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Strain and interindividual differences in lamotrigine‐induced liver injury in mice
Author(s) -
Akai Sho,
Oda Shingo,
Yokoi Tsuyoshi
Publication year - 2019
Publication title -
journal of applied toxicology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.784
H-Index - 87
eISSN - 1099-1263
pISSN - 0260-437X
DOI - 10.1002/jat.3736
Subject(s) - liver injury , glutathione , pharmacology , metabolite , oxidative stress , buthionine sulfoximine , medicine , acetaminophen , alanine transaminase , chemistry , biochemistry , enzyme
Lamotrigine (LTG) has been widely prescribed as an antipsychotic drug, although it causes idiosyncratic drug‐induced liver injury in humans. LTG is mainly metabolized by UDP‐glucuronosyltransferase, while LTG undergoes bioactivation by cytochrome P450 to a reactive metabolite; it is subsequently conjugated with glutathione, suggesting that reactive metabolite would be one of the causes for LTG‐induced liver injury. However, there is little information regarding the mechanism of LTG‐induced liver injury in both humans and rodents. In this study, we established an LTG‐induced liver injury mouse model through co‐administration with LTG and a glutathione synthesis inhibitor, l ‐buthionine‐( S , R )‐sulfoximine. We found an increase in alanine aminotransferase (ALT) levels (>10 000 U/L) in C57BL/6J mice, with apparent interindividual differences. On the other hand, a drastic increase in ALT was not noted in BALB/c mice, suggesting that the initiation mechanism would be different between the two strains. To examine the cause of interindividual differences, C57BL/6J mice that were co‐administered LTG and l ‐buthionine‐( S , R )‐sulfoximine were categorized into three groups based on ALT values: no‐responder (ALT <100 U/L), low‐responder (100 U/L < ALT < 1000 U/L) and high‐responder (ALT >1000 U/L). In the high‐responder group, induction of hepatic oxidative stress, inflammation and damage‐associated molecular pattern molecules in mRNA was associated with vacuolation and karyorrhexis in hepatocytes. In conclusion, we demonstrated that LTG showed apparent strain and interindividual differences in liver injuries from the aspects of initiation and exacerbation mechanisms. These results would support interpretation of the mechanism of LTG‐induced liver injury observed in humans.

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