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Synergistic toxicity with copper contributes to NAT2-associated isoniazid toxicityopen access

Authors
Yoon, Jihoon G.Jang, Dong GeonCho, Sung-GyuLee, ChaeyoungNoh, Shin HyeSeo, Soo KyungYu, Jung WooChung, Hyeon WooHan, KyeoReKwon, Soon SungHan, Dai HoonOh, JaeseongJang, In-JinKim, Sang-HoonJee, Young-KooLee, HyunPark, Dong WonSohn, Jang WonYoon, Ho JooKim, Chul HoonLee, Jae MyunKim, Sang-HeonLee, Min Goo
Issue Date
Mar-2024
Publisher
Springer Nature
Citation
Experimental & Molecular Medicine, v.56, no.3, pp 570 - 582
Pages
13
Indexed
SCIE
SCOPUS
KCI
Journal Title
Experimental & Molecular Medicine
Volume
56
Number
3
Start Page
570
End Page
582
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195228
DOI
10.1038/s12276-024-01172-8
ISSN
1226-3613
2092-6413
Abstract
Anti-tuberculosis (AT) medications, including isoniazid (INH), can cause drug-induced liver injury (DILI), but the underlying mechanism remains unclear. In this study, we aimed to identify genetic factors that may increase the susceptibility of individuals to AT-DILI and to examine genetic interactions that may lead to isoniazid (INH)-induced hepatotoxicity. We performed a targeted sequencing analysis of 380 pharmacogenes in a discovery cohort of 112 patients (35 AT-DILI patients and 77 controls) receiving AT treatment for active tuberculosis. Pharmacogenome-wide association analysis was also conducted using 1048 population controls (Korea1K). NAT2 and ATP7B genotypes were analyzed in a replication cohort of 165 patients (37 AT-DILI patients and 128 controls) to validate the effects of both risk genotypes. NAT2 ultraslow acetylators (UAs) were found to have a greater risk of AT-DILI than other genotypes (odds ratio [OR] 5.6 [95% confidence interval; 2.5–13.2], P = 7.2 × 10−6). The presence of ATP7B gene 832R/R homozygosity (rs1061472) was found to co-occur with NAT2 UA in AT-DILI patients (P = 0.017) and to amplify the risk in NAT2 UA (OR 32.5 [4.5–1423], P = 7.5 × 10−6). In vitro experiments using human liver-derived cell lines (HepG2 and SNU387 cells) revealed toxic synergism between INH and Cu, which were strongly augmented in cells with defective NAT2 and ATP7B activity, leading to increased mitochondrial reactive oxygen species generation, mitochondrial dysfunction, DNA damage, and apoptosis. These findings link the co-occurrence of ATP7B and NAT2 genotypes to the risk of INH-induced hepatotoxicity, providing novel mechanistic insight into individual AT-DILI susceptibility.
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