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

Liver dysfunction was produced in the rat by injecting CCl4 subcutaneously in the back twice a week, and the effects of L-carnosine (CAR) on the resulting liver injury were examined. When CCl4 was administered to 6-week-old rats for 9 weeks, GOT and GPT values increased, but these changes were suppressed in the group concomitantly treated with CAR, indicating a protective effect of the agent on liver function. No such preventive effects of CAR was observed in 40-week-old rats, but when the CCl4 administration was discontinued after 4 weeks, GOT and GPT decreased to normal levels within 1 week of discontinuation, indicating a therapeutic effect of CAR on hepatopathy. Based on these findings, we determined the cortisone beta-reductase activity in the rat liver. The increase in this enzyme activity in the group treated with CAR indicated acceleration of cortisone metabolism. Changes of blood cortisol level and cerebral and blood noradrenaline (NA) levels were studied by exposing 6-week-old rats to electric shocks at 30 V. Cortisol released into the circulation after the stress was quickly metabolized in the CAR group and the blood level normalized after 3 hours. Following the release of NA from the brain into the circulation, the NA concentration rapidly returned to the normal level both in the brain and the blood. CAR enhanced the liver function and accelerated the metabolism of stress-related substances also in aged animals. CAR, moreover, restored the RNA contents of the mouse spleen and the immunological abilities represented by PFC reaction, which are reduced by stresses such as forced immersion, fasting, and administration of MMC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Acceleration of metabolism of stress-related substances by L-carnosine]. 169 24

Calmodulin, a low molecular weight Ca2+ binding protein, regulates a large number of cell activities including cell division. Previous studies from our laboratory indicated excessive accumulation of Ca2+ in hepatocytes succeeded by rapid glycogen breakdown and suppressed cell division in rats receiving CCl4 after previous dietary exposure to 10 ppm chlordecone. Since calmodulin plays a major role in Ca2(+)-regulated events and has been reported to be localized in mitotic apparatus during cell division, we have assessed subcellular distribution of calmodulin and estimated cytosolic phosphorylase a to indicate cytosolic free Ca2+ levels in livers of rats fed 0 ppm or 10 ppm (chlordecone) in the diet for 15 days before CCl4 (100 microliters/kg) administration to understand the role of Ca2(+)-calmodulin in chlordecone + CCl4 toxicity. Hepatotoxicity was assessed by determining serum AST and ALT succeeded by histopathological observations of liver sections. Serum aminotransferases were significantly elevated 6 hr after CCl4 administration to normal rats and returned to control level by 24 hr. However, serum AST and ALT elevations were severalfold higher, and progressive increase was observed starting 4 hr after CCl4 administration to chlordecone rats. Histopathological observations of liver sections for necrotic, swollen and lipid-laden cells provided findings commensurate with the serum enzyme data. These data indicate that normal rats do recover from CCl4 hepatotoxicity. However, the CCl4 hepatotoxicity is progressive in chlordecone rats without recovery. In normal rats, CCl4 administration resulted in a slight increase in phosphorylase a starting at 6 hr.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Carbon tetrachloride-induced alterations of hepatic calmodulin and free calcium levels in rats pretreated with chlordecone. 170 67

