EC:2.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.2 (alanine aminotransferase)
26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Murine IFN(gamma) and human IFN(alpha)-AD:Bgl were compared over a limited dose range and after single and multiple dosing for their effect on male mouse liver oxidative and conjugative drug metabolizing enzymes. Both IFNs depressed the microsomal cytochrome P-450 concentration but did not alter cytosolic glutathione S-transferase nor microsomal UDP-glucuronosyltransferase activity. Both IFNs showed some slight hepatotoxicity (elevated serum ALT), alpha AD:Bgl more than gamma, especially after multiple dosing. While the IFNs did not produce significant increases in liver weight, they did increase the yield of microsomal protein. The increased endoplasmic reticulum may compensate for the decreased cytochrome P-450 concentration and so account for the lack of observed effect of the IFNs on hexobarbital sleep times in vivo. Overall, the minimal effects of murine gamma-IFN on the mouse liver were no different than those of human alpha AD:Bgl.
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PMID:Effect of murine gamma-interferon on the mouse liver and its drug-metabolizing enzymes: comparison with human hybrid alpha-interferon. 392 33

Groups of male Sprague-Dawley rats received po doses of cyclopiazonic acid (CPA) on four consecutive days at 0.0, 0.2, 2.0, 4.0, or 8.0 mg kg-1 days-1. Clinical signs of toxicity were observed only in the two highest dose groups. Rats in the highest dose group exhibited abnormal behavior, diarrhea, and other signs of toxicity after several days of dosing, and most were moribund before the last scheduled dose was administered. Liver and spleen were more severely affected than other organs in the two highest dose groups. Livers contained diffuse pycnotic nuclei and, in some high-dose rats, focal areas of coagulative necrosis. In the high-dose group aspartate and alanine aminotransferase activities were elevated, cytochrome P-450 concentration was decreased, and glutathione S-transferase activity was unchanged. Spleens were hemorrhagic and white pulp contained necrotic lymphocytes. White cell counts were decreased in a dose-related manner in the two highest dose groups. The gastrointestinal tract of high-dose rats contained pycnotic nuclei, and sites of necrosis were observed in stomach, but these lesions were limited to several animals, and were generally mild. Pathologic changes in conjunction with decreased feed and water intake probably contributed to the general deterioration of high-dose rats that resulted in death.
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PMID:Toxicity of the mycotoxin, cyclopiazonic acid, to Sprague-Dawley rats. 396 46

Plasma glutathione S-transferase (GST) basic and N/A2b concentrations have been measured by specific radioimmunoassay in serial samples taken from patients admitted following a paracetamol overdose. The activity of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were also measured. The sensitivities of the various measurements for detecting hepatocellular damage were compared. The measurement of either basic or N/A2b GST proved equally sensitive for detecting liver damage and both were superior to aminotransferase measurements. The abnormalities in GST were, on average, approximately 5- to 10-fold greater than the conventional aminotransferase measurements provided that correct timing of sampling was employed. The data presented suggest GST measurement is a sensitive non-invasive method for investigating acute drug-induced hepatotoxicity. The short plasma half-life of GST also allows early recognition of when active cellular damage has ceased.
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PMID:Plasma glutathione S-transferase measurements by radioimmunoassay: a sensitive index of hepatocellular damage in man. 398 35

