UNIPROT:P17174 - FACTA Search

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Query: UNIPROT:P17174 (aspartate aminotransferase)
14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acetaminophen (APAP)-induced cytotoxicity and metabolism were studied in hepatocyte cultures isolated from the rat, rabbit, dog, and monkey. Cytotoxicity was evaluated by morphological examination and by alanine aminotransferase and aspartate aminotransferase released into the cell culture medium. The toxicity results obtained by these two methods were in agreement and can be explained by the biotransformation of APAP in each species. Rat and dog hepatocyte cultures contained the most APAP-sulfate conjugates, while the rabbit, dog, and monkey hepatocyte cultures contained the most APAP-glucuronide conjugates. The percentage of APAP-glutathione conjugate was very low in all species, indicating that either very little of the toxic APAP metabolite, N-acetylbenzoquinoneimine, was formed, or in the species susceptible to N-acetylbenzoquinoneimine-induced cytotoxicity, the glutathione S-transferase activity or the amount of glutathione was low. Rabbit hepatocytes transformed the most APAP during both short and long periods of exposure. Of the four species, the dog hepatocytes exhibited the highest level of APAP-induced cytotoxicity. The sensitivity of dog hepatocytes to APAP may be due to their low conjugating enzyme activity. Rat hepatocytes utilized all three pathways of APAP-biotransformation to prevent APAP-induced cytotoxicity. Monkey hepatocyte cultures had a very large capacity to transform APAP to a glucuronide conjugate and a very high level of glutathione S-transferase activity, and therefore did not exhibit any cytotoxicity. These studies indicate that the competing pathways of APAP conjugation in hepatocyte cultures from different species explain the differences observed in APAP-induced cytotoxicity.
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PMID:Metabolism and cytotoxicity of acetaminophen in hepatocyte cultures from rat, rabbit, dog, and monkey. 198 16

We studied the interaction between paracetamol (acetaminophen U.S.P.) and enflurane. Sixteen rats were assigned to four groups (n = 4) to receive: paracetamol 7.5 mg/100 g body weight; paracetamol plus 1% enflurane; 1% enflurane alone, or no treatment (controls). Animals were killed 6 h later. A second series of 16 were treated identically, but were killed after 24 h. Measurements were made of fluoride concentrations in serum, liver and urine (indicators of biotransformation of enflurane), paracetamol concentrations in urine, pathological changes in liver samples, and concentrations of the enzymes aspartate aminotransferase (AST) and alanine aminotransferase (ALT) in serum. Pretreatment with paracetamol significantly decreased urinary fluoride at 6 and 24 h after exposure to enflurane, but decreased fluoride concentrations in serum and liver only at 6 h after exposure to enflurane. Paracetamol concentrations in urine did not change after exposure to enflurane. Exposure to paracetamol alone increased AST and ALT. At 24 h after exposure to enflurane, serum concentrations of enzymes in rats pretreated with paracetamol were similar to those of control rats. Pretreatment with paracetamol may therefore inhibit metabolism of enflurane. Although no hepatic damage was observed, the increased in AST and ALT suggested subclinical liver damage in rats given only paracetamol.
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PMID:Pretreatment with paracetamol inhibits metabolism of enflurane in rats. 270 80