Chlordecone (CD) pretreatment is well known to greatly potentiate CCl4 toxicity. Previous work has shown that suppression of hepatocellular regeneration permits an ordinarily limited liver injury to progress in an irreversible manner. Insufficient hepatocellular energy has been proposed as a mechanism for suppressed hepatocellular regeneration. Since cyanidanol reportedly increases cellular ATP, this compound was employed to test the above hypothesis. The present study was designed to investigate the sequential biochemical and histological changes over a time course of 120 hr after CCl4 administration. Male Sprague-Dawley rats (125-150 g) were maintained on 10 ppm CD diet for 15 days and were challenged with either a standard protocol dose (100 microliters/kg) or a low (50 microliters/kg, L) dose of CCl4. Cyanidanol pretreatment at 48, 24, and 2 hr before CCl4 administration to rats maintained on CD diet resulted in 100 or 70% animal survival, for CCl4 (L) or the standard dose of CCl4, respectively. Preliminary studies indicated that neither simultaneous nor subsequent administration of cyanidanol with CCl4 challenge affords such protection. Prior treatment with cyanidanol and a latency period were found necessary for protection. Without cyanidanol, CD + CCl4 combination caused 50 and 100% lethality after CCl4 (L) and the standard dose, respectively, while the same doses of CCl4 alone did not cause lethal effects. Plasma enzymes (alanine aminotransferase, aspartate aminotransferase, sorbitol dehydrogenase) in control rats showed only moderate and transient increases after CCl4 challenge. The combination of CD + standard dose of CCl4 resulted in progressive and marked elevations of all three serum enzymes at all time intervals until the death of animals. Cyanidanol pretreatment resulted in significant decline in the plasma enzyme elevations at later time points. Cyanidanol pretreatment increased hepatic ATP synthesis in control or CD rats. CCl4 administration to control rats did not alter hepatic ATP levels, while in CD-fed rats hepatic ATP levels were significantly decreased. Cyanidanol pretreatment to CD + CCl4 combination-treated rats did not significantly prevent the decline in hepatic ATP and glycogen levels. However, in the surviving rats a recovery in these parameters was observed. Light microscopic examination of livers from animals that received CCl4 alone revealed only marginal cellular injury, at early time points only. However, CCl4 challenge to rats maintained on CD resulted in progressive injury, characterized by the appearance of ballooned cells, necrotic cells, and cells with lipid droplets in the liver. Cyanidanol pretreatment to these rats caused decreased vacuolation and significantly reduced the progression of liver necrosis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Protection from chlordecone-amplified carbon tetrachloride toxicity by cyanidanol: biochemical and histological studies. 170 39

It has been shown that BrCCl3 is a more potent hepatotoxin than CCl4. Pretreatment with nontoxic dietary levels of chlordecone (CD) results in amplification of BrCCl3 hepatotoxicity. The objective of this research was to investigate and compare the histopathological alterations during a time course after a low dose of BrCCl3 alone and in combination with dietary CD. Male Sprague-Dawley rats were maintained on 10 ppm dietary CD or normal diet for 15 days. On day 16, they received a single ip dose (30 microliters/kg) of BrCCl3 in corn oil (CO) vehicle or corn oil alone. Blood and liver samples were collected at 0, 3, 6, 12, 24, 36, 48, 72, 96, and 120 hr for serum enzymes and histopathological examination, respectively. Serum enzymes (SDH, ALT, AST) were significantly (p less than 0.05) elevated in rats receiving the CD + BrCCl3 combination in comparison to BrCCl3 alone. For 48 hr, a continuous increase in serum enzyme activities was detected in rats treated with CD + BrCCl3 combination, but not in the rats receiving other treatments (ND + BrCCl3, ND + CO, or CD + CO). The most extensive hepatolobular necrosis was observed in rats treated with the CD + BrCCl3 combination. Thirty-six hr after the administration of BrCCl3 to rats maintained on normal diet, high mitotic activity was observed, which continued through 72 hr resulting in complete restoration of hepatolobular structure. In contrast, rats receiving the combination of CD + BrCCl3 exhibited minimal and belated hepatomitotic activity for a short period of time, resulting in progressive hepatic failure, culminating in animal death. In conclusion, hepatotoxicity of a low dose of BrCCl3 alone appeared to be overcome via stimulated hepatocellular regeneration and hepatolobular restoration. CD appears to amplify BrCCl3 hepatotoxicity via interference with this hormetic mechanism, permitting a progressive and continued hepatic injury leading to complete hepatic failure, culminating in animal death.
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PMID:Bromotrichloromethane hepatotoxicity. The role of stimulated hepatocellular regeneration in recovery: biochemical and histopathological studies in control and chlordecone pretreated male rats. 170 15