The effects of bromobenzene, carbon tetrachloride, and N-nitrosodimethylamine (DMN) on hepatic glutathione S-transferase activity were studied in untreated and in phenobarbital- or ethanol-treated rats. In phenobarbital-treated rats, the isozymic composition of the hepatic cytosolic glutathione S-transferases was changed after giving hepatotoxic chemicals; glutathione S-transferases 2-2(AA), 3-3(A), 1-2(B), 3-4(C), and 4-4 + 5-5(D + E) were present in cytosol from control rats, but only glutathione S-transferases cochromatographing with transferases 4-4 + 5-5(D + E) were detected in rats given carbon tetrachloride or bromobenzene. A marked decrease in hepatic and an increase in serum glutathione S-transferase activity were also observed after carbon tetrachloride or bromobenzene treatment, but little change was seen after giving DMN. On the contrary, in untreated or ethanol-treated rats, DMN administration decreased hepatic glutathione S-transferase activity and caused an elevation in serum glutathione S-transferase activity. The isozymic composition of the hepatic cytosolic glutathione S-transferases after giving DMN to untreated rats was also altered, but the alteration was much less than that observed after giving carbon tetrachloride or bromobenzene to phenobarbital-treated rats. The elevation in serum glutathione S-transferase activity was accompanied by an increase in both serum glutamate-pyruvate transaminase activity and serum bilirubin concentrations. Thus, hepatic glutathione S-transferase activity was altered and released into serum after giving hepatotoxic chemicals, and the alteration in glutathione S-transferase activity was dependent on treatment with phenobarbital or ethanol.
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PMID:Alteration of hepatic glutathione S-transferases and release into serum after treatment with bromobenzene, carbon tetrachloride, or N-nitrosodimethylamine. 407 84

Assay conditions of human liver glutathione S-transferase and its activity in human serum from liver disease patients were investigated. One mmol/l reduced glutathione, and 1 mmol/l-1-chloro-2,4-dinitrobenzene, pH 6.5, were used for the measurement, because of the very low non-enzymatic conjugation. Glutathione S-transferase activity was inhibited by bilirubin, but this inhibition was counteracted by the presence of a low concentration of albumin. The normal human serum glutathione S-transferase activity was 5.2 +/- 2.4 I.U./l (mean +/- S.D.), and was not influenced by any differences of age, sex or leukocyte count. A significant increase in serum enzyme activity was noted in cases of acute hepatitis with GPT exceeding 200 I.U./l, primary hepatoma and metastatic liver cancer. Some of the cases with fulminant hepatitis showed extremely high values. The degree of correlation between serum glutathione S-transferase and GOT or GPT was high in acute hepatitis, with GOT or GPT exceeding 200 I.U./l, in fulminant hepatitis, primary hepatoma and gall stones, while in chronic hepatitis and liver cirrhosis it was low. In cases of acute hepatitis and fulminant hepatitis, the disappearance of serum glutathione S-transferase from the blood was much faster than that of GOT and GPT. Serum glutathione S-transferase measurements will provide new and unique information for the diagnosis of acute liver diseases.
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PMID:Serum glutathione S-transferase activity in liver diseases. 625 85

The relations between serum transaminase activity and the hepatic contents of glutathione and lipid peroxide were examined following oral administration to rats of butylated hydroxytoluene (BHT; 500 or 1000 mg/kg). The glutathione level rapidly diminished and reached a minimum at 6 hr after BHT administration. The period of depletion was dependent on dose: restoration of the glutathione level took longer in high-dose rats than in low-dose rats. The content of hepatic lipid peroxide was not markedly changed by BHT throughout the experimental period. The activity of glutathione S-transferase was not affected until 12 hr after BHT administration but, thereafter, it increased with time and was accompanied by elevation of the glutathione level. Though the activities of serum glutamate-oxaloacetate transaminase and glutamate-pyruvate transaminase were not affected by low-dose BHT, they increased rapidly in the high-dose rates after a lag period of about 6 hr and reached a maximum at 24 hr after administration; at that time, the livers of the high-dose rats showed centrilobular necrosis. The results indicate that acute hepatic injury was induced by the high-dose BHT. Pretreatment with cobaltous chloride inhibited the increase in the activities of the serum transaminases produced by the high-dose of BHT accompanying the depletion of microsomal cytochrome P-450 content and the induction of glutathione content. These observations suggest that hepatic damage was associated with prolonged depletion of glutathione rather than with lipid peroxidation in the liver, and that the activated metabolites of BHT rather than the parent compound induced the tissue damage.
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PMID:On the mechanism of butylated hydroxytoluene-induced hepatic toxicity in rats. 646 78

