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)

Glutathione transferase (GST) of human erythrocytes, while homogeneous upon electrophoresis, varied more than sixfold in amount in individuals. The levels of this enzyme were found to be inherited, but no practical way was devised to use this enzyme as a genetic marker.
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PMID:Variability of glutathione S-transferase of human erythrocytes. 692 33

1. Glutathione transferase and epoxide hydratase activities were determined in liver, lung and kidney of nine species including man with [7-3H]styrene oxide as substrate. 2. Activity was detectable in all tissues. The activities of both enzymes were higher in the liver of all species than in either kidney or lung. 3. The baboon had the highest hepatic epoxide hydratase activity, 31 +/- 2 nmol/mg per min, while the mouse had the lowest hepatic activity, 1.9 +/- 0.1 nmol/mg per min. 4. Rodent species had higher glutathione transferase activity than non-rodent species, mouse liver having the highest activity, 143 +/- 13 nmol conjugate/mg per min. 5. Taking all the data into account, it is concluded that no single species of those studied is a suitable model for the disposition of epoxides in man.
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PMID:Tissue and species differences in enzymes of epoxide metabolism. 723 69

Glutathione transferase-P (GST-P) in rats is specifically expressed in precancerous lesions and in hepatomas induced by carcinogens or spontaneously arising hepatomas. GST-P expression in preneoplastic lesions is suppressed by peroxisome proliferators. To determine the mechanism of suppression of GST-P expression by peroxisome proliferators on a molecular level, we have analyzed the effects of peroxisome proliferators and their receptor (peroxisome proliferator-activated receptor alpha, PPAR alpha) on GST-P expression. GST-P gene expression linked to a reporter gene was specifically suppressed by cotransfection with a PPAR alpha expression plasmid in the presence of the peroxisome proliferator, clofibrate. The target element of the suppression was a 12-O-tetradecanoylphorbol-13-acetate-responsive element located 61 nucleotides upstream from the cap site, which is also internal to a Maf consensus binding sequence. Both Jun and Maf bind to this element and activate the gene having this element, but only Jun-activated expression was specifically inhibited by PPAR alpha. Expression of a transfected reporter gene linked to a PPAR-responsive element was inhibited by cotransfection with a Jun expression plasmid. These results suggest that PPAR alpha and Jun interact and share inhibitory activities, similar to Jun and the glucocorticoid receptor.
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PMID:Suppression of rat glutathione transferase P expression by peroxisome proliferators: interaction between Jun and peroxisome proliferator-activated receptor alpha. 758 3

Glutathione transferase P1-1 (EC 2.5.1.18) is a dimeric enzyme composed of identical subunits each containing one binding site for GSH and a second for the co-substrate e.g. 1-chloro-2,4-dinitrobenzene. Steady-state kinetics are strictly hyperbolic toward both these substrates. Replacement of Cys-47 with alanine or serine decreases the affinity for GSH and triggers a positive kinetic cooperativity with respect to the substrate. Hill coefficients were 1.31 and 1.43 for the C47A and C47S mutants. C47A/C101S and C47S/C101S double mutants display lower affinity for GSH and higher Hill coefficients (1.57 and 1.56, respectively) when compared with C47A and C47S single mutants. Conversely, replacement of Cys-101 with alanine or serine does not yield any cooperativity and any marked change of kinetic parameters. Fluorometric experiments gave sigmoidal isothermic GSH binding curves for all the Cys-47 mutants, with Hill coefficients similar to that obtained by the kinetic approach. These data, together with the activation experiments performed in the presence of S-hexylglutathione, suggest that the substitution of Cys-47 yields a dimeric low-affinity enzyme which may be revealed by the lack of a peculiar electrostatic bond between the thiolate form of Cys-47 and the protonated amino group of Lys-54.
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PMID:Site-directed mutagenesis of human glutathione transferase P1-1. Mutation of Cys-47 induces a positive cooperativity in glutathione transferase P1-1. 783 86

