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)

To test further the competence of the cirrhotic liver to metabolize vitamin D3 at C-25, hepatocytes were isolated from controls and from CCl4-induced cirrhotic rat livers, as well as from partially hepatectomized rats. The transformation of D3 into 25-hydroxyvitamin D3 was studied in the presence of 10(7) hepatocytes at D3 concentrations of 20 nmol/L to 15.4 mumol/L. Histologically, micronodular cirrhosis was present in all CCl4-treated rats, whereas controls had normal livers; portal venous pressure (p less than 0.008) and intrahepatic collagen content (p less than 0.0001) were significantly increased in CCl4-treated rats, whereas no difference was found between the two groups in the total and ionized serum calcium, D3 metabolites, ALT, AST and alkaline phosphatase. Cytochrome P-450 was 0.27 +/- 0.02 and 0.25 +/- 0.02 nmol/10(6) hepatocytes in controls and cirrhotic rats (N.S.), and it significantly increased in both groups after phenobarbital or 3-methylcholanthrene administration (p less than 0.0001). 25-Hydroxyvitamin D3 formation was best described by power law equations and varied between 0.02 +/- 0.0004 and 29.57 +/- 2.8 in controls, and 0.024 +/- 0.0004 and 32.0 +/- 7.0 pmol.hr-1.10(6) hepatocytes-1 in cirrhotic rats. No statistically significant difference was found in the slopes of the 25-hydroxyvitamin D3 formation, but the y-axis intercept was found to be lower in cirrhotic rats under basal resting conditions (p less than 0.005). Inducers of the mixed function oxidases significantly increased 25-hydroxyvitamin D3 formation in controls as well as in cirrhotic rats (p less than 0.005). Moreover, both groups were found to respond similarly to the addition of modulators of the enzyme such as the calcium ionophore A23187 and parathyroid hormone. Partial hepatectomy was also without effect on the activation of D3. Furthermore, the cell sequestration of D3 was also found to be unperturbed in hepatocytes obtained from either cirrhotic or partially hepatectomized livers. The data indicate that in well-compensated micronodular cirrhosis, the C-25 hydroxylation of D3 is generally intrinsically normal at the cellular level and that it also remains fully responsive to in vivo and in vitro modulators of its activity.
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PMID:In micronodular cirrhosis, hepatocytes retain a normal C-25 hydroxylation capacity toward vitamin D3: a study using the rat carbon tetrachloride-induced cirrhotic model. 184 94

The present investigation was undertaken to test our hypothesis that the slow responses of hepatocellular regeneration and tissue repair after CCl4-induced liver injury are responsible for the high sensitivity of gerbils to the hepatotoxic and lethal effects of CCl4. These studies were conducted in normal and actively regenerating livers using male gerbils 5 or 15 days after partial (2/3) hepatectomy (PH5 and PH15, respectively), or those undergoing sham operation (SH). An LD50 dose of CCl4 (80 microL/kg, i.p.) resulted in a mortality (21%) significantly (P less than 0.05) less than 50% in PH5 gerbils 48 hr after CCl4 administration, whereas the mortality observed in PH15 or SH gerbils was not significantly different from 50%. The elevations of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels were significantly (P less than 0.05) less in PH5 gerbils than in PH15 or SH groups after the administration of either the LD50 dose or a low dose (15 microL/kg) of CCl4. Histopathological and histomorphometric examinations also indicated that CCl4-induced liver injury was less severe in PH5 gerbils than in the PH15 and SH groups. The hepatic microsomal cytochrome P450 content measured before CCl4 administration in the PH5 gerbils was decreased (26%) significantly (P less than 0.05) as compared with the SH group, but was not significantly different from that of PH15 gerbils. In vivo metabolism of 14CCl4 and lipid peroxidation in liver tissue were not significantly different among the various groups. Therefore, the protection against CCl4 toxicity observed in PH5 gerbils is unlikely to be due to decreased bioactivation of CCl4 or lipid peroxidation in that group. [3H]Thymidine incorporation into hepatocellular nuclear DNA was 4- to 5-fold higher in PH5 gerbils than in the PH15 and SH groups, indicating active hepatocellular proliferation in PH5 gerbils. [3H]Thymidine incorporation was further increased significantly (P less than 0.05) 24 hr after challenge with a low dose of CCl4 in PH5 gerbils, whereas it remained low until 48 hr after the CCl4 injection in the PH15 or SH group. The protection against CCl4 toxicity afforded by partial hepatectomy was closely associated with active hepatocellular regeneration. The overall results confirm the concept that the high sensitivity of gerbils to CCl4 is due to very sluggish hepatocellular regeneration and tissue repair response to the CCl4-induced liver injury.
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PMID:Protection from CCl4 toxicity by prestimulation of hepatocellular regeneration in partially hepatectomized gerbils. 185 67