Male Sprague-Dawley rats received an intraperitoneal injection of 0.25-, 0.5-, 1.0-, 2.5-, and 5.0-mmol/kg dose of bromobenzene in corn oil. The metabolic fate of bromobenzene was studied by measuring its various urinary metabolites 24 h following bromobenzene administration. The hepatotoxicity of bromobenzene was estimated by determination of the serum glutamic-oxaloacetic and glutamic-pyruvic transaminase activities (SGOT and SGPT) 24 h after dosing. Treatment of rats with bromobenzene at up to 0.5 mmol/kg did not influence the transaminase activities, but significant increases in such activities began to manifest at a dose of 1 mmol/kg. However, no further increase in hepatotoxic response was induced on exposure to higher doses (2.5 and 5.0 mmol/kg) of bromobenzene. The urinary excretion of toxic doses of bromobenzene was nonlinear, based on the quantitative composition of various urinary metabolites. Furthermore, the fraction of the dose converted to thioethers, p-bromophenol, m-bromophenol, and total phenolic metabolites decreased with increasing toxic dose, suggesting their formation to be capacity-limited. The ratios of thioethers to total phenolic metabolites, of thioethers to p-bromophenol, and of thioethers to o-bromophenol decreased with increasing dose of bromobenzene. The correlation of the dose-dependent fate of metabolic excretion of bromobenzene with the results of the dose-hepatotoxic response curves supports the conclusion that there exists an apparent threshold dose (approximately 1-2.5 mmol/kg) for the toxic effects of bromobenzene that coincides with saturation of the metabolic pathways involving both glutathione/glutathione S-transferase(s) and formation of certain phenolic derivatives for its detoxification. All these results further suggest a role of a saturable, metabolic activation process involving 3,4-epoxide rather than 2,3-epoxide of bromobenzene in the development of its hepatotoxicity.
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PMID:Dose-dependent metabolic excretion of bromobenzene and its possible relationship to hepatotoxicity in rats. 650 40

alpha-Glutathione S-transferase (alpha-GST; EC 2.5.1.18) has been advocated as a better marker of hepatocellular damage than the transaminases in toxic and autoimmune hepatitis. We have assessed the potential interest of plasma alpha-GST determination in 94 anti-hepatitis C virus-positive patients with histologically proven chronic hepatitis C (34 women, 60 men, ages 40.0 +/- 11.9 years). Blood samples were assayed for aspartate aminotransferase (AST), alanine aminotransferase (ALT), gamma-glutamyltransferase, alkaline phosphatase, and alpha-GST on the same day a liver biopsy was performed. alpha-GST concentrations were significantly above reference values in 64% of patients (compared with 58% for AST, 68% for ALT), and this increase was seen in 52% of patients with normal values for transaminases and a Knodell score > 3. Furthermore, there was a significant correlation between alpha-GST and lobular necrosis score (r = 0.31; P < 0.01). Our findings suggest that association of plasma alpha-GST with ALT may improve the biochemical assessment of liver damage in patients with chronic hepatitis C.
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PMID:Plasma alpha-glutathione S-transferase assessed as a marker of liver damage in patients with chronic hepatitis C. 749 11

Sodium stibogluconate is the mainstay of treatment for all forms of leishmaniasis. Therapy is associated with an increase in serum aminotransferases. In this study liver damage was assessed during treatment of American cutaneous leishmaniasis with sodium stibogluconate and also in a control group given aminosidine. In addition to standard liver function tests, acute hepatocellular damage was assessed by measuring plasma glutathione S-transferase B1 (GST), and hepatic metabolic capacity was assessed by a caffeine clearance (CCL) test, before, during and after treatment. Thirteen patients were treated; 5 received sodium stibogluconate, 6 received aminosidine and a further 2 patients received aminosidine followed by sodium stibogluconate. Treatment with sodium stibogluconate was associated with an increase in both alanine aminotransferase (ALT) and GST and a fall in the CCL, indicating both hepatocellular damage and functional impairment. Six weeks after treatment had stopped ALT and GST had returned to pre-treatment levels and the CCL remained depressed in only one patient. Patients given aminosidine did not show any evidence of liver damage. Sodium stibogluconate is associated with significant hepatocellular damage and hepatic functional impairment. However, this is rapidly reversible on drug withdrawal. We suggest that liver function is monitored throughout treatment and that patients with pre-existing liver disease receive alternative treatment.
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PMID:Hepatotoxicity of sodium stibogluconate therapy for American cutaneous leishmaniasis. 757 Aug 43

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

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