突变
微核
DNA损伤
化学
微核试验
致癌物
分子生物学
细胞培养
彗星试验
突变
细胞
DNA修复
DNA
亚硝胺
诱变剂
细胞毒性
生物化学
遗传毒性
球体
生物
突变频率
细胞存活
活力测定
作者
J.H. Seo,Hannah S Xu,Javier R. Revollo,Jaime A. Miranda,Aisar Atrakchi,Timothy J. McGovern,Karen L Davis Bruno,David A Keire,Robert H Heflich,Xiaoqing Guo
出处
期刊:Mutagenesis
[Oxford University Press]
日期:2026-02-22
被引量:1
标识
DOI:10.1093/mutage/geag012
摘要
Nitrosamine drug substance-related impurities (NDSRIs) have raised significant concern among the pharmaceutical industry and regulatory agencies, prompting a need to establish methods to determine the mutagenic risks associated with these substances. As human, metabolically competent HepaRG cells previously showed promise in evaluating the mutagenicity of a small-molecule nitrosamine impurity, N-nitroso-dimethylamine, this study evaluated the suitability of HepaRG cells for mutagenesis assessment of NDSRIs. HepaRG cells, cultured in both two-dimensional (2D) and three-dimensional (3D) spheroid formats, were exposed to N-nitroso-fluoxetine and N-nitroso-varenicline for either 3 days or 14 days. DNA damage was evaluated using the comet assay, clastogenicity/aneugenicity was measured with the micronucleus assay, and mutagenesis was assessed using High-Fidelity sequencing (HiFi-seq). N-Nitroso-fluoxetine and N-nitroso-varenicline were cytotoxic, produced DNA damage, and increased mutation frequency in both 2D and 3D HepaRG models. Both compounds increased micronucleus formation only at the highest concentration in 3D spheroids after the 14-day exposure. Benchmark concentration (BMC) analysis indicated that, despite overlapping confidence intervals between 3D and 2D HepaRG cultures in most instances, BMC values tended to be lower in 3D than in 2D cultures after both 3-day and 14-day treatments. In addition, the 14-day treatments of both 2D and 3D HepaRG cultures with N-nitroso-fluoxetine resulted in higher levels of mutagenesis than the 3-day treatments, while 3-day and 14-day treatments with N-nitroso-varenicline produced similar mutagenesis responses. These findings demonstrate the feasibility of employing HepaRG cells with HiFi-seq as a mammalian cell assay for assessing NDSRI mutagenesis.
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