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)

Piperine, an active alkaloidal constituent of the extract obtained from Piper longum and Piper nigrum, was evaluated for its antihepatotoxic potential in order to validate its use in traditional therapeutic formulations. This plant principle exerted a significant protection against tert-butyl hydroperoxide and carbon tetrachloride hepatotoxicity by reducing both in vitro and in vivo lipid peroxidation, enzymatic leakage of GPT and AP, and by preventing the depletion of GSH and total thiols in the intoxicated mice. Silymarin, a known hepatoprotective drug was tested simultaneously for comparison. Piperine showed a lower hepatoprotective potency than silymarin.
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PMID:Evaluation of the liver protective potential of piperine, an active principle of black and long peppers. 825 33

A substantial fraction of the cysteine added to total parenteral nutrition (TPN) solutions is converted to the corresponding thiazolidine derivative, while in solution with relatively large concentrations of glucose typical of TPN (700 mM and higher). It was recently reported (Roberts et al. (1987) J. Med. Chem. 30, 1891-1896) that this thiazolidine, D-glucose-L-cysteine (DGC), offered no significant protection against the hepatic injury caused by 5 mmol/kg of acetaminophen in mice, suggesting that the cysteine present as DGC is poorly bioavailable in vivo. In the present study, fasted male ICR mice given 1.6 or 2.6 mmol/kg of acetaminophen sustained hepatic injury, estimated by elevations in plasma alanine aminotransferase (ALT) activities. Administration of 2.5 mmol/kg of N-acetylcysteine (NAC) 1 h before acetaminophen given i.p. prevented the rise in plasma ALT activities, apparently through support of glutathione (GSH) synthesis. Administration of 2.5 mmol/kg of DGC prior to acetaminophen resulted in slightly lower mean plasma ALT activities than were observed in animals given saline before acetaminophen, but the effect was not statistically significant. When DGC was given 1 h before p.o. administration of 1.6 or 2.6 mmol/kg of acetaminophen, the protective effects of DGC were statistically significant (P < 0.01, 0.025, respectively), although NAC afforded significantly greater protection than did DGC at the higher dose of acetaminophen. Given 4 h before acetaminophen, DGC attenuated acetaminophen-induced increases in plasma ALT activities significantly, whereas NAC was without effect. These results indicate that the cysteine in DGC is at least partially bioavailable in vivo and, further, that DGC may function as a slow release formulation of cysteine.
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PMID:Attenuation of acetaminophen hepatotoxicity in mice as evidence for the bioavailability of the cysteine in D-glucose-L-cysteine in vivo. 831 Apr 51

Chloroform (CHCl3) is widely used in the manufacture of drugs, cosmetics, plastics and cleaning agents. It is also found in chlorinated drinking water. This study was designed to investigate the toxic effect of CHCl3 on isolated male rat hepatocytes using several toxicity parameters. The hepatocytes were isolated by a collagenase perfusion technique and the cell viability was determined by Trypan blue exclusion. The leakage of cytosolic enzymes such as aspartate transaminase (AST) and alanine transaminase (ALT) after treatment with CHCl3 was measured. Reduced glutathione content (GSH) and its related enzymes, glutathione reductase (GSH-Rx) and glutathione peroxidase (GSH-Px), were also evaluated to study the effect of CHCl3 on hepatocytes. Exposure to 100 and 1000 ppm CHCl3 results in a significant decrease in cell after 30 min incubation. However, the effect of 1 and 10 ppm concentrations was observed at 60 min incubation. AST leakage was significantly increased in all treatment groups, while ALT was significantly increased at 100 and 1000 ppm CHCl3 after 60 and 30 min, respectively. As early as 15 min, GSH was decreased significantly at 1000 ppm, but at 100 and 10 ppm CHCl3 the decrease in GSH began after 30 and 120 min, respectively. GSH-Px activity did not changed. However, the activity of GSH-Rx was significantly decreased at 1000 ppm CHCl3 and at the same time GSH content was decreased. The data indicate that the toxic effect of CHCl3 was dose- and time-dependent. The degree of GSH depletion correlated with increased cytotoxicity and decreased GSH-Rx activity due to CHCl3.
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PMID:The mechanism of chloroform toxicity in isolated rat hepatocytes. 835 69

