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)

Liver necrosis was produced in rats by administering 3 doses of a mixture of carbon tetrachloride + olive oil, 2 ml/kg, ip. The liver damage was evidenced by the elevated levels of serum aspartate aminotransferase (AST), alanine aminotransferase (ALT) and gamma glutamyl transpeptidase (gamma-GT) and by histopathological observations of liver sections. Aspartate and glutamate administration (100 mg/kg, ip) significantly reduced these elevated levels of AST, ALT, and gamma-GT. Carbon tetrachloride induced liver necrosis was also found to be significantly reduced in aspartate and glutamate pretreated animals as observed macroscopically and histologically.
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PMID:Effect of aspartate and glutamate on carbon tetrachloride induced liver damage in rats. 209 35

The efficiency of preventive administration of silymarin and of silymarin medication were tested in dogs suffering from CCl4 intoxication of liver. Sixteen dogs of the Beagle breed at the age of 8 to 10 months and of the weight 11.5 to 14.0 kg were divided into four groups with four animals each. Those groups were administered per os a single dose of CCl4, 0.35 ml per kg liveweight contained in sunflower oil. The intact control groups was given sunflower oil free of any additive. Silymarin was administered per os in the form of suspension in the Dorfman reagent twice a day at the dose of 100 mg per kg. Silymarin was administered to the animals of the treated group four days after intoxication, to those of the preventively treated group four days before intoxication. The intact control group and the CCl4 intoxicated control were administered the pure Dorfman reagent. Pure CCl4 induced a significant increase in the AST and ALT activity in 12 and 24 hours after administration, and histological lesions in the liver--vacuolization of hepatocytes and necrobiosis of nuclei. The curative effects of silymarin on these changes were low. The protective effects of silymarin were manifested by the significantly lower AST and ALT activities in the 12th and 24th hour of the trial and by the insignificantly lower extent of lesions in liver parenchyma if compared with the control CCl4 intoxicated group.
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PMID:[Verification of the hepatoprotective and therapeutic effect of silymarin in experimental liver injury with tetrachloromethane in dogs]. 210 76

beta-Hexosaminidase (Hex) activity has been shown to be increased in the sera of patients with chronic liver diseases as well as in rats with CCl4-induced liver cirrhosis. In this study, serum and liver Hex activity was determined in rats during the acute phase of CCl4 poisoning, a widely used animal model of acute necrotic liver damage. The results showed a statistically significant decrease of Hex activity in the sera of rats 36 h after CCl4 poisoning (5.84 +/- 2.90 U/l), as compared to controls (11.58 +/- 1.35 U/l; p less than 0.001). No significant change was observed in liver tissue of CCl4-treated animals and controls. A significant correlation between the decrease in Hex and the increase in serum aspartate aminotransferase in serum was found. The results are consistent with the hypothesis that this lysosomal enzyme could be released by non-parenchymal liver cells, such as activated macrophages; its increased activity could be the expression of macrophage activation, as demonstrated in patients with chronic liver diseases.
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PMID:beta-Hexosaminidase activity in the acute phase of CCl4 poisoning in the rat. 215 17

A study was conducted to examine the inhibitory effect of acyclic retinoid (polyprenoic acid) on the development of hepatic fibrosis induced by CCl4 in rats. Oral administration of the compound brought about a significant reduction in both serum and tissue levels of immunoreactive prolyl hydroxylase, a key enzyme of collagen formation. The result indicated that the rate of collagen synthesis in the liver was decreased which was consistent with histological findings. Acyclic retinoid also decreased both AST and ALT activities in serum, demonstrating the reduction in hepatic parenchymal damage. This cytoprotective effect on parenchymal cells may be related, at least in part, to inhibition of hepatic fibrosis. No significant side effects were observed, despite a long-term administration of the acyclic retinoid. The present findings suggest the potential scope of therapy of hepatic fibrosis by retinoid.
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PMID:Inhibitory effect of acyclic retinoid (polyprenoic acid) on hepatic fibrosis in CCl4-treated rats. 216 74

