term sedation with low-dose midazolam or isoflurane. Blood samples were collected before and 24 h after the start of the sedation and 0, 24, 72, 120, and 172 h after the last dose. ALT and AST activities did not change appreciably, but the glutathione transferase B1 concentration decreased significantly (P less than 0.03) at all times studied. The patients who received isoflurane and those who received midazolam showed no significant differences in any of the enzyme tests. We conclude that long-term sedation with midazolam or isoflurane is unlikely to affect hepatocellular integrity.
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PMID:Aspartate aminotransferase, alanine aminotransferase, and glutathione transferase in plasma during and after sedation by low-dose isoflurane or midazolam. 156 9

Activation of glutathione transferase activity in rat liver microsomes under a variety of conditions producing oxidative stress was investigated. Neither hydrogen peroxide (10 mM) (added or produced endogenously by glucose + glucose oxidase) nor duroquinone together with an NADPH-regenerating system (which generates the superoxide anion radical) had any significant effect on the glutathione transferase activity towards 1-chloro-2,4-dinitrobenzene. On the other hand, incubation of microsomes with 1 mM noradrenaline (which autooxidizes and generates superoxide anion radical) gave a 160% activation, as shown earlier (Aniya and Anders, J Biol Chem 264: 1998-2002, 1989). This was taken as an indication that microsomal glutathione transferase could be activated by oxidative stress. Here, we demonstrate that activation by this compound is due to covalent binding (presumably of the quinone formed during autooxidation). The xanthine/xanthine oxidase system, which generates the superoxide anion radical and hydrogen peroxide, increases microsomal glutathione transferase activity, but this activation was not dependent on the presence of xanthine. Western blots of microsomes treated with xanthine oxidase revealed that activation was due to proteolysis (presumably by contaminating proteases in the xanthine oxidase). In conclusion, there is no firm evidence that rat liver microsomal glutathione transferase is activated directly by reduced oxygen species in the microsomal system. The possibility remains that oxidative stress triggers secondary mechanisms such as generation of reactive intermediates and/or activation of proteolysis, which can in turn increase enzyme activity.
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PMID:Mechanism of activation of rat liver microsomal glutathione transferase by noradrenaline and xanthine oxidase. 157 69

Dichloromethane (DCM) is metabolized via a glutathione transferase (GST)-dependent pathway to formaldehyde (HCHO), a mutagenic compound that could play an important role in the carcinogenic effects of DCM observed in the liver and lungs of B6C3F1 mice at 2000 and 4000 ppm. Syrian hamsters metabolize DCM more slowly than mice via this pathway, and hamsters exposed to 3500 ppm showed no apparent carcinogenic response. The possible formation of DNA-protein cross-links (DPX) from DCM in both species was examined. Male mice and hamsters were pre-exposed for 2 days (6 hr/day) to 4000 ppm of DCM and on the third day were exposed (6 hr) to a decaying concentration (4500 to 2500 ppm) of [14C]DCM. DPX were detected in mouse liver, but not in mouse lung, hamster liver, or hamster lung. The failure to detect DPX in mouse lung does not exclude their possible formation in a subpopulation of lung cells. Metabolic incorporation of 14C derived from [14C]DCM into DNA suggested a higher rate of turnover of some mouse lung cells than of hamster lung cells, but no large difference in the turnover rates of liver cells in the two species under these conditions. These results demonstrate that HCHO derived from DCM can form DNA-protein cross-links in the liver of the B6C3F1 mouse. The formation of DPX is dependent on the activity of the GST pathway, and species such as hamsters and humans having much lower rates of DCM metabolism via this pathway may not generate toxicologically significant concentrations of HCHO and DPX.
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PMID:Dichloromethane (methylene chloride): metabolism to formaldehyde and formation of DNA-protein cross-links in B6C3F1 mice and Syrian golden hamsters. 158 69

Ascorbic acid (AH2) is a potential scavenger of superoxide radical and singlet oxygen. In the guinea pig, marginal AH2 deficiency results in intracellular oxidative damage in the cardiac tissue as evidenced by lipid peroxidation, formation of fluorescent pigment and loss of structural integrity of the microsomal membranes. The oxidative damage does not occur due to lack of enzymatic scavengers of reactive oxygen species such as superoxide dismutase, catalase and glutathione peroxidase. Also, glutathione transferase activity is not decreased in AH2 deficiency. Lipid peroxidation, fluorescent pigment formation and protein modification disappear after AH2 therapy. These results, if extra-polated to human beings, would indicate that chronic subclinical AH2 deficiency may result in progressive oxidative damage which in the long run may lead to permanent degenerative diseases in the heart.
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PMID:Protective role of ascorbic acid against lipid peroxidation and myocardial injury. 158 41

A cDNA clone, lambda GTRA8, encoding rat glutathione transferase subunit 8 has been isolated from a lambda gt10 rat hepatoma cDNA library. The previously known amino acid sequence of the enzyme was used to design primers for a polymerase chain reaction that yielded a 0.3 kb DNA fragment from the hepatoma library. The 0.3 kb fragment was used as a probe for screening and a 0.9 kb cDNA clone containing a complete open reading frame was obtained. After DNA sequencing and subcloning into an expression vector, the enzyme was expressed in Escherichia coli and purified. Specific activities and kcat./Km values were determined for a number of substrates, including alpha,beta-unsaturated carbonyl compounds. The highest activity was obtained with 4-hydroxyalkenals and with acrolein, genotoxic products of lipid peroxidation. In addition, the rat class Alpha glutathione transferase 8-8 displays high catalytic activity in the reaction between glutathione and the diuretic drug ethacrynic acid, a compound normally considered as a substrate characteristic for class Pi glutathione transferases.
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PMID:Cloning and heterologous expression of cDNA encoding class alpha rat glutathione transferase 8-8, an enzyme with high catalytic activity towards genotoxic alpha,beta-unsaturated carbonyl compounds. 159 15