An artificial liver support procedure based on hemoperfusion via hepatocytes cultured on microcarriers is described. The efficiency of the system was assessed by the survival rate of rats treated with either lethal dosage of 7% CCl4 [30 ml/kg body weight (b.w.)] or D-galactosamine (2.5 g/kg b.w.). In CCl4-treated rats, hemoperfusion via empty microcarriers (n = 16) revealed no surviving animals, whereas the use of the bioartificial liver (n = 11) resulted in 80% (p less than 0.01) and 60% (p less than 0.05) survival 48 and 168 h after hepatotoxin, respectively. For the same time periods, the survival rate in D-galactosamine-intoxicated rats after hemoperfusion with hepatocytes (n = 20) was approximately 60% (p less than 0.05) and was only 5% in those of rats treated with empty microcarriers (n = 20). Sublethal dosage of 7% CCl4 (15 ml/kg b.w.) caused 25% mortality and prolonged (48 h) increase of activity of the liver enzymes and bilirubin levels in the serum of surviving animals. In these rats (n = 8) at the end of 3 h of hemoperfusion via hepatocytes, the bilirubin concentration decreased by 45% as compared with the control group (n = 6) treated with empty microcarriers. Moreover, by 48 h after intoxication, the use of the bioartificial liver resulted in more than a three-fold decrease in glutamate-oxaloacetate transaminase and a 10-fold decrease in glutamate-pyruvate transaminase serum activity as well as a fivefold decline in total and a ninefold decline in conjugated bilirubin levels as compared with the control animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bioartificial liver using hepatocytes on biosilon microcarriers: treatment of chemically induced acute hepatic failure in rats. 186 29

Previous studies have demonstrated that various compounds, including the common groundwater contaminants trichloroethylene (TCE) and chloroform (CHCl3), can produce a synergistic toxic response when coadministered with the model hepatotoxicant carbon tetrachloride (CCl4). This phenomenon has not, however, been demonstrated following administration of these compounds in drinking water. Initial experiments indicated that Fischer 344 (F-344) rats were significantly more sensitive to these effects than the more commonly utilized Sprague-Dawley strain. To establish the suitability of this strain as a model, a variety of indicators of hepatotoxicity was evaluated and compared to histological evidence of injury 24 hr after dosing with CCl4 or a combination of CCl4 + TCE. Plasma alanine aminotransferase (ALT) activity was the most reliable indicator of hepatic injury and was well-correlated with the histologic data. Dose-response studies utilizing simultaneous ip dosing confirm the sensitivity of the F-344 rat, demonstrating synergistic toxicity at doses as low as 0.165 mmol/kg of CCl4 and 0.6 mmol/kg of TCE. Synergism was also detected following simultaneous ip administration of 1 mmol/kg CCl4 and 0.5 mmol/kg of CHCl3. To evaluate the effects of drinking water exposure, rats were pretreated for 3 days with solutions containing TCE (0-40 mM) or CHCl3 (0-8 mM) stabilized with 1% Emulphor (EL-620P) as their only source of fluids. A single, ip dose of CCl4 (1 mmol/kg) was then administered and 24 hr later animals were killed for examination of liver histology and determination of ALT activity. Although none of the pretreatments were detectably hepatoxic, rats which drank 15 and 40 mM TCE or 8 mM CHCl3 exhibited an enhanced response to CCl4.
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PMID:Pretreatment with drinking water solutions containing trichloroethylene or chloroform enhances the hepatotoxicity of carbon tetrachloride in Fischer 344 rats. 188 17