Various aliphatic alcohols potentiate the toxicity of a wide range of xenobiotics including several haloalkanes. The present series of experiments were designed to test: (i) whether a single subtoxic dose of alcohol can potentiate CCl4 and CHCl3 hepatoxicity, and (ii) whether this potentiation leads to greater animal lethality. Selected members of a homologous series of straight chain alcohols were chosen for this study. Methanol, ethanol, isopropanol, t-butanol, pentanol, hexanol, octanol, decanol, and eicosanol at equimolar doses (10 mmol/kg) were tested in the present investigation. Each alcohol was administered orally to male Sprague-Dawley rats (175-250 g) 18 hr prior to a single oral administration of CCl4 or CHCl3. Liver injury was assessed by plasma transaminases (alanine aminotransferase, ALT; aspartate aminotransferase, AST) and histopathological examination of liver sections 24 hr after the halomethane treatment. None of these alcohols alone increased plasma ALT or AST significantly, whereas CCl4 or CHCl3 administration to alcohol-treated animals resulted in significant elevation of plasma transaminases. Eicosanol (20-carbon alcohol) did not potentiate the toxicity of either halomethane. Methanol, ethanol, isopropanol, and decanol in combination with CCl4 caused massive liver damage but failed to augment CCl4 lethality. t-Butanol, pentanol, hexanol, and octanol significantly decreased the LD50 of CCl4. The hepatotoxic effects of CHCl3 were potentiated by all of the alcohols and the LD50s were also decreased significantly. On a comparative basis, alcohol-potentiated CHCl3 toxicity was greater than the toxicity of CCl4. These findings indicate that even though halomethane liver injury might be potentiated by alcohols, the underlying mechanisms differ among alcohols since not all alcohols potentiate the lethal effects of these halomethanes.
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PMID:Potentiation of CCl4 and CHCl3 hepatotoxicity and lethality by various alcohols. 225 8

To determine the course of hepatic recovery from subchronic oral administration of carbon tetrachloride (CCl4), male F-344 rats were gavaged with 0, 20, or 40 mg CCl4/kg, 5 days/week, for 12 weeks. Exposure to CCl4 caused dosage-dependent increases in relative liver weight and the serum levels of aspartate aminotransferase, alanine aminotransferase, lactate dehydrogenase, alkaline phosphatase, and cholesterol as well as a dosage-dependent decrease in hepatic cytochrome P450. Centrilobular hepatocellular vacuolar degeneration, necrosis, and cirrhosis occurred at both 20 and 40 mg/kg, with dosage-dependent severity. Reversibility of these reported effects varied with parameter. By Day 8 postexposure, necrosis had disappeared and all serum indicators and cytochrome P450 had returned to control levels. By Day 15 postexposure, the severity of the vacuolar degeneration had decreased. Reversibility of cirrhosis was dosage dependent; complete recovery occurred in the low- but not the high-dose group by Day 15. The disappearance of the increase in relative liver weight was also dependent on dosage; the low- but not the high-dose group had returned to the control level by Day 22. In an attempt to measure persistent hepatic damage, liver uptake relative to the spleen was determined for a sulfur colloid labeled with technetium-99m and for tritiated 2-deoxyglucose. Neither method consistently measured hepatic damage in cirrhotic livers due, in part, to the high degree of variability in the tracer uptake data.
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PMID:Assessment of hepatic indicators of subchronic carbon tetrachloride injury and recovery in rats. 225 19

We evaluated plasma amino acid (AA) concentrations associated with a histologically defined lesion caused by bile duct ligation (BDL) in developing rats. Nineteen rats that underwent BDL at 14 days of age had marked bile duct proliferation with bridging fibrosis, multifocal lobular necrosis, and minimal polymorphonuclear periportal infiltrate in their livers at sacrifice (11-31 days after ligation). These were compared to two age-matched control groups: 21 nonoperated rats and 22 sham-operated rats; and eight rats with cirrhosis caused by carbon tetrachloride. Signs of liver damage including jaundice, growth failure, bleeding, and ascites were accompanied by elevated bilirubin, ammonia, aspartate aminotransferase (AST), and alkaline phosphatase levels in BDL rats compared to controls. They had higher concentrations of total AAs, phenylalanine, tyrosine, and cyst(c)ine when compared to controls and to CCl4-treated rats. Micronodular cirrhosis was present in CCL4-treated rats with elevated AST and alkaline phosphatase levels. Glutamine and glutamate levels were higher in them than in BDL rats or controls, and branched chain AA levels were lower. These two chronic lesions, one obstructive and one hepatotoxic, both result in fibrotic change, but their metabolic abnormalities as reflected in plasma AA levels are distinct. We found that BDL is an appropriate model with which to study metabolic changes and growth failure due to chronic biliary stasis during its progression to frank cirrhosis.
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PMID:Plasma amino acids in long-term models for obstructive versus toxic liver injury in developing rats. 232 99