Glutathione transferase (GST) activity as well as the expression of different classes of GST isoenzymes were studied in 14 lymphoma biopsies. The GST activity measured with 1-chloro-2,4-dinitrobenzene as a substrate, varied almost 9-fold. The expression of GSTs classes Pi, Alpha and Mu was studied by immunoblotting using antibodies against human GSTs. All lymphoma samples displayed high levels of class Pi GST. Class Alpha and Mu GSTs expression varied from not detectable to high. The observations were confirmed by quantitation of the three classes of GST with an ELISA technique. Nine of the patients were treated with bifunctional alkylating agents. A correlation between a clinical complete response to chemotherapy and low expression of GST Alpha was noted (p < 0.02).
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PMID:The expression of glutathione transferase isoenzymes in human malignant lymphoma biopsies. 786 34

Glutathione transferase-pi released from kidney tubular epithelial cells was analyzed in the urine of recipients of renal allografts. Urinary content of alpha-class glutathione transferase was also determined for comparison. Control urine from healthy individuals contained detectable levels of the pi-isoenzyme (6.6 +/- 0.46 ng/ml, mean +/- SEM) and this concentration was not increased in the urine of patients demonstrating cyclosporine A-induced nephrotoxicity (6.3 +/- 0.29 ng/ml), in contrast to the alpha-form. Acute rejection increased excretion of the pi-isoenzyme (19.0 +/- 2.0 ng/ml), but not of the alpha-glutathione transferase. Thus, while the serum creatinine level increases in connection with both cyclosporine A-induced nephrotoxicity and acute rejection, analyses of urinary glutathione transferases distinguish well between these conditions. Acute tubular necrosis and renal transplant infarction resulted in a rapid elevation in urinary levels of both alpha- and pi-transferase. The advantages of this approach are that release of the protein into the urine occurs rapidly after tubular damage, the assay is sensitive and specific and can also distinguish between certain pathological conditions. These studies thus indicate that the urinary level of glutathione transferase-pi can be used for monitoring certain pathological processes in the kidney. Quantitation of this enzyme complements the information obtained by measurement of glutathione transferase-alpha.
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PMID:Urinary pi-class glutathione transferase as an indicator of tubular damage in the human kidney. 793 21

Ozone-induced lung injury in rats is focal, with the primary target sites being the distal trachea and the central acinus. In both area, ozone causes cellular injury and necrosis after short-term exposures, but the areas become tolerant to further injury after long-term exposure. To investigate the role of antioxidant enzymes in the resistance of the lung to injury from long-term ozone exposure, we measured activities of three antioxidant enzymes in airway samples microdissected from specific sites within the lung: distal trachea, lobar bronchi, major daughter axial bronchi, minor daughter bronchi, distal bronchiole, and parenchyma. Fischer 344 rats were exposed to 0, 0.5, and 1 ppm ozone 6 hr/day, 5 days/week for 20 months, or to 0, 0.12, and 1 ppm for 90 days. Glutathione transferase, glutathione peroxidase, and superoxide dismutase activities were measured at the end of the exposure periods. Data were normalized for DNA content (Units/mg DNA). For both the 90-day and 20-month exposures, the activities of all three enzymes were significantly elevated in a concentration-dependent fashion in the distal bronchioles. Compared to controls, animals exposed to 1.0 ppm ozone had superoxide dismutase activities 1.6x (90 days) and 2x (20 months) greater; glutathione peroxidase had activities 1.4x (90 days) and 1.6x (20 months) greater; and glutathione S-transferase had activities 1.5x (90 days and 20 months) greater. In animals exposed for 90 days, superoxide dismutase activity was lower in major daughter bronchi and greater in minor daughter bronchi and glutathione peroxidase activity was lower in major daughter bronchi. After 20 months of exposure, superoxide dismutase activity was significantly elevated in a dose-dependent fashion in the distal trachea; glutathione peroxidase activity decreased in the major daughter bronchi and increased in the minor daughter bronchi; and glutathione S-transferase activity decreased in the major daughter bronchi. There were no changes in antioxidant enzyme levels in other subcompartments. Superoxide dismutase activity increased in a concentration-dependent fashion in the whole lung homogenate of animals exposed for 90 days, but no differences were detected in whole lung homogenates of any other exposure groups. We conclude that (1) antioxidant enzyme activities are altered on a site-specific basis in response to long-term exposure to ozone; (2) the antioxidant enzymes respond differently in different lung subcompartments; (3) activities determined for the whole lung do not reflect changes in subcompartments with variable susceptibility to injury; and (4) changes in antioxidant enzyme activities are concentration-dependent and altered by length of exposure.
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PMID:Dose-dependent tolerance to ozone. IV. Site-specific elevation in antioxidant enzymes in the lungs of rats exposed for 90 days or 20 months. 804 44