Plasma lactate concentrations and acid-base status were determined in 53 patients poisoned with paracetamol. Eleven patients (Group 1) had plasma paracetamol concentrations below the standard treatment decision line; 19 cases (Group 2) presenting within 15 h of overdose had plasma paracetamol concentrations above the treatment line and received N-acetylcysteine. The remaining 23 patients (Group 3) arrived at hospital too late (more than 15 h after overdose) for treatment with N-acetylcysteine to be completely effective. Compensated metabolic acidosis was present on admission in 55 per cent of Group 1 and 42 per cent of Group 2 patients, and a further 21 per cent of cases in Group 2 had an uncompensated metabolic acidosis. Half the patients in Group 3 were acidotic: 22 per cent had a compensated and 26 per cent an uncompensated metabolic acidosis. On admission, the mean plasma lactate concentration was elevated in both Group 2 and Group 3 patients though not in Group 1 cases. Plasma lactate concentration then fell to normal in patients in Group 2 but became mildly elevated again in some cases at a time which coincided closely with the peak in serum aspartate aminotransferase activity. In patients presenting within 15 h of overdose there was a significant correlation between the elevation in plasma concentrations of lactate and paracetamol at admission. In patients presenting late (Group 3), plasma lactate remained elevated for longer than in Group 2 and acidosis and hyperlactataemia were prominent features in the four patients who died. This study demonstrates first that hyperlactataemia, with or without significant acid-base disturbance, is common following paracetamol overdose particularly in those who are severely poisoned. As uncompensated metabolic acidosis is found in 20 per cent of patients who present early and require protective therapy, it should be sought and corrected if it does not remit spontaneously. Second, half the patients presenting too late for effective treatment are acidotic and those with an uncompensated metabolic acidosis resistant to correction have a poor prognosis. Paracetamol poisoning should be considered in the differential diagnosis of metabolic acidosis of unknown aetiology.
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PMID:Hyperlactataemia and metabolic acidosis following paracetamol overdose. 344 87

Of the 44 commonly prescribed drugs listed only ascorbic acid, at the upper end of its therapeutic range, significantly affected any (glucose, uric acid) of the twenty-three more frequently requested tests measured in the clinical chemistry laboratory. Acetaminophen, acetylsalicylic acid, ascorbic acid, nitrofurantoin, methyldopa and tetracycline at five times the upper end of their therapeutic ranges individually produced consistently significant effects on one or more of the following tests: glucose, bilirubin, carbon dioxide, calcium, cholesterol, uric acid and aspartate aminotransferase. When drugs are added to lyophilized human serum and to fresh human serum in similar concentrations, their effects on clinical chemistry tests performed on these two different sera are not always the same.
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PMID:Effect of some commonly prescribed drugs on certain chemistry tests. 678 47

J.M., a healthy, 25-year-old male, volunteered for a study involving warfarin and acetaminophen. Acetaminophen 1 g four times a day was started for 21 days. Liver function tests taken at regular intervals for the first 12 days were unremarkable. On day 18, however, aspartate aminotransferase (AST) was 527 IU/liter and alanine aminotransferase (ALT) was 166 IU/liter. Acetaminophen was discontinued and serum transaminase levels returned to baseline levels two weeks later (AST = 26, ALT = 20). Analysis of J.M.'s urine samples over the first 18 days showed excretion patterns of glucuronide, sulfate, and glutathione derived cysteine and mercapturic acid conjugates were similar to the other subjects in the study. Acetaminophen causes hepatotoxicity in overdose or malnourished or alcoholic patients, none of which applied to our subject. Differences in metabolic activation and capacity for glutathione synthesis can predispose individuals given therapeutic doses of acetaminophen to adverse effects. Failure to detoxify a highly reactive metabolite, formed by P-450 metabolism, via glutathione conjugation is responsible for the development of acute hepatic necrosis. Accumulation of the toxic metabolite due to depleted glutathione stores may have occurred with prolonged high dosing in our subject and been responsible for his abnormal rise in liver enzymes.
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PMID:Abnormal serum transaminases following therapeutic doses of acetaminophen in the absence of known risk factors. 755 49

