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)

Heavy beef heart mitochondria were exposed to controlled concentrations of several volatile anesthetics including halothane, enflurane and chloroform. These anesthetics caused a concentration-dependent release of protein from mitochondria with maximal release occurring at 17.5% halothane and less release at lower and higher concentrations. The proteins released into the supernatants were analyzed by electrophoresis on slab gels containing a 6--20% gradient of acrylamide. The anesthetics caused the release of several polypeptides from mitochondria into the incubation medium; the major polypeptides released had molecular weights of 78 000; 48 000; 47 000; 43 000; 32 000 and 22 000. Two of these were identified by enzyme analysis and by co-electrophoresis with crystalline enzymes as the subunits of aspartate aminotransferase (43 000 daltons; EC 2.6.1.1) and malate dehydrogenase (32 000 daltons; EC 1.1.1.37). Mitochondria exposed to saturated halothane vapors were similar ultrastructurally to controls except that the halothane mitochondria appeared uncoupled. Similar results were obtained with O2 or N2 as carrier gas.
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PMID:Extraction of mitochondrial proteins by volatile anesthetics. 70 81

After a chloroform intraperitoneal injection, lactate dehydrogenase, alanine aminotransferase and particularly aspartate aminotransferase serum activities are much more raised in deficient animals. Liver ornithine decarboxylase (ODC) activity normally decreases in rats between the 4th. and the 7th. month after the weaning. In vitamin A deficient animals, basal values of the enzyme activity are lower and the decrease is deeper. But even at month 7, liver sustains a partial capacity of ODC recovery if retinol is fed during 15 days. Chloroform administration strongly enhances liver ODC activity in normal rats. In the deficiency, stimulation is lower in absolute value but relatively higher if referred to basal level. After retinol refeeding, chloroform stimulates enzyme activity to nearly normal values. Vitamin A deficiency impairs obviously liver ODC activity and its response to chloroform stimulation in rats, but the stroke is at least partially reversible in our conditions. Moreover, deficient animals maintain a non negligible capacity of ODC response under chloroform stimulation.
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PMID:[Toxicity of chloroform and vitamin A status in the rat]. 145 50

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

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

Male Swiss Webster mice (25-30 g) maintained on powdered control diet, or on diets containing chlordecone (CD, 10 ppm), mirex (M, 10 ppm), or phenobarbital (PB, 225 ppm) were used in this study. At these low levels, chlorinated hydrocarbon pesticides are not toxic, they neither affect food or water consumption, nor the body weight of mice. After a 15-day dietary protocol, a single challenge dose of CHCl3 (0.1 ml/kg) was administered intraperitoneally in corn oil vehicle. Liver damage was assessed 24 hours later using serum aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activities, histopathology, and lethality. For comparison, serum enzymes were measured in a separate group of mice receiving a high dose of CHCl3 (1.0 ml/kg) alone. None of the dietary treatments alone affected any of the serum transaminases. The serum enzymes were remarkably elevated in the mice treated with CD and CHCl3. A high dose of CHCl3 (1.0 ml/kg) elevated the serum enzymes more than 10-fold over those in the mice fed normal diet receiving only the corn oil vehicle. The histopathology of the liver indicated midzonal necrosis typical of liver injury from CHCl3 and depletion of PAS positive glycogen deposits. These effects were not evident in mice treated with 0.1 ml/kg CHCl3 alone. Additional histological alterations in the livers of the CD + CHCl3 group include the degenerated cells, loss of basophilic staining characteristics, and an increased degree of cytoplasmic vacuolation. The amplification of CHCl3 hepatotoxicity by CD was also reflected by a 4.2-fold increase in lethality determined by 48-hour LD50.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amplification of chloroform hepatotoxicity and lethality by dietary chlordecone (kepone) in mice. 245 13

Working up great test series to determine chloroform-extractive substances and tensides, increased trichlormethane concentrations can appear in the laboratory air-inspite of realization of numerous precautionary measures. As a rule the MAKD rate will be exceeded than. Various precautions failed to fulfill their purpose so that the solvent trichlormethane had been replaced by other solvents. Two demands mainly influenced on this replacement. The risk to health must be decreased so far that the work with solvents can be performed without any difficulties. The correlation between methods of determination must-on the other hand-be a reliable one. Trichlortrifluorethane is especially suited for the determination of extractive substances, dichlormethane for those of AAT (MBAS). The MAK rates can be observed with utilization of both the solvents. The reliable correlation of the concentration ascertained could be proved.
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PMID:[Decreasing the emission of pollutants in laboratory waste water by substitution of trichloromethane]. 274 1

