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)

Effects of eight structurally closely related substituted urea herbicides were investigated on the induction of cytochrome P-450 dependent monooxygenase enzyme complex, as well as on two conjugating enzymes after short-term treatment of rats. Liver microsomal cytochrome P-450 content was induced approximately by 50%. Cytochrome P-450 dependent monooxygenase activities showed a great variety depending on the substrate and on the herbicide. Two-18-fold induction was detected with 7-ethoxycoumarin, while up to 8-fold induction was measured with benzo(a)pyrene. Aldrin epoxidase activities were increased up to 3-fold, and aminopyrine N-demethylase activities were only slightly different from the control level. UDP-glucuronyltransferase and glutathione S-transferase activities were enhanced up to 2-fold. The results indicate that chemical structure of the related substituted urea compounds, the number of halogen substituents on their phenyl group exert a strong influence on the induction of monooxygenases.
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PMID:Induction of rat hepatic drug metabolizing enzymes by substituted urea herbicides. 392 58

Glutathione-depleted hepatocytes, by incubation with diethylmaleate (DEM) or phorone (2,6-dimethyl-2,5-heptadiene-4-one), i.e., substrates of the GSH S-transferases (EC 2.5.1.18), showed rates of gluconeogenesis from various precursors significantly lower than controls; however the rate of glucose synthesis from fructose was similar to that of controls. Isolated hepatocytes from rats pretreated with those substrates 1 h before isolation to deplete hepatic glutathione (GSH) also showed a decrease of the rate of gluconeogenesis from lactate plus pyruvate. Incubation of hepatocytes with L-buthionine sulfoximine, a specific inhibitor of gamma-glutamyl-cysteine synthetase (EC 6.3.2.2), resulted in a decreased rate of gluconeogenesis from lactate plus pyruvate only when GSH values were lower than 1 mumol/g cells. Freeze-clamped livers from GSH-depleted rats showed a higher concentration of malate and glycerol 3-phosphate, indicating that GSH depletion probably affects phosphoenolpyruvate carboxykinase and glycerol-3-phosphate dehydrogenase activities. Several indicators of cell viability, such as lactate dehydrogenase leakage, malondialdehyde accumulation, ATP concentration, or urea synthesis from different precursors, were not affected by GSH depletion under the experimental conditions used here. Besides, the GSH/GSSG ratio remained unchanged in all cases.
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PMID:Effects of glutathione depletion on gluconeogenesis in isolated hepatocytes. 402 24

Liver and muscle amino acid enzyme activities and plasma proteins, urea, amino acids, glucose, lactate, 3-hydroxybutyrate and acetoacetate concentrations were studied in growing rats undergoing adaptation to high-fat, high-energy diet and glucose gavage. Liver and muscle were used for the estimation of alanine transaminase (GPT, EC 2.6.1.1.), adenylate deaminase (AMD, EC 3.5.4.6.), glutamine synthetase (GST, EC 6.3.1.2) and serine dehydratase (SDH, EC 4.2.1.13) activities, the latter only in liver samples. The most important modifications produced in muscle enzyme activities by glucose gavage were observed in rats fed a cafeteria diet. Glucose gavage affects liver enzyme activities in the same sense than cafeteria diet. Energy plasma components were affected in opposite way by glucose gavage according to diet administered.
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PMID:Changes induced in amino acid-enzymes of developing rats by a high-energy diet and glucose gavage. 768 82

Using an Escherichia coli expression system, pGEX-2T, that expresses foreign sequences as fusion proteins with a glutathione S-transferase (GST) carrier, we have produced several recombinant human salivary cystatin SN (reCsnSN) variants. These include a N-terminal-truncated form (aa 17-121), a C-terminal-truncated form (aa 1-102) and two deletion mutants (delta 12-16 and delta 56-60). A large amount of the insoluble fusion protein (approx. 15 mg/l) was produced in each case. These were solubilized with urea and refolded by dialysis. The GST carrier was then cleaved with thrombin and the reCsn variants (except delta 56-60) were purified by anion-exchange chromatography. The CysP inhibitory activities against papain, and bovine and human cathepsin B, and secondary structures of the reCsnSN variants were determined and compared to natural salivary CsnSN. The full-length reCsnSN, the N-truncated and the delta 12-16 variants inhibited the CysP activity of papain and displayed circular dichroism (CD) spectra similar to that of natural CsnSN. On the other hand, the delta 56-60 mutant and the C-truncated variant exhibited very little inhibitory activity towards papain. The CD spectrum of the C-truncated variant indicated a change in the secondary structure (e.g., a decrease in beta-sheet and an increase of an alpha-helical content). Neither, the natural nor the full-length reCsnSN or the delta 12-16 mutant exhibited any inhibitory activity towards bovine and human cathepsin B.
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PMID:Biological activities and secondary structures of variant forms of human salivary cystatin SN produced in Escherichia coli. 782 95