Fatty acid ethyl ester synthases metabolize ethanol nonoxidatively in those extrahepatic organs most commonly damaged by alcohol abuse. This study was designed to isolate and purify human myocardial synthase-II, one of the enzymes responsible for catalyzing the formation of fatty acid ethyl esters. DEAE-cellulose chromatography of human myocardial cytosol at pH 8.0 separated synthase-I, synthase-II, and synthase-III activities, eluting at conductivities of 5, 7, and 11 mS, respectively. From this elution profile, fatty acid ethyl ester synthase-II accounts for up to 50% of total synthesis in the human heart. This enzyme species was purified over 2200-fold to homogeneity after chromatography over hydroxylapatite, CM-cellulose, and hydroxylapatite. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of this homogeneous species showed a single band at 65 kDa which corresponded to its molecular weight determined by gel filtration. This molecular weight and its lack of glutathione transferase activity indicate that this species is not related to synthase-I and -III. Homogeneous synthase-II has a Vmax for palmitate, stearate, oleate, and linoleate of 70, 80, 140, and 120 nmol/mg/h, respectively. The Km for palmitate, stearate, oleate, and linoleate is 0.19, 0.12, 0.10, and 0.18 mM, respectively. The substrate specificity with respect to alcohol chain length was also investigated in the presence of 0.65 mM [14C]oleic acid. The Vmax for methanol, ethanol, propanol, and butanol was 180, 100, 280, and 410 nmol/mg/h, respectively. The Km for methanol, ethanol, propanol, and butanol was 1.16, 1.04, 0.58, and 0.33 M, respectively. The N-terminal 17-amino acid sequence of human synthase-II does not correspond to any known N-terminal amino acid sequence, indicating that this may be a novel protein. However, it has over 70% homology to a sequence close to the C terminus of rabbit cytochrome P-450IIC1 and over 50% homology to a sequence of human hemopexin starting at residue 16. Synthase-II does not cross-react with human hemopexin antibody and rat cytochrome P-450C antibody. Thus, this study provides evidence that synthase-II is a novel protein, distinct from synthase-I and -III, and it also provides a foundation for subsequent cloning and genetic studies of fatty acid ethyl ester synthase-II in man.
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PMID:Purification and characterization of fatty acid ethyl ester synthase-II from human myocardium. 161 26

The effect of low protein choline-deficient diet on total vitamin B12 content and individual cobalamin level in the blood serum and liver of rats was determined. Moreover the total and non-protein SH-group content and glutathione transferase activity in the liver of rats were studied. Total cobalamin content increased in the blood serum, but it did not change in the liver of rats fed choline-deficient low protein diet. Total and non-protein SH-group level as well as glutathione transferase activity in the liver decreased significantly. The causes of changes revealed are discussed. Methylcobalamin (but not adenosylcobalamin) administration normalized individual cobalamin level in the blood serum. Administration of both methylcobalamin and adenosyl-cobalamin resulted in total SH-group content restoration whereas non-protein SH-group level and glutathione transferase activity were restored only in methylcobalamin-treated rats.
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PMID:[Vitamin B 12 metabolism and the status of sulfhydryl groups in protein-choline deficiency in rats. Effects of methyl- and adenosylcobalamins]. 162 77

The dissociation and unfolding of the homodimeric glutathione transferase (GST) Pi from human placenta, using different physicochemical denaturants, have been investigated at equilibrium. The protein transitions were followed by monitoring loss of activity, intrinsic fluorescence, tyrosine exposure, far-u.v. c.d. and gel-filtration retention time of the protein. At low denaturant concentration (less than 1 M for guanidinium chloride and less than 4.5 M for urea), a reversible dissociation step leading to inactivation of the enzyme was observed. At higher denaturant concentrations the monomer unfolds completely. The same unfolding behaviour was also observed with high hydrostatic pressure as denaturant. Our results indicate that the denaturation of GST Pi is a multistep process, i.e. dissociation of the active dimer into structured inactive monomers followed by unfolding.
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PMID:Dissociation and unfolding of Pi-class glutathione transferase. Evidence for a monomeric inactive intermediate. 163 6

Five amino acids in proximity to GSH bound in the active-site cavity of human Class Pi glutathione transferase (GST) P1-1 were mutated by oligonucleotide-directed site-specific mutagenesis. The following mutations gave catalytically active mutant proteins with the proper dimeric structure: Arg14----Ala, Lys45----Ala, Gln52----Ala, Gln65----His and Asp99----Asn. The mutation Gln65----Ala was also made, but the protein was not characterized because of its poor catalytic activity. Residues Arg14, Lys45, Gln52 and Gln65 all contribute to binding of glutathione, and the substitutions caused an approx. 10-fold decrease in affinity, corresponding to 5 kJ/mol, except for Arg14, for which the effect was larger. In addition, Arg14 appears to have an important structure role, since the Arg14----Ala mutant demonstrated a significantly lower stability as compared with the wild-type and the other mutant enzymes. Asp99 primarily contributes to catalysis rather than to binding. The kcat./Km-versus-pH profile for the Asp99----Asn mutant is shifted by 0.5 pH unit in the alkaline direction, and it is proposed that Asp99 may participate in proton transfer in the catalytic mechanism. The possibility of redesigning the substrate specificity for GSTs was shown by the fact that the mutant Lys45----Ala displayed a higher catalytic efficiency with GSH monoethyl ester than with its natural substrate, GSH.
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PMID:Contribution of five amino acid residues in the glutathione-binding site to the function of human glutathione transferase P1-1. 163 29


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