Primary cultures of adult rat hepatocytes were incubated (1.5-16 hr) with various concentrations of CCl4 (less than or equal to 0.5 mM) and/or CHCl3 (less than or equal to 2.5 mM). Agent-dependent alterations in hepatocyte functions were assessed by measuring (1) [3H]choline incorporation into phosphatidylcholine (endoplasmic reticulum), (2) MTT (tetrazolium salt) reduction (mitochondria), and (3) AST release into medium (plasma membrane). Cultured hepatocytes incubated with 0.5 mM CCl4 displayed a significant (p less than or equal to 0.001) and rapid (1.5 hr) reduction (40%) in endoplasmic reticulum function that preceded significant (p less than or equal to 0.001) alterations in mitochondria (6-16 hr) and plasma membrane (6-16 hr) functions. CCl4-dependent alterations in liver cell functions are a result of CCl4 bioactivation since metyrapone inhibits the CCl4-mediated changes in cell functions. Response surface methods (RSM) were used to determine the influence of combinations of CCl4 and CHCl3 on liver cell MTT reduction and [3H]choline incorporation. Regression coefficients were determined for CCl4, CHCl3, and CCl4-CHCl3. All results were significant (p less than 0.0001) and implied that CCl4 was a more potent hepatotoxin in vitro than CHCl3. The RSM analysis also suggested that combinations of CHCl3 and CCl4 have greater than additive effects on MTT reduction and [3H]choline incorporation. These effects of CCl4 and/or CHCl3 on liver cell functions in vitro are consistent with liver alterations observed in vivo. Therefore, primary cultures of adult rat hepatocytes may be an appropriate model in vitro to assess the hepatotoxic potential of agents alone or in combination.
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PMID:Toxic interactions between carbon tetrachloride and chloroform in cultured rat hepatocytes. 279 11

The toxicity of several halogenated and non-halogenated hydrocarbons (CH2Cl2, CHCl3, CCl4, C6H14, C8H10) in isolated rat hepatocytes were compared. Release of aspartate aminotransferase (AST) activity was rapid and concentration-dependent. Fractional AST release plateaued at 10-60 min following hydrocarbon exposure. Enzyme leakage at 60 min correlated with the oil/water partition coefficient (pi) of the compounds. All compounds, except n-hexane, also caused an immediate inhibition of the rate of cellular respiration. Inhibition of cell respiration also correlated with pi and was reversible. The recovery of cellular oxygen consumption was examined in detail for CCl4 and correlated with evaporation of the compound. These data suggest that acute hydrocarbon-induced injury in isolated hepatocytes is mediated by concentration-dependent direct solvent effects. Since halogenated hydrocarbons are widely used to induce general anesthesia, the clinical implications of possible direct effects by halocarbons on liver function in vivo and the potential relationship to liver injury are discussed.
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PMID:Rapid halogenated hydrocarbon toxicity in isolated hepatocytes is mediated by direct solvent effects. 362 14

The suitability of isolated rat hepatocytes for the investigation of the toxicity of chemical mixtures has been studied. Cadmium chloride and chloroform were used because both had been previously investigated in hepatocytes and both produce hepatotoxicity after in vivo administration. The addition of the two chemicals caused an increase in cytotoxicity as assessed by loss of intracellular potassium ion and aspartate aminotransferase. There was even a toxic response form the mixture at concentrations where the chemicals alone yielded no such response. The metabolic parameter, lactate to pyruvate ratio, was less consistently affected. The nature of the interaction could, under the varying conditions employed, be described as one of synergism, potentiation, or addition. The data support the proposed role of isolated hepatocytes in screening chemical mixtures for toxic effects.
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PMID:Assessment of the toxicity of chemical mixtures with isolated rat hepatocytes: cadmium and chloroform. 369 18

Studies were made with male Wistar rats on the effects of 50% food restriction on the metabolism of eight organic solvents (chloroform, carbon tetrachloride, 1,2-dichloroethane, 1,1-dichloroethylene, trichloroethylene, benzene, toluene and styrene) and on the hepatotoxicity induced by carbon tetrachloride inhalation at 400 ppm for 4 h. The activities of liver drug-metabolizing enzymes for these solvents were enhanced almost equally without exception by one-day food restriction, although the restriction produced no significant increase in the microsomal protein and cytochrome P-450 contents. Carbon tetrachloride hepatotoxicity was enhanced by the food restriction, as evidenced by a marked increase of serum glutamic-oxaloacetic transaminase (GOT) and glutamic-pyruvic transaminase (GPT) activities in the food-restricted rats. Histological findings of the liver also supported this finding. Thus, food restriction enhances metabolism of organic solvents in the liver, and can modify toxicity of some chemicals such as carbon tetrachloride, which need metabolic activation to become cytotoxic.
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PMID:[Effects of one-day food restriction on the metabolism and toxicity of organic solvents in rats]. 376 20

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