The hepatoprotective activity of the aqueous-methanolic extract of Artemisia maritima was investigated against acetaminophen (paracetamol, 4-hydroxy acetanilide)- and carbon tetrachloride (CCl4)-induced hepatic damage. Acetaminophen produced 100% mortality at the dose of 1 g/kg in mice, while pretreatment of animals with the plant extract (500 mg/kg) reduced the death rate to 20%. Acetaminophen at the dose of 640 mg/kg produced liver damage in rats as manifested by the significant (P < 0.001) rise in serum levels of glutamate oxaloacetate transaminase (GOT) and glutamate pyruvate transaminase (GPT) to 1529 +/- 172 I.U./l and 904 +/- 116 I.U./l (n = 10), respectively, compared to respective control values of 87 +/- 12 I.U./l and 31 +/- 5 I.U./l. Pretreatment of rats with the plant extract (500 mg/kg) lowered significantly (P < 0.001) the respective serum GOT and GPT levels to 112 +/- 10 I.U./l and 47 +/- 11 I.U./l. Similarly, a hepatotoxic dose of CCl4 (1.5 ml/kg, orally) raised significantly (P < 0.01) the serum GOT and GPT levels to 463 +/- 122 I.U./l and 366 +/- 58 I.U./l (n = 10), respectively, compared to respective control values of 92 +/- 18 I.U./l and 35 +/- 9 I.U./l. The same dose of plant extract (500 mg/kg) was able to prevent significantly (P < 0.01) the CCl4-induced rise in serum transaminases and the estimated values of GOT and GPT were 105 +/- 29 I.U./l and 53 +/- 17 I.U./l, respectively. Moreover, it prevented CCl4-induced prolongation in pentobarbital sleeping time confirming hepatoprotectivity and validates the traditional use of this plant against liver damage.
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PMID:Evaluation of the protective potential of Artemisia maritima extract on acetaminophen- and CCl4-induced liver damage. 756 20

1. Hepatoprotective activity of an ethanolic extract of Teucrium stocksianum was investigated against paracetamol-induced hepatic damage in mice. 2. Paracetamol at an oral dose of 0.6 g/kg produced about 94% mortality in mice while pretreatment with the plant extract (0.5 and 1 g/kg for 5 days) reduced the death rate to 0%. 3. Paracetamol (0.6 g/kg, orally) produced liver damage as manifested by significant rises in liver weight, plasma aspartate aminotransferase (AST) activity and bilirubin concentration, pentobarbitone-induced sleeping time, and by the significant depletion of reduced glutathione (GSH) in the liver. 4. Pretreatment of mice with T. stocksianum at the above doses significantly ameliorated all the paracetamol-induced signs of liver damage described above. 5. T. stocksianum did not produce any lethality or adverse effects in the livers of treated mice. 6. These results indicate that T. stocksianum ethanolic extract contains hepatoprotective constituents, and suggest further work on the isolation and characterization of these constituents which may potentially be used as hepatoprotective agents.
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PMID:Effect of Teucrium stocksianum on paracetamol-induced hepatotoxicity in mice. 759 77

Hepatic injury in alcoholics due to intake of acetaminophen (APAP or acetylparaaminophenol) with therapeutic intent has been reported, but the extent of the phenomenon is not clear, pertinent details of the association remain insufficiently clarified, and the importance of the phenomenon is not widely appreciated. The present report describes 67 patients who developed hepatic injury after ingestion of APAP with therapeutic intent. All were regular users of alcohol. Sixty-four percent of the patients were considered to be "alcoholic" or reported intakes greater than 80 g/d, 35% took 60 g/d or less, and the remainder were vague in their reporting. Doses of APAP were in the "nontoxic" range ( < 6 g/d) in 60% of the group, within the recommended range ( < 4 g/d) in 40%, and at 4.1 to 6 g/d in 20%. Characteristic feature was the towering level reached by aspartate transaminase (AST) with figures ranging from 3,000 to 48,000 IU in more than 90% of cases. Almost 20% of the patients died. The data on these patients were similar to 94 cases of injury from APAP taken with therapeutic intent reported in the literature. This study provides further evidence of hepatic injury in regular uses of alcohol, especially chronic alcoholics, who take APAP with therapeutic intent. Susceptibility is presumably caused by induction of cytochrome P-4502EI by ethanol and by depletion of glutathione (GSH) because of the effects of alcohol, the malnutrition often associated with alcoholism, and the depletion associated with chronic use of APAP and impaired glucuronidation caused by fasting perhaps as well. The syndrome of liver injury is distinctive, marked by uniquely elevated levels of AST, and poses a significant threat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acetaminophen (paracetamol) hepatotoxicity with regular intake of alcohol: analysis of instances of therapeutic misadventure. 765 81