Liver-type L-arginase is a major urea-cycle enzyme which is strongly induced during amphibian metamorphosis, but little is known about the molecular mechanisms underlying this induction. As a first step towards elucidating the possible mechanisms, we have isolated a cDNA clone for L-arginase from an adult Xenopus laevis liver cDNA library. Sequence comparison of Xenopus liver-type L-arginase cDNA shows a strong conservation at the amino acid level with those of human, rat and yeast. Using a Xenopus arginase cDNA fragment as a hybridization probe, we have shown by Northern blotting that the gene is highly expressed in the liver, and very slightly in kidney and spleen, of adult Xenopus. The expression is developmentally regulated. Only traces of arginase mRNA can be detected in pre-metamorphic tadpoles, but its accumulation increases very markedly at the onset of natural metamorphosis, being maintained at a high concentration constitutively upon completion of this developmental process. Amphibian metamorphosis is under the strict control of thyroid hormones. It is therefore significant that exposure of pre-metamorphic tadpoles (at stages before endogenous thyroid hormone secretion) to exogenous hormone (1 nM triiodothyronine) precociously activated the L-arginase gene. The time course of this precocious hormonal induction paralleled that of serum albumin gene in the liver. Polyclonal antibodies were raised against recombinant Xenopus L-arginase expressed in Escherichia coli as a fusion protein with glutathione S-transferase in the plasmid expression vector pGEX. Western blotting using this antibody showed that, although arginase mRNA is present in high concentration in Xenopus tadpole liver at the onset of natural metamorphosis, the protein is detected only upon its completion. Our results show a complex transcriptional and post-transcriptional regulation of the Xenopus liver-type L-arginase gene during post-embryonic development. They also demonstrate that this gene can be exploited as a target for thyroid hormones in further studies to analyze the mechanisms underlying the establishment of the adult phenotype during amphibian metamorphosis.
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PMID:Developmental and hormonal regulation of the Xenopus liver-type arginase gene. 791 84

The effect of oral administration of vanadate (100, 200 and 400 nM for 30 days) on the activity of the detoxifying enzyme system glutathione S-transferase (GST) in rat liver and in several extrahepatic tissues was examined. Vanadate showed a high activity as GST inducer in liver and in small intestine mucosa followed by large intestine mucosa and kidney in a dose-dependent manner. No significant alterations in GST activity were observed in forestomach and lung tissues after vanadate. Vanadate treatment that resulted in an enhancement of GST activity impaired neither hepatic nor renal function as evidenced by serum glutamic oxaloacetic transaminase, glutamic pyruvic transaminase, sorbitol dehydrogenase, urea, and creatinine. Since the ability to induce an increase of detoxifying enzyme activity by anticarcinogenic agents was found to correlate with their activity in the inhibition of tumorigenesis, the trace element vanadium might be considered a potential cancer chemopreventive agent.
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PMID:Selective enhancement of glutathione S-transferase activity in liver and extrahepatic tissues of rat following oral administration of vanadate. 820 78

