EC:2.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.1 (aspartate aminotransferase)
21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The stability and storage characteristics were studied of 11 bovine enzymes of potential clinical significance, namely, aldolase, alkaline phosphatase, alanine aminotransferase, aspartate aminotransferase, acetylcholinesterase, creatine kinase, gamma glutamyltransferase, glutathione peroxidase (GSH-Px), alpha-hydroxybutyrate dehydrogenase, lactate dehydrogenase and superoxide dismutase (SOD). Enzyme activities in fresh serum were compared with those in plasma containing various anticoagulants including lithium heparin, EDTA and oxalate/fluoride. The same preservatives were assessed for their effects on the whole blood activities of GSH-Px and SOD. Stabilities of enzymes in plasma and serum stored at room (+20 degrees C), refrigerator (4 degrees C) or deep freeze (-20 degrees C) temperatures were also compared. In addition, SOD and GSH-Px activities in samples stored, at the same temperatures, as whole blood or aqueous lysates were monitored.
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PMID:Stability and storage characteristics of enzymes in cattle blood. 286 28

The stability and storage characteristics were studied of 11 ovine enzymes of potential clinical significance, namely, aldolase, alkaline phosphatase, alanine aminotransferase, aspartate aminotransferase, acetylcholinesterase, creatine kinase, gamma glutamyltransferase, glutathione peroxidase (GSH-Px), alpha-hydroxybutyrate dehydrogenase, lactate dehydrogenase and superoxide dismutase (SOD). Enzyme activities in fresh serum were compared with those in plasma containing various anticoagulants including lithium heparin, EDTA and oxalate/fluoride. The same preservatives were assessed for their effects on the whole blood activities of GSH-Px and SOD. Stabilities of enzymes in plasma and serum stored at room (+20 degrees C), refrigerator (4 degrees C) or deep freeze (-20 degrees C) temperatures were also compared. In addition, SOD and GSH-Px activities in samples stored, at the same temperatures, as whole blood or aqueous lysates were monitored. The results are discussed with particular reference to the differences between sheep and cattle.
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PMID:Stability and storage characteristics of enzymes in sheep blood. 286 29

Hepatic 1,2-dibromoethane (DBE) metabolism proceeds via two pathways: oxidation by cytochrome P-450 and direct conjugation with the ubiquitous tripeptide glutathione (GSH) via the GSH S-transferases. The toxicity of DBE in monolayers of hepatocytes was assessed to establish whether the toxicity of this compound is increased under conditions of reductive metabolism at low oxygen concentrations. Our previous studies with t-butyl hydroperoxide and the calcium ionophore A23187 suggested that hypoxia would exacerbate toxicity that was mediated through lipid peroxidation or loss of calcium homeostasis. Monolayers of hepatocytes were exposed for 2 hr to 0, 14, 140, 1400, or 14,000 ppm of DBE in an atmosphere of either 1, 2, or 20% oxygen. Toxicity was measured by leakage of aspartate aminotransferase (AST) and trypan blue exclusion. The time course of the development of cytotoxicity was examined by assaying cell death both immediately following a 2-hr exposure and 24 hr later. The LC50 of DBE vapor was found to be approximately 14,000 ppm when assayed immediately after exposure but only 140 ppm when assayed 24 hr after exposure. The similarity of the percentages of DBE-induced cell death after incubations at 1, 2, and 20% oxygen demonstrates that the toxicity of DBE is oxygen-independent. We conclude that while DBE is highly toxic to rat hepatocytes, hypoxia does not appear to contribute to the toxicity of DBE, even under conditions of low oxygen concentrations. This result is in direct contrast to a previous report where we showed that the toxicity of halothane is potentiated under hypoxic conditions.
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PMID:Toxicity of 1,2-dibromoethane in primary hepatocyte monolayer cultures: lack of dependence on oxygen concentration. 313 87