A radioimmunoassay procedure for the quantitation of glutathione transferase-pi was developed in order to determine the levels of this protein in human urine. The enzyme was isolated from human placenta with a purification factor of 366 (compared to the original high-speed supernatant fraction), and upon gel electrophoresis, only a single band was seen. Polyclonal antisera were subsequently raised in rabbits and found to be suitable for a radioimmunoassay. Glutathione transferase-pi was localized immunohistochemically to the cells of the distal tubules, the thin loop of Henle and the collecting ducts in the kidney. In contrast, the alpha-isoenzyme was localized exclusively in the proximal tubular epithelium. Samples of urine from healthy individuals contained about 6 ng of the pi-transferase/ml. The method proved to be specific for glutathione transferase-pi, and no cross-reaction with the alpha- or mu-transferase or with other proteins occasionally appearing in urine occurred. The protein was quite stable upon storage and insensitive to variations in the urine pH. Thus, it appears that glutathione transferase-pi can be conveniently quantitated by radioimmunoassay and changes in the concentration of this protein in human urine thus monitored.
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PMID:Quantitation of glutathione transferase-pi in the urine by radioimmunoassay. 813 36

Glutathione transferase P1-1, normally very low in adult rat liver, is induced by a single intravenous dose of lead nitrate. In this transient induction, there are at least three sites of regulation or control. These are transcription, post-transcription, and post-translation. The increase in transcription is evident both by nuclear run-off analysis and by measurement of mRNA levels. The other two sites of control were seen in actinomycin D-treated animals in which RNA synthesis was inhibited by over 80%. Treatment with actinomycin D increases the stability of the mRNA and also somehow inhibits the conversion of a glutathione transferase protein to an enzymatically active form. These three sites offer possibilities for the study of mechanisms of control for this interesting enzyme that may play a role in chemical carcinogenesis and in drug resistance.
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PMID:Multiple sites of control of glutathione S-transferase P1-1 in rat liver. 818 66

Glutathione transferase (GST) was investigated in the olfactory and respiratory epithelium of cattle. A significantly more abundant GST in terms of either protein amount or activity was found in the olfactory rather than in the respiratory epithelium. No apparent qualitative differences in the isoelectric focusing, sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and HPLC profiles were noted in the reduced glutathione (GSH) affinity purified GST pool of olfactory and respiratory epithelium. Both tissues have at least six GST isoenzymes with isoelectric point values of 4.9 (peak I), 5.3 (peak II), 5.95 (peak III), 6.5 (peak IV), 7.1 (peak V) and 9.3 (peak VI). From both tissues at least seven different GST subunits can be resolved by HPLC analysis. The GST isoenzymes having pI at 5.3 and 9.3 were predominantly expressed in the olfactory than in the respiratory epithelium. These latter forms conjugate GSH efficiently with alkenals and hydroperoxides, respectively. Kinetic, immunological and structural properties, including HPLC analysis and N-terminal region amino acid sequence seem to indicate that the bovine nasal mucosa tissue in addition to a GST subunit which is orthologue to rat subunit 8 (alpha class) express tissues specific subunits.
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PMID:Glutathione transferase isoenzymes in olfactory and respiratory epithelium of cattle. 827 45

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