The lipase gene from Pseudomonas aeruginosa TE3285 is followed by another gene, lipB. The lipase gene was expressed in Escherichia coli BL21(DE3)pLysS using the T7 RNA polymerase expression system. The mature lipase was accumulated as inclusion bodies at 42% of the total cell proteins. The inclusion bodies were solubilized with 8 M urea, but lipase activity was not detected in the solubilized preparation containing 85% lipase protein even after removing urea by dialysis. The lipB gene, positioned downstream of the lipase gene and thought to be necessary for the expression of the lipase gene, was expressed in Escherichia coli JM109 as a fusion with the glutathione transferase gene from Schistosoma japonicum. The fusion protein was partially purified on glutathione-agarose beads to 36% purity. Incubated with the fusion protein at a molar ratio of 1:1 at 4 degrees C for 24 h, the solubilized lipase showed lipase activity of about a tenth that of the purified lipase prepared from Pseudomonas aeruginosa TE3285. Magnesium ions and ATP were not essential but increased the activation. When the fusion protein was treated with thrombin to release the glutathione transferase part, it retained its activity. The lipase activation with lipB protein probably proceeds to form a 1:1 complex with the inactive, solubilized lipase protein but by a different mode from known chaperones.
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PMID:Lipase from Pseudomonas aeruginosa. Production in Escherichia coli and activation in vitro with a protein from the downstream gene. 834 92

The two major hydrophilic domains from the Saccharomyces cerevisiae plasma membrane H(+)-ATPase fused to glutathione S-transferase have been expressed in Escherichia coli. The GST-L peptide contained the hydrophilic region from Ala340 to Ser660. The GST-SL peptide contained in addition the hydrophilic region Glu162 to Val276. After solubilization of the inclusion bodies with urea, renaturation, and affinity chromatography, 3 mg of highly purified peptides were recovered per liter of E. coli culture. The purified peptides interacted with 2'(3')-O-(2,4,6-trinitrophenyl)-adenosine-5'-triphosphate (TNP-ATP), the fluorescence of which was enhanced identically upon binding of either GST-L or GST-SL. ATP competitively displaced the TNP-ATP binding. The observed dissociation constants for TNP-ATP (6.5 microM) and ATP (3 mM) are close to those found for the complete native H(+)-ATPase protein. The fluorescence of TNP-ATP was sensitive to Mg2+ indicating the existence of a Mg(2+)-binding site on the peptide. Apparent affinity for this Mg2+ site was found to vary from 50 microM at pH 7.5 to 400 microM at pH 5.5.
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PMID:Overexpression in Escherichia coli and purification of an ATP-binding peptide from the yeast plasma membrane H(+)-ATPase. 840 44

A recombinant plasmid containing the coding regions for Acacia confusa trypsin inhibitor (ACTI) has been constructed and expressed in Escherichia coli cells, as a fusion protein between ACTI and glutathione S-transferase (GST). The GST-fusion was produced as a soluble protein which did not require denaturing agents such as urea to solubilize it. The recombinant ACTI (reACTI) was obtained by treating the GST-fusion protein with thrombin. Both the reACTI and fusion protein have a strong inhibitory effect on trypsin activity without post-translational proteolysis.
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PMID:Cloning and expression of the gene encoding Acacia confusa trypsin inhibitor that is active without post-translational proteolysis. 850 Jul 64

We present data pertaining to some of the in vivo effects associated with dietary DHEA administration to mice and rats. Dietary DHEA leads to: (1) decrease in body weight gain; (2) relative increases in liver weight; (3) liver color change; (4) induction of hepatic peroxisomal enzymes; (5) proliferation of hepatic peroxisomes with increased cross-sectional area; (6) decreased hepatic mitochondrial cross-sectional area; (7) elevated levels of hepatic cytosolic malic enzyme; (8) slight decreases, significant decreases, or significant increases in serum triglyceride levels, depending on mouse strain; (9) increases in total serum cholesterol levels; (10) significant decreases in the hepatic rates of fatty acid synthesis; (11) significant increases in the hepatic rates of cholesterol synthesis; (12) decreases in both protein content and specific activity of hepatic mitochondrial carbamoyl phosphate synthetase-I without concomitant changes in serum urea nitrogen; (13) induction of glutathione S-transferase activity in liver; (14) decrease in hepatic endogenous protein phosphorylation; (15) increase in hepatic AMPase and GTPase activities; (16) formation of 5-androstene-3 beta,17 beta-diol as a major metabolite of DHEA by subcellular fractions of liver, which is reflected in serum and tissue levels; and (17) reduction in serum prolactin levels.
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PMID:Pleotropic effects of dietary DHEA. 859 55

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