Adopting duplex sequencing technology for genetic toxicity testing: A proof-of-concept mutagenesis experiment with N-ethyl-N-nitrosourea (ENU)-exposed rats

IF 2.3 4区医学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Mutation research. Genetic toxicology and environmental mutagenesis Pub Date : 2023-10-01 DOI:10.1016/j.mrgentox.2023.503669

Stephanie L. Smith-Roe , Cheryl A. Hobbs , Victoria Hull , J. Todd Auman , Leslie Recio , Michael A. Streicker , Miriam V. Rivas , Gabriel A. Pratt , Fang Yin Lo , Jacob E. Higgins , Elizabeth K. Schmidt , Lindsey N. Williams , Daniela Nachmanson , Charles C. Valentine III , Jesse J. Salk , Kristine L. Witt

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引用次数: 0

Abstract

Duplex sequencing (DS) is an error-corrected next-generation sequencing method in which molecular barcodes informatically link PCR-copies back to their source DNA strands, enabling computational removal of errors in consensus sequences. The resulting background of less than one artifactual mutation per 10⁷ nucleotides allows for direct detection of somatic mutations. TwinStrand Biosciences, Inc. has developed a DS-based mutagenesis assay to sample the rat genome, which can be applied to genetic toxicity testing. To evaluate this assay for early detection of mutagenesis, a time-course study was conducted using male Hsd:Sprague Dawley SD rats (3 per group) administered a single dose of 40 mg/kg N-ethyl-N-nitrosourea (ENU) via gavage, with mutation frequency (MF) and spectrum analyzed in stomach, bone marrow, blood, and liver tissues at 3 h, 24 h, 7 d, and 28 d post-exposure. Significant increases in MF were observed in ENU-exposed rats as early as 24 h for stomach (site of contact) and bone marrow (a highly proliferative tissue) and at 7 d for liver and blood. The canonical, mutational signature of ENU was established by 7 d post-exposure in all four tissues. Interlaboratory analysis of a subset of samples from different tissues and time points demonstrated remarkable reproducibility for both MF and spectrum. These results demonstrate that MF and spectrum can be evaluated successfully by directly sequencing targeted regions of DNA obtained from various tissues⁠, a considerable advancement compared to currently used in vivo gene mutation assays.

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采用双链测序技术进行遗传毒性试验：对N-乙基-N-亚硝基脲（ENU）暴露大鼠进行概念验证诱变实验。

双链测序（DS）是一种纠错的下一代测序方法，分子条形码将PCR拷贝信息连接回其源DNA链，从而能够计算消除一致序列中的错误。每107个核苷酸少于一个人工突变的结果背景允许直接检测体细胞突变。TwinStrand Biosciences，股份有限公司开发了一种基于DS的突变测定法来对大鼠基因组进行采样，该方法可用于遗传毒性测试。为了评估这种突变早期检测方法，使用雄性Hsd:Sprague-Dawley SD大鼠（每组3只）进行了一项时间过程研究，通过灌胃给药单剂量40mg/kg N-乙基-N-亚硝基脲（ENU），在暴露后3小时、24小时、7天和28天对胃、骨髓、血液和肝组织中的突变频率（MF）和光谱进行分析。在ENU暴露的大鼠中，胃（接触部位）和骨髓（一种高度增殖的组织）早在24小时就观察到MF的显著增加，肝脏和血液早在7天就观察到。ENU的典型突变特征是在暴露后7天在所有四种组织中建立的。来自不同组织和时间点的样本子集的实验室间分析证明了MF和光谱的显著再现性。这些结果表明，通过直接测序从各种组织中获得的DNA的靶向区域，可以成功地