Effects of chronic ethanol consumption and one day food deprivation on the hepatotoxicity of low dose carbon tetrachloride (CCl4; 0 to 100 ppm inhalation for eight hours) in rats were investigated by using biochemical and histopathological methods. Liver malondialdehyde (MDA) contents were significantly increased by exposure to 5 ppm to 50 ppm CCl4 in ethanol treated rats or by exposure to 25 ppm to 50 ppm CCl4 in food deprived rats but not in rats without ethanol or food deprivation. The MDA concentrations reached a maximum at 10 ppm and 50 ppm CCl4 in ethanol treated and food deprived rats, respectively, and decreased to the non-exposed concentration at 100 ppm CCl4. At greater than or equal to 50 ppm CCl4 plasma MDA contents increased significantly only in ethanol treated rats. None of the exposure concentrations influenced plasma glutamic-oxaloacetic transamidase (GOT) and glutamic-pyruvic transaminase (GPT) activities in rats that were only exposed to CCl4 whereas exposure to 10 ppm or higher concentrations combined with ethanol increased both activities. To a lesser extent food deprivation combined with exposure to greater than or equal to 25 ppm CCl4 had the same effect. No histopathological changes were found in the liver of rats exposed to less than or equal to 10 ppm CCl4, and only a few ballooned hepatocytes were seen in centrilobular areas when exposure was 25 ppm or higher. The presence of ballooned and hepatocytes became a regular feature of mid-zonal areas in ethanol treated rats and in the centrilobular areas of food deprived rats after exposure to </= 10 and </=25 ppm CC1(4) respectively. Necrotic hepatocytes were seen in centrilobular areas in liver from ethanol treated and food deprived rats when exposure CC1(4) was >/=25 ppm and >/=50 ppm respectively. These results indicate that consumption of ethanol and food deprivation potentiate CCl(4) induced hepatic damage even at low concentrations of CCl(4) by promoting lipid peroxidation. Thus heavy drinking may be a risk factor for CCl(4) induced hepatic damage even though the CCl(4) concentration is as low as the threshold limit value.
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PMID:Ethanol and food deprivation induced enhancement of hepatotoxicity in rats given carbon tetrachloride at low concentration. 191 7

This study characterized the effects of liver damage produced by a variety of hepatotoxicants on several components of the sulfation pathway in rats. Specifically, the concentration of cosubstrate, adenosine 3'-phosphate 5'-phosphosulfate (PAPS), and the hepatic capacity for PAPS synthesis were measured in livers of rats treated with carbon tetrachloride (CCl4), 1,1-dichloroethylene (DCE), alpha-naphthylisothiocyanate (ANIT), aflatoxin B1 (ATX), allyl alcohol (AA), bromobenzene (BB), cadmium chloride (Cd), or thioacetamide (TA). Liver damage was assessed by measuring serum sorbitol dehydrogenase (SDH) and alanine aminotransferase (ALT) activities as well as by histopathological examination. Hepatic PAPS concentration was generally decreased as a result of treatment with hepatotoxicants (35-80% of control), although BB, AA, and ANIT were without effect. Maximal hepatic capacity for PAPS synthesis, determined as the activities of PAPS synthetic enzymes, ATP sulfurylase, and APS kinase, was selectively decreased by the hepatotoxicants. ATP sulfurylase activity was decreased by Cd and TA (55 and 62% of control, respectively), whereas APS kinase activity was decreased by Cd, TA, BB, and DCE (60-77% of control, respectively). In addition, phenol sulfotransferase (PST) activity was measured toward 1- and 2-naphthol in order to determine whether apparent changes in PST activity in damaged livers are substrate-dependent. Treatment with hepatotoxicants generally decreased 1-naphthol-directed PST activity but not PST activity directed toward 2-naphthol. In conclusion, (1) not all xenobiotic-induced liver injury results in decreased hepatic PAPS concentration, (2) some hepatotoxicants decrease PAPS concentration by a mechanism other than decreased cosubstrate synthesis, and (3) the effect of hepatotoxicants on PST activity is dependent upon the choice of substrate used in the enzymatic assay.
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PMID:The differential effects of hepatotoxicants on the sulfation pathway in rats. 194 7

The destruction of liver microsomal cytochromes P450 by a previously administered low dose of CCl4 has been widely accepted as the mechanism of CCl4 autoprotection. However, circumstantial evidence suggests that this mechanism cannot completely explain the phenomenon of autoprotection. The protective effect of a low dose of CCl4 (0.3 ml/kg, po) on the lethal effect of a subsequently administered high dose (5 ml/kg, po) was established in male Sprague Dawley rats. The protective dose permitted 100% survival, whereas only 15% survival was observed without it. Hepatotoxicity, measured by serum enzyme elevations (aspartate transaminase, alanine transaminase, and sorbitol dehydrogenase) and histopathological changes 24 hr after the treatment with high dose, was similar in both the groups, even though the protective dose had significantly decreased liver microsomal cytochromes P450 (to 62% of normal) and associated enzymes, aminopyrine demethylase and aniline hydroxylase. Rats pretreated with CoCl2 to decrease hepatic microsomal cytochrome P450 to 44% of normal levels did not show a significant protection from the hepatotoxicity of high dose of CCl4. Previous studies have established that hepatocellular regeneration is stimulated within 6 hr after the administration of a low dose of CCl4. Based on this observation, a premise that autoprotection results from augmented recovery from injury rather than decreased injury appears likely. Hence, the role of hepatocellular regeneration was evaluated by following 3H-thymidine incorporation in hepatocellular nuclear DNA, labelling index by autoradiography, and by morphometric estimation of mitotic index. After administration of the protective dose of CCl4, stimulated nuclear DNA synthesis measured by 3H-thymidine incorporation into nuclear DNA was increased and this remained high even after subsequent administration of high dose of CCl4. Forty-eight hr after the administration of a lethal dose of CCl4 alone (5 ml/kg, po), labelling index was slightly increased, but mitotic index was not increased. In the surviving rats (15%), both labelling index and mitotic index were significantly elevated after an additional 24 hr. In rats receiving the protective dose, a significantly greater elevation of labelling index as well as mitotic index occurred 48 hr after the administration of the same lethal dose of CCl4. These results suggest that hepatocellular regeneration stimulated by the protective dose, as a biological response recruited to overcome the accompanying limited injury, may augment and sustain tissue repair processes to permit tissue restoration even after the massive liver injury elicited by the subsequent large dose of CC14.
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PMID:Role of hepatocellular regeneration in CCl4 autoprotection. 204 7