A number of toxic chemicals affect the biliary excretory function of liver. Organochlorines and halomethanes are known to enhance bile flow. Despite the demonstration that a diversity of agents modify biliary function, the mechanism by which these chemicals manifest this effect is not fully understood. This study was designed to assess the effect of colchicine (0.1, 1.0, or 2.5 mg/kg, i.p., in saline) administration on biliary excretory function 6 and 24 hr later. Additionally, the effect of colchicine (1 mg/kg, i.p. in saline) pretreatment in rats 2 hr prior to the administration of a single low dose of CCl4 (100 microL/kg, i.p., in corn oil) or corn oil alone (1 mL/kg, i.p.) on hepatic biliary excretory function was also assessed at 6 and 24 hr after the last treatment. The hepatotoxicity was evaluated by serum enzymes, alanine and aspartate aminotransferases, and histopathological alterations of the liver. Biliary excretion of intravenously administered phenolphthalein glucuronide (PG) was assessed in bile duct cannulated anesthetized rats. Only the highest dose of colchicine (2.5 mg/kg) resulted in detectable liver injury as revealed by elevations of serum transaminases. While the lowest dose of colchicine (0.1 mg/kg) did not influence bile secretion, the two higher doses caused a slight choleretic effect at 24 hr. The highest dose caused a transient inhibition of bile flow, but this effect was no longer evident at 6 hr. Biliary excretion of PG was inhibited significantly by colchicine within 6 hr after administration, an effect that was also persistent at 24 hr. Colchicine at a 1 mg/kg dose did not cause any adverse effect on hepatobiliary function. Therefore, for the interactive toxicity study with CCl4, 1 mg colchicine/kg was chosen as a moderate dose which did not cause any significant adverse effect on hepatobiliary function. Biliary excretion of PG was significantly lower in rats at 6 and 24 hr after the combination treatment with colchicine + CCl4 than in rats receiving either CCl4 or colchicine alone. In contrast, rats receiving CCl4 alone or colchicine + CCl4 showed a significant increase in cumulative bile flow at 6 hr, whereas, at 24 hr, the bile flow was increased significantly in rats receiving colchicine regardless of CCl4 treatment. The data suggest that colchicine pretreatment leads to significant inhibition of hepatobiliary excretion in CCl4 treated rats. Serum alanine transaminase and aspartate transaminase levels were elevated significantly after the colchicine + CCl4 combination, indicating hepatic injury.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of colchicine on hepatobiliary function in CCl4 treated rats. 176 17

Three and ten days after the administration of CCl4 (subcutaneously, once, 4 ml/kg of 50% oil solution) there were found a decrease of the rate of antipyrine elimination (intravenously, 50 mg/kg) from the blood plasma, an increase of the total bilirubin content, ALT activity and stimulation of lipid peroxidation processes. Cordiamine administration (subcutaneously, twice a day, 3 and 10 days) exerts the normalizing effect.
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PMID:[Diethylnicotinamid (cordiamine) stabilization of the liver hydroxylating function in rabbits with CCl4 poisoning]. 178 35

Various doses of carbon tetrachloride (0.625 mmol to 10 mmol CCl4/kg body weight) were administered to female Wistar rats. Liver damage after a single treatment was evaluated by serum aminotransferase levels and by the extent of necrotic areas in parenchyma. Liver regeneration was evaluated by 3H-thymidine incorporation into liver DNA and by the number of dividing hepatocytes. Mitotic index of hepatocytes rose in parallel with the specific activity of DNA and with the extent of necrosis. However, the activities of serum aminotransferase AST and ALT increased much more rapidly and did not correlate either with necrosis or with regeneration rate. Increased membrane permeability in morphologically intact cells, increased synthesis of the enzymes by the liver as well as the leakage from necrotic cells are discussed as possible causes of the high aminotransferase activities in serum.
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PMID:Relationship of liver damage and liver regeneration after carbon tetrachloride treatment in rats. 178 20