The aim of this study was tracing of changes in the activity of glutathione peroxidase (GSHPx), glutathione transferase (GSH S-Tr), aspartate aminotransferase (AspAT) and alanine aminotransferase (A1AT) in the brain as a result of diet enrichment with antioxidants: selenium (Se), vitamin E and vitamin B15 (pangamic acid). The experiment was carried out on Wistar rats with initial body weight 150 g. Following prolonged enrichment of diet with Se (0.1 ppm of sodium selenite), vitamin E (6 mg/100 g of diet) and vitamin B15 (2.5 mg/100 g of diet) the following results were obtained. The activity of GSHPx in brain microsomes was not changed after one year of vitamin E administration when it was measured against hydrogen hydroxide and against cumene hydrochloride; vitamin E administration increased the activity of GSH S-Tr in the cytoplasmic fraction of brain cells. Diet enrichment with selenium increased after 12 and 18 months the activity of GSHPx measured against both substrates, and GSH S-Tr activity increased considerably. Presence of vitamin B15 in diet reduced GSHPx activity after one-year or longer administration, after 18 months the activity of GSH S-Tr was reduced also. No changes were noted in the activity of AspAT and A1AT.
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PMID:The effect of long-term enrichment of diet with selenium, vitamin E and B15 on the activity of certain enzymes in rat brain. 345 69

In this study neonatal rat heart cell cultures were evaluated on their potential merit for studying the oxidative component in the cardiotoxic action of drugs. Cumene hydroperoxide was used as a model compound. Cumene hydroperoxide induced enzyme release from the myocyte cultures which appeared to be both dose- and substrate(glucose)-dependent. Significant correlations were found between depletion of GSH and increased GSSG formation on the one hand and enzyme release on the other hand. Furthermore the formation of malondialdehyde, one of the products of lipid peroxidation, was measured, which correlated with enzyme release as well. Measurements on the release of the mitochondrial isoenzyme of aspartate aminotransferase imply that the lipid peroxidative process affects primarily the sarcolemmal membrane. The results indicate that myocytes in culture can provide a convenient in vitro system to assess the peroxidative action of cardiotoxic agents.
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PMID:Lipid peroxidation in neonatal rat heart cell cultures: effects of cumene hydroperoxide. 370 38

Although various theories have been proposed to account for the mechanism of cadmium-induced cellular injury, none have received strong, direct support from experimental data. An interference with sulfhydryl groups is one of the proposed mechanisms. The ability of reduced glutathione (GSH) to protect hepatocytes from the toxic effects of cadmium has been investigated. When added just prior to cadmium, GSH has a pronounced protective effect, while an additional 15 min after cadmium resulted in partial protection against the ensuing loss of cellular potassium ion. The protection against loss of aspartate aminotransferase into the medium is pronounced, regardless of whether addition of GSH is at zero time or 15 min after cadmium. Addition of the GSH at either time resulted in reduced levels of cadmium associated with the hepatocytes, and may well account for these protective properties of GSH. Protein-bound sulfhydryl groups showed a small decrease in response to cadmium but only after cell injury had been initiated. These data allow the conclusion that cadmium does not exert its cytotoxic effects by simple, single irreversible interaction with cellular thiol groups. Furthermore, as the added GSH remains extracellular, these data indicate that protection can be afforded at an extracellular level even after intracellular exposure to toxic concentrations of cadmium.
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PMID:The amelioration of cadmium-induced injury in isolated hepatocytes by reduced glutathione. 379 61

Feeding a basal diet free of vitamins E and C to weanling male rats for 8 months resulted in biochemical changes characteristic of vitamin E deficiency. These included increased liver thiobarbituric acid values; decreased blood GSH levels, plasma vitamin E levels, and glutathione peroxidase activities; and increased activities of plasma pyruvate kinase, glutamic-oxaloacetic transaminase, creatine kinase, lactic dehydrogenase, and malic dehydrogenase. Tube-feeding vitamin C for 21 days resulted in partial reversal effects on the above parameters except activities of glutathione peroxidase, lactic dehydrogenase, and malic dehydrogenase. The results suggest that vitamin C may spare in part the metabolism of vitamin E through its antioxidant property.
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PMID:Vitamin C partially reversed some biochemical changes produced by vitamin E deficiency. 382 80

The effects of sodium selenite on bromobenzene hepatotoxicity were examined in male rats. Rats pretreated with sodium selenite (12.5 or 30 mumol/kg, ip) 72 hr prior to injection of bromobenzene (7.5 mmol/kg, ip) showed a marked reduction in bromobenzene-induced liver injury as evidenced by decreased plasma alanine and aspartate transaminase values, sorbitol dehydrogenase activity, and reduced histologic damage. Administration of bromobenzene did not affect the selenium content of blood or liver. At 72 hr after treatment with selenite, hepatic reduced (GSH) and oxidized (GSSG) glutathione values or GSH synthetic and degradation enzyme activities were not altered. However, from 3 to 12 hr following bromobenzene administration, hepatic GSH and cysteine amounts declined less rapidly in selenite-treated rats compared to control. Thus, acute selenite treatment ameliorated bromobenzene hepatotoxicity in a manner suggesting facilitation of hepatic GSH production by selenite for use in bromobenzene detoxication.
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PMID:Effect of sodium selenite upon bromobenzene toxicity in rats. I. Hepatotoxicity. 396 15