Acetone potentiation of liver injury is greater when corn oil is given with acetone 18 h prior to a challenge with CCl4. This study aimed to further characterize the effects of the vehicle used to administer acetone on the severity of acetone-potentiated CCl4-induced liver injury. The more severe acetone-potentiated liver injury observed when corn oil was the vehicle does not seem to be due to greater liver acetone concentrations. When corn oil was used as the vehicle to administer acetone, liver and blood CCl4 concentrations were not significantly different from those where water was the vehicle. Therefore the relationship between blood or liver acetone concentration and plasma ALT activity for orally-administered acetone was modified by corn oil. Liver triglyceride concentration measured 18 h after a gavage of corn oil was significantly higher than that for the water-treated group. A direct effect of corn oil on liver, in particular a promotion of the propagation phase in the lipid peroxidation process induced by CCl4, is proposed to explain the increase in acetone-potentiated CCl4-induced liver injury.
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PMID:Inhalation versus oral administration of acetone: effect of the vehicle on the potentiation of CCl4-induced liver injury. 204 61

Serum activities of alanine-aminotransferase (ALAT, EC 2.6.1.2), aspartate-aminotransferase (ASAT, EC 2.6.1.1), lactate dehydrogenase (LDH, EC 1.1.1.27), and alkaline phosphatase (AP, EC 3.1.3.1) were increased significantly after a dose of 0.16 g/kg/b. w. (ip.) carbon tetrachloride (tetrachloromethane) in rats pretreated with 10% (v/v) ethanol for one and 10 weeks in comparison with water/carbon tetrachloride-treated animals. At the end of 30 and 52 weeks of ethanol consumption these levels were very slightly increased or not detectable. Ethanol treatment alone did not cause an increase in serum enzyme activities or histological liver damage, but caused a diminished intake of fluid and food and in some cases also a reduction of weight gain in the animal body. Significant decrease in body weight after carbon tetrachloride was more evident in rats pretreated with ethanol (1 week greater than 10 greater than or equal to 52 weeks) than in water drinking animals, the lethality caused by carbon tetrachloride was also higher after one and 10 weeks than after 30 to 52 weeks of ethanol pretreatment. The results indicate a decrease of carbon tetrachloride toxicity with increased duration of ethanol pretreatment. This phenomenon could be attributed to reduced sensibility to those alcohol effects which are responsible for increase of carbon tetrachloride toxicity.
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PMID:Influence of ethanol pretreatment of differing duration on toxic effects of carbon tetrachloride in rats. 208 Sep 8

In order to investigate whether or not transferrin is involved in the uptake of 67Ga by inflamed liver (acute inflammatory tissues) the uptake of 67Ga by the liver of mice treated with carbon tetrachloride (CCl4) was studied. The serum GPT value reached its maximum on the 1st day after the CCl4 treatment. The uptake of 67Ga by the liver also reached its maximum on the 1st day after the CCl4 treatment and the amount uptaken into inflamed liver was about 6 times that uptaken into normal liver. On the other hand, the uptake of 125I-transferrin into inflamed liver on the 1st day after CCl4 treatment was only about 1.6 times that into normal liver. Moreover, cold Fe3+ decreased the uptake of 67Ga by normal liver but increased the uptake of 67Ga by inflamed liver. These results show that transferrin plays an important role in the uptake of 67Ga by normal liver but not by inflamed liver, i.e. 67Ga in the transferrin-unbound form is preferentially taken up by inflamed liver.
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PMID:67Ga in transferrin-unbound form is taken up by inflamed liver of mouse treated with CCl4. 208 40

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