1. The hepatoprotective activity of aqueous-methanolic extract of Cyperus scariosus (Cyperaceae) was investigated against acetaminophen and CCl4-induced hepatic damage. 2. Acetaminophen produced 100% mortality at a dose of 1 g/kg in mice while pretreatment of animals with plant extract (500 mg/kg) reduced the death rate to 30%. 3. Acetaminophen at a dose of 640 mg/kg produced liver damage in rats as manifested by the rise in serum levels of alkaline phosphatase (ALP), glutamate oxaloacetate transaminase (GOT) and glutamate pyruvate transaminase (GPT) to 430 +/- 68, 867 +/- 305 and 732 +/- 212 IU/l (n = 10) respectively, compared to respective control values of 202 +/- 36, 59 +/- 14 and 38 +/- 7. 4. Pretreatment of rats with plant extract (500 mg/kg) significantly lowered (P < 0.05) the respective serum ALP; GOT and GPT levels to 192 +/- 31, 63 +/- 9 and 35 +/- 8. 5. The hepatotoxic dose of CCl4 (1.5 ml/kg; orally) raised serum ALP, GOT and GPT levels to 328 +/- 30, 493 +/- 102 and 357 +/- 109 IU/l (n = 10) respectively, compared to respective control values of 177 +/- 21, 106 +/- 15 and 47 +/- 12. 6. The same dose of plant extract (500 mg/kg) was able to significantly prevent (P < 0.05) CCl4-induced rise in serum enzymes and the estimated values of ALP, GOT and GPT were 220 +/- 30, 207 +/- 95 and 75 +/- 38, respectively. 7. The plant extract also prevented CCl4-induced prolongation in pentobarbital sleeping time confirming hepatoprotectivity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies on protective effect of Cyperus scariosus extract on acetaminophen and CCl4-induced hepatotoxicity. 778 38

Acetaminophen (APAP) is a widely used analgesic and antipyretic drug that causes massive centrilobular hepatic necrosis at high doses, leading to death. The objectives of this study were to test our working hypothesis that preplaced cell division and hepatic tissue repair by prior thioacetamide (TA) administration provides protection against APAP-induced lethality and to investigate the underlying mechanism. Male Sprague-Dawley rats were treated with a low dose of TA (50 mg/kg, intraperitoneally [i.p.]) before challenge with a 90% lethal dose (1,800 mg/kg, i.p.) of APAP. This protocol resulted in a 100% protection against the lethal effect of APAP. Because TA caused a 23% decrease of hepatic microsomal cytochromes P-450, the possibility that TA protection may be caused by decreased bioactivation of APAP was examined. A 30% decrease in cytochromes P-450 induced by cobalt chloride failed to provide protection against APAP lethality. Time course of serum enzyme elevations (alanine aminotransferase, aspartate aminotransferase, and sorbitol dehydrogenase) indicated that actual infliction of liver injury by APAP peaked between 12 to 24 hours after the administration of APAP, whereas the ultimate outcome of that injury depended on the biological events thereafter. Although liver injury progressed in rats receiving only APAP, it regressed in rats pretreated with TA. Acetaminophen t1/2 was not altered in TA-treated rats, indicating that significant changes in APAP disposition and bioactivation are unlikely. Moreover, hepatic glutathione was decreased to a similar extent regardless of TA pretreatment, suggesting that decreased bioactivation of APAP is unlikely to be the mechanism underlying TA protection. [3H]Thymidine incorporation studies confirmed the expected stimulation of S-phase synthesis, and proliferating cell nuclear antigen studies showed a corresponding stimulation of cell division through accelerated cell cycle progression. Intervention with TA-induced cell division by colchicine antimitosis ended the TA protection in the absence of significant changes in the time course of serum enzyme elevations during the inflictive phase of APAP hepatotoxicity. These studies suggest that hepatocyte division and tissue repair induced by TA facilitate sustained hepatic tissue repair after subsequent APAP-induced liver injury, producing recovery from liver injury and protection against APAP lethality.
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PMID:Stimulated hepatic tissue repair underlies heteroprotection by thioacetamide against acetaminophen-induced lethality. 784 22

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