Protein Information

ID 450
Name demethylase
Synonyms DMTase; Demethylase; MBD 2; MBD2; Methyl CpG binding domain protein 2; Methyl CpG binding protein MBD2; NY CO 41; Demethylases…

Compound Information

ID 1392
Name carbon tetrachloride
CAS tetrachloromethane

Reference

PubMed Abstract RScore(About this table)
16445600 Yim HK, Jung YS, Kim SY, Kim YC: Contrasting changes in phase I and phase II metabolism of acetaminophen in male mice pretreated with carbon tetrachloride. Basic Clin Pharmacol Toxicol. 2006 Feb;98(2):225-30.
Effect of carbon tetrachloride (CCl (4)) pretreatment on the biotransformation and elimination of acetaminophen were examined in male mice. A 24 hr initial dose of CCl (4) (0.05 ml/kg, intraperitioneally) reduced the induction of hepatotoxicity resulting from acetaminophen treatment (350 mg/kg, intraperitoneally) as determined by changes in serum alanine and aspartate aminotransferase, and sorbitol dehydrogenase activities. Acetaminophen and the major metabolites in plasma were monitored for 12 hr following acetaminophen treatment. CCl (4) pretreatment decreased the plasma concentrations of acetaminophen-cysteine and acetaminophen-mercapturate, but acetaminophen-glucuronide and acetaminophen-sulfate were increased significantly. The elimination of the parent drug from plasma was not affected by CCl (4). In urine collected for 24 hr, the concentrations of acetaminophen-sulfate and acetaminophen-glucuronide were increased by 84% and 33%, respectively, whilst acetaminophen-cysteine and acetaminophen-mercapturate were reduced to approximately one third of control. Expression of cytochrome P450 (CYP) isozymes was determined using antibodies of 2E1 and 1A2 as probes. CYP2E1 and 1A2 expressions were decreased significantly by CCl (4). Likewise, CCl (4) treatment reduced the microsomal p-nitrophenol hydroxylase and p-nitroanisole O-demethylase activities to less than one third of control. The results indicate that, although CCl (4) reduces the generation of thioether conjugates of acetaminophen by decreasing the CYP activities, inhibition of the oxidative metabolism of acetaminophen is counterbalanced by the enhancement of conjugate formation via the glucuronide and sulfate pathways, resulting in elimination of the drug at a rate equivalent to that in normal mice. It is suggested that liver injury in patients may not warrant a mandatory reduction of drug doses extensively inactivated via phase II reactions.
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