The joint hepatotoxicity of CCl4 and CHCl3 or TCE in male CD rats following simultaneous oral administration has been investigated. Rats with chronic indwelling arterial cannulas were administered a single oral dose of CCl4 and CHCl3 or CCl4 and TCE in 5% Emulphor at doses of 0 to 700 mg/kg. Hepatotoxicity was evaluated by measuring the activity of AST, ALT, and SDH in plasma at 0, 3, 6, 12, 24, 36, 48, and 72 hr postgavage. Response data were analyzed for interaction using response surface methodology. CCl4 alone displayed dose-dependent toxicity. TCE demonstrated little evidence of hepatotoxicity. In combination, both CCl4/CHCl3 and CCl4/TCE displayed a synergistic (supraadditive) response for peak plasma enzyme activity.
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PMID:Interactions of water contaminants. I. Plasma enzyme activity and response surface methodology following gavage administration of CCl4 and CHCl3 or TCE singly and in combination in the rat. 234 Sep 78

It was investigated whether the prostacyclin derivative Iloprost (Schering, Berlin) protects rat hepatocytes against lethal damage induced by carbon tetrachloride (CCl4) and bromobenzene (BB). Iloprost was tested in whole animal experiments (intoxication with 2 ml CCl4/kg) and with primary hepatocyte cultures (intoxication with 1.6 mM BB). Cell damage was estimated by light microscopic examination of hepatocellular morphology and by the release of hepatocellular enzymes (glutamic-pyruvic transaminase, GPT; glutamic-oxalacetic transaminase, GOT; lactic dehydrogenase, LDH) into the blood or culture medium. In both experimental set-ups, Iloprost (0.1 micrograms/kg/min in whole animal experiments and 10(-9)-10(-12) M in primary hepatocyte cultures) largely preserved normal hepatocellular morphology after intoxication. Furthermore, the toxin-induced release of hepatocellular enzymes into the blood (GOT, GPT) or into the culture medium (LDH) was reduced by 50%-70% in the presence of Iloprost. It is concluded that the prostacyclin derivative Iloprost possesses cytoprotective activity on rat hepatocytes against lethal injury by CCl4 or BB.
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PMID:Cytoprotective effect of the prostacyclin derivative iloprost against liver cell death induced by the hepatotoxins carbon tetrachloride and bromobenzene. 243 51

The propensity of chlordecone (CD) to potentiate hepatotoxic and lethal effects of CCl4 is well established. Mirex (M), a close structural analogue of CD, or phenobarbital (PB), powerful inducers of hepatic microsomal drug metabolizing enzymes, are much weaker potentiators of CCl4 toxicity. The purpose of this study was to test the possibility that CD potentiates the toxicity of CCl4 by increasing the metabolism of CCl4 to a greater degree than either PB or M. We compared the in vivo metabolism of CCl4 in rats pretreated with CD, M, or PB, by measuring the hepatic content of 14CCl4, the expiration of 14CCl4, expiration of 14CCl4-derived 14CO2, and lipid peroxidation. Male Sprague-Dawley rats (250-270 g) were pretreated with a single oral dose of CD (10 mg/kg), M (10 mg/kg), or corn oil vehicle (1 ml/kg). PB pretreatment consisted of an ip injection of sodium PB (80 mg/kg) in saline (0.9%) for 2 successive days. Twenty-four hours later, 14CCl4 (0.1 ml/kg; sp act: 0.04 mCi/mmol) was administered ip in corn oil and the radioactivity present in the expired air was collected for 6 hr. Excretion of the parent compound as represented by the 14C label in the toluene trap was unchanged by any of the pretreatments. Expiration of 14CO2 measured during the 6 hr after CCl4 administration was increased in animals pretreated with PB or CD. In vivo lipid peroxidation measured as diene conjugation in lipids extracted from the livers was increased to a similar extent in animals pretreated with PB and CD, whereas the serum transaminases (ALT, AST) were significantly elevated only in animals pretreated with CD.M did not affect 14CO2 production and was without a significant effect on the lipid peroxidation. The radiolabel present in the liver at 6 hr showed no difference in hepatic content of free 14CCl4 among the groups, but the covalently bound label present in the lipid fractions of the livers pretreated with PB was elevated in comparison to CD and M treatments. These data indicate that a single oral administration of CD (10 mg/kg) 24 hr prior to CCl4 administration (100 microliter/kg) enhances the oxidative metabolism of CCl4 but to a lesser extent than PB (80 mg/kg, ip, twice), which is in inverse relationship to the potentiation of the hepatotoxic and lethal effects of CCl4 associated with these pretreatments.
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PMID:In vivo metabolism of CCl4 by rats pretreated with chlordecone, mirex, or phenobarbital. 245 66

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