Experiments were conducted to examine the role of zinc in the prevention of bromobenzene hepatoxicity in male rats. Bromobenzene (BB) (7.5 mmol/kg, ip) produced a marked hepatotoxicity as evidenced by increases in plasma alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities and a marked depression in hepatic glutathione (GSH) content 24 hr after administration. The administration of zinc (92 mumol Zn/kg, ip, at 48 and 24 hr prior to the bromobenzene) ameliorated the bromobenzene elevations in plasma AST (25%) and plasma ALT (50%) but did not alter the decreases in hepatic GSH. Following administration of [14C]BB, the radioactive label was distributed primarily in the cytosolic and lipid fractions derived from liver homogenates. Furthermore, the subcellular distribution of [14C]BB was not altered by zinc pretreatment. The extent of covalent binding of [14C]BB metabolites to hepatic tissue was significantly depressed in zinc-treated rats. Zinc induced the hepatic levels of metallothionein but [14C]BB did not bind to this sulfhydryl rich protein. Further experiments showed that zinc treatment depressed cytochrome P-450 content, the activity of NADPH cytochrome c reductase, and the metabolism of aniline, but not that of ethylmorphine. These studies suggest that the hepatoprotective effect of zinc against bromobenzene toxicity does not involve altered binding of the reactive toxic metabolite to glutathione or metallothionein, but it may be mediated by the inhibitory effect of zinc on the microsomal cytochrome P-450-dependent drug metabolizing system.
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PMID:Amelioration of bromobenzene hepatotoxicity in the male rat by zinc. 398

When male Sprague-Dawley rats were treated with sodium selenite (1 mg/kg, sc) 24 hr prior to or simultaneously with bromobenzene (2.5 mmol/kg, ip) and sacrificed 48 hr after the bromobenzene dose, increased levels of the activities of serum transaminases (serum glutamic-oxaloacetic transaminase (SGOT) and serum glutamic-pyruvic transaminase (SGPT) induced in the bromobenzene-treated rats were significantly reduced in the presence of selenium. However, no such reduction in the transaminases activities were observed when rats were either pretreated with selenite for 48 hr or pretreated with 0.1, 0.2, or 0.5 mg/kg of selenite. Although selenium alone had no effect on the hepatic microsomal drug metabolism, simultaneous treatment of selenite (1 mg/kg) with bromobenzene resulted only an increase in the activity of aniline hydroxylase after 48 hr as compared to that in the bromobenzene-treated group. When rats were given 2.5, 10, and 20 ppm of selenite in drinking water daily for 4 weeks prior to an ip injection of 2.5 mmol/kg of bromobenzene and were sacrificed 48 hr after bromobenzene administration, a reduction in the SGOT activities in all the pretreated groups and a reduction of SGPT activity in 20 ppm selenite-treated group were observed when compared with those in the bromobenzene-treated groups. A dose-dependent increase in hepatic GSH concentrations were observed due to such chronic selenium treatment. Treatment with selenite (1 mg/kg) 24 hr prior to bromobenzene injection (2.5 mmol/kg) increased initially both o and p-bromophenols in the rat urine at 0-7.5 hr without affecting urinary thioethers. On the contrary, the ratio of thioethers to p-bromophenol was significantly higher in both 2.5 and 10 ppm selenite-pretreated (4 weeks) rats as well as a significant increase in the ratio of thioethers to total phenolic metabolites in 10 ppm and an increase close to significant in 2.5 ppm selenite-treated rats were observed initially at 0-7.5 hr urine samples. These results indicate that acute selenium pretreatment under certain conditions, favors increased hydroxylation of the intermediate bromobenzene epoxides, whereas higher detoxification of the epoxides involving hepatic glutathione (GSH)/GSH transferases pathway is more favored due to increased biosynthesis of GSH in certain chronic selenium treated rats.
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PMID:Influence of selenium on the metabolism of bromobenzene and a possible relationship to its hepatotoxicity. 401 88

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