Acetone potentiation of haloalkane-induced liver injury is a well-known phenomenon. Acetone-treated rats challenged with a trichloroethylene-CCl4 mixture exhibit a more sever liver injury than that predicted by the addition of the single potentiating effects of each. The purpose of the present study was to determine if acetone exerted similar interactions with other haloalkane mixtures. The testing protocol used was designed and performed to allow categorization of interactions occurring among two or three agents. Rats were treated (p.o.) with corn oil or acetone (10.2 mmol/kg) and were administered (i.p.) 18 h later 1,1-dichloroethylene (0.6 mmol/kg), trichloroethylene (5.6 mmol/kg), tetrachloroethylene (19.6 mmol/kg), 1,1,1-trichloroethane (10.0 mmol/kg), 1,1,2-trichloroethane (1.1 mmol/kg), 1,1,2,2-tetrachloroethane (1.0 mmol/kg), CHCl3 (6.2 mmol/kg), CCl4 (1.0 mmol/kg), or a mixture of two haloalkanes (all 28 combinations were tested). Liver injury was assessed 24 h later using plasma alanine aminotransferase activity and a quantitative histological evaluation. In corn oil pretreated rats, the hepatotoxic responses observed for the 28 mixtures were additive for 26 of 28 mixtures and supra-additive for 2 of 28, whereas in acetone-pretreated rats the responses observed were additive for 17 of 28, infra-additive for 10 of 28, and supra-additive for 1 of 28. Mixtures containing 1,1,1-trichloroethane or tetrachloroethylene resulted only in no change in toxicity or infra-additivity. Increased toxic responses (additivity and supra-additivity) were observed with certain binary mixtures containing CCl4, CHCl3, 1,1,2-trichloroethane, or 1,1-dichloroethylene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of acetone on the severity of the liver injury induced by haloalkane mixtures. 180 61

We have clearly shown by primary culture of hepatocytes that a promoting factor for proliferation of parenchymal hepatocytes appeared in the portal blood of rats which received 70% partial hepatectomy, and that such a liver-regenerating factor exists not only in murine small-intestinal mucosa, but also in bovine intestinal mucosa at all times. We also observed that in hepatopathy induced in rats by chemical agents such as CCl4 and D-galactosamine, intraperitoneal injection of the bovine small-intestine mucosal extract containing this factor suppressed the increases of GOT, GPT and other enzyme activities in the rats' serum and modified the hepatopathy. These results indicate that the in-vitro effects of these factors on hepatocyte cultures reflect those found in vivo on hepatopathy.
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PMID:Effects of small-intestinal factors on hepatocyte development and modification of chemical agent-induced hepatopathy in rat. 182 14

The immunotoxicity, hepatotoxicity, and nephrotoxicity of subacute exposure to carbon tetrachloride (CCl4) were evaluated in young adult (8-9 weeks old) male Fischer 344 rats dosed by gavage with CCl4 for 10 consecutive days at 0, 5, 10, 20 or 40 mg/kg/day. Two days following the last treatment rats were evaluated for alterations in immune function by monitoring the following: body and lymphoid organ weights; mitogen and mixed leukocyte reaction lymphoproliferative responses; natural killer cell activity; and cytotoxic T lymphocyte responses. A separate group of similarly dosed rats was immunized with sheep red blood cells (SRBC) on Day 9 of dosing, and the primary antibody response was assessed 4 days later. Hepatic and renal toxicity were assessed 2 days after the last treatment by monitoring organ weights, serum indicators of hepatic and renal damage, and hepatic cytochrome P450 levels, as well as by histological evaluation. Significant increases in relative liver weights were observed in rats dosed at 40 mg/kg/day. Histologically, these livers displayed mild to moderate vacuolar degeneration and minimal to mild hepatocellular necrosis. In addition, serum levels of aspartate aminotransferase and alanine aminotransferase were elevated at this dosage, as well as at 20 mg/kg/day. There were no renal effects observed at these dosages of CCl4. In addition, no consistent alterations were observed in the immune parameters examined in these same animals nor in the rats immunized with SRBC. Furthermore, there was no difference in the antibody response to SRBC in another set of rats dosed at 40, 80 or 160 mg/kg/day CCl4. These results indicate that CCl4 is not immunotoxic in the rat at dosages that produce overt hepatotoxicity.
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PMID:Immunotoxicologic assessment of subacute exposure of rats to carbon tetrachloride with comparison to hepatotoxicity and nephrotoxicity. 183 55


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