Mercury is the major component of dental amalgam restorative material, which typically has 50% pure elemental mercury. It is also used in some skin creams, and in the manufacturing of plastic, drugs and fungicides. The present study was designed to investigate the toxicity of methyl mercury (MeHg+) on isolated rat hepatocytes using several toxicity parameters. The hepatocytes were isolated by a collagenase perfusion technique and were incubated with different concentrations of MeHg+ (0.1-100 ppm) for 2 h. Through the incubation period the viability was determined by Trypan blue exclusion. Reduced glutathione (GSH) content and its enzymes, glutathione peroxidase (GSH-PX) and glutathione reductase (GSH-RX) were measured. Leakage of enzymes such as aspartate transaminase (AST), and alanine transaminase (ALT) were determined. The cell viability was reduced significantly after 1 h incubation when 0.1 and 1 ppm MeHg+ were applied. The decrease in the cell viability was dose- and time-dependent. A depletion of GSH content was observed with 100 ppm MeHg+ after 30 min of incubation. A significant decrease in GSH-RX was observed with 100 ppm during 15 and 30 min of incubation, while 10 ppm of MeHg+ significantly increased ALT leakage after 60 min. However, there was a significant increase in AST leakage with 100 ppm only. The present investigation indicates that the toxic effect of MeHg+ is most likely cytosolic enzyme related.
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PMID:The mechanism of methyl mercury toxicity in isolated rat hepatocytes. 835 70

Studies have shown that ethanol at moderate concentrations inhibits epidermal growth factor-dependent replication of fetal rat hepatocytes in culture. This may account for the growth/development impairment associated with fetal alcohol syndrome and decreased liver regeneration in alcoholic liver disease. In this study, we further define the mechanism(s) of the negative impact of ethanol on fetal rat hepatocytes and provide evidence that ethanol-induced injury to these cells is associated with membrane damage caused by lipid peroxidation, altered cell glutathione homeostasis and deranged mitochondrial structure and function. Exposure of fetal rat hepatocyte replication to ethanol (2 mg/ml) promptly resulted in blockade of replication, as indicated by a 40% reduction in DNA synthesis (p < 0.05). Assessment of cell injury on the basis of lactate dehydrogenase and ALT leakage indicated a statistically significant but not appreciable effect, whereas 51Cr leakage was more substantially increased (p < 0.05). Within 6 hr of ethanol exposure, superoxide radical levels increased more than twofold (p < 0.05). We noted a 56% increase in levels of diene conjugates, a 131% increase in malonaldehyde concentration and a 66% increase in fluorescent products of lipid peroxidation (all p < 0.05). Glutathione levels were decreased to 47% below control values (p < 0.05). Electron microscopic studies illustrated a slight disruption of mitochondrial structure (enlargement of mitochondria and dilation of cristae). This disruption was accompanied by mitochondrial swelling (increased permeability), altered mitochondrial membrane potential (a 16% decrease in rhodamine uptake), a 28% decrease in succinate dehydrogenase activity and a 30% decrease in cellular ATP level (p < 0.05). Pretreatment of fetal rat hepatocytes with 0.1 mmol/L N-acetylcysteine or S-adenosylmethionine for 24 hr prevented the ethanol-induced reduction of ATP and glutathione levels, essentially restored cell replication, ameliorated 51Cr leakage and decreased malonaldehyde and diene conjugate levels to 41% to 65% and 25% above control values, respectively. Pretreatment with 0.1 mmol/L vitamin E fully normalized malonaldehyde and diene conjugate levels and 51Cr leakage but failed to improve ATP levels or to increase significantly cell replication and glutathione levels. Concomitant administration of glutathione precursors with ethanol, rather than pretreatment, did not alter the impaired cell replication. Thus our data underscore the importance of cellular glutathione and ATP in preventing ethanol-induced decreases in fetal cell replication and suggest that alleviation of cellular lipid peroxidation alone is not sufficient to prevent this abnormality in fetal rat hepatocyte function.
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PMID:Effect of ethanol on rat fetal hepatocytes: studies on cell replication, lipid peroxidation and glutathione. 835 6

Oleanolic acid (OA) is a triterpenoid compound that has been shown to protect against a number of hepatotoxicants, and is used in China to treat hepatitis. In the present study, we examined the effect of OA on acetaminophen (AA)-induced acute liver injury in mice and the mechanism(s) of protection. OA pretreatment (25-100 mg/kg s.c. for 3 days) remarkably decreased AA (500 mg/kg i.p.)-induced liver damage in mice, as indicated by decreased serum activities of alanine aminotransferase and sorbitol dehydrogenase, as well as by histopathological observation. Additionally, OA pretreatment mitigated AA (300-450 mg/kg i.v.)-induced depletion in liver glutathione (GSH) content. The protective effect was not evident until 24 hr after a single s.c. injection of OA (300 mg/kg) and lasted for 72 hr. To examine the mechanism of this protection, the biliary and urinary excretion of AA and AA metabolites were measured for 2 hr after AA administration (150 mg/kg i.v.) in bile duct-cannulated mice. OA pretreatment resulted in an increased urinary excretion of AA-glucuronide and a decreased biliary excretion of AA-GSH. Microsomes from OA-pretreated mice, incubated in vitro with AA, produced less benzoquinoneimine intermediate than controls, as determined by the formation of AA-GSH. Hepatic subcellular distribution of [3H] AA to the nuclear fraction was also decreased by OA. OA pretreatment of mice had no influence on liver UDP-glucuronic acid concentration, but increased hepatic glucuronosyltransferase activity toward AA. In summary, OA pretreatment dramatically protects against AA-induced hepatotoxicity in mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protective effects of oleanolic acid on acetaminophen-induced hepatotoxicity in mice. 837 Nov 59

In mice depleted of GSH by treatment with buthionine sulfoximine (BSO), thiabendazole (TBZ) causes renal injury characterized by an increase in serum urea nitrogen (SUN) concentration and by tubular necrosis. Previous studies have shown that TBZ requires metabolic activation before it produces nephrotoxicity and that the structure contributing to the toxicity of TBZ is the thiazole moiety of the molecule. TBZ and its thiazole analogues were examined for the ability to increase SUN concentration and serum alanine aminotransferase activity in GSH-depleted mice. Unsubstituted thiazole and thiazoles with 4- and/or 5-, and no 2-, substituents caused marked increases in SUN concentration, suggesting nephrotoxicity. Furthermore, the nephrotoxic potency of these thiazoles decreased with the increasing number and bulk of the 4- and/or 5-substituents. On the other hand, the target organ (the kidney or liver) and the toxic potency of 4-methylthiazoles were markedly altered with the type of substituents at the 2-position. These observations and the known toxicity of thiono-sulfur compounds led us to the hypothesis that the nephrotoxic thiazoles, which lack 2-substituents, would undergo microsomal epoxidation of the C-4,5 double bond and, after being hydrolyzed, the resulting epoxide would then be decomposed to form thioformamide, a possibly toxic metabolite. Evidence for this hypothesis was provided by the results that thioformamide and tert-butylglyoxal as the accompanying fragment were identified as urinary metabolites in mice dosed with 4-tert-butylthiazole and that thioformamide caused a marked increase in SUN concentration when administered to mice in combination with BSO.
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PMID:Possible role of thioformamide as a proximate toxicant in the nephrotoxicity of thiabendazole and related thiazoles in glutathione-depleted mice: structure-toxicity and metabolic studies. 847 8

Inhalation exposure to styrene at concentrations that cause metabolic saturation results in significantly greater hepatotoxicity in B6C3F1 mice than in Swiss mice; females of both strains are more susceptible than males. These studies were conducted to investigate the mouse strain and gender differences in susceptibility to hepatotoxicity caused by repeated exposure to styrene at concentrations that do not cause metabolic saturation. Male and female B6C3F1 and Swiss mice (8 weeks old) were exposed to 0, 150, or 200 ppm styrene for 6 hr/day, 5 days/week, for up to 2 weeks. Changes in body and liver weights, serum alanine aminotransferase (ALT) and sorbitol dehydrogenase (SDH) levels, liver histopathology, and total liver glutathione (GSH) were evaluated after 2, 3, 5, and 10 exposures (six mice/sex/strain/time point/concentration). Blood levels of styrene and styrene-7,8-oxide (SO) were measured in mice exposed to 200 ppm styrene for 2,3, or 5 days (six mice/sex/strain/time point/concentration). Serum ALT and SDH levels were significantly elevated only in female B6C3F1 mice after 3 exposures to 200 ppm styrene; enzyme levels had returned to control levels when measured after 5 and 10 exposures. Degeneration and coagulative necrosis of centrilobular hepatocytes were observed in female B6C3F1 mice exposed 2, 3, and 5 days to 150 or 200 ppm styrene; incidences of these lesions were greater in the 200 ppm than in the 150 ppm dose group. After 10 days of exposure to 150 or 200 ppm styrene, hepatocellular lesions had resolved, although a residual chronic inflammation was present in livers of most female B6C3F1 mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of styrene hepatotoxicity in B6C3F1 and Swiss mice. 852 16

Sodium arsenite and cadmium chloride, were administered orally to adult female rats at 21 and 4 h prior to sacrifice. Liver, lung, skin and urinary bladder were the tissues studied. DNA damage, cytochrome P450, glutathione content (GSH), ornithine decarboxylase (ODC), serum alanine aminotransferase and heme oxygenase activity were measured. Sodium arsenite increased rat hepatic ODC activity at 1.6 and 24.6 mg/kg and hepatic heme oxygenase activity at 8.2 and 24.6 mg/kg, but did not cause any DNA damage. Cadmium chloride did not affect any of the six parameters tested. These findings suggest that sodium arsenite may be a promoter rather than an initiator of carcinogenesis.
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PMID:Arsenite, but not cadmium, induces ornithine decarboxylase and heme oxygenase activity in rat liver: relevance to arsenic carcinogenesis. 855 13

Groups of female Fischer-344 rats were fed a semipurified choline-deficient (CD) diet, or a semisynthetic L-amino acid-defined choline-deficient (CDAA) diet, for up to 12 wk and effects of the 2 diets on the liver were compared. Steatosis was diffuse and more severe throughout in rats fed the CDAA diet than in rats fed the CD diet. Greater elevations in serum aspartate and alanine aminotransferase activities were also present in the former rats, along with higher 2-bromodeoxyuridine labeling indices in the liver. Discrete amounts of 8-hydroxyguanine were detected in liver DNA, but were not significantly different in rats fed the 2 diets, or from those present in a group of control rats killed at 0 time. Glutathione S- transferase placental form-positive focal lesions were not observed in any of the rats. The results show that the CDAA diet causes more severe degrees of steatosis and liver cell death and proliferation than the CD diet, raising the possibility that it may, in contrast to the CD diet, result in the eventual induction of hepatocellular carcinomas in female Fischer-344 rats.
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PMID:Comparative changes in the liver of female Fischer-344 rats after short-term feeding of a semipurified or a semisynthetic L-amino acid-defined choline-deficient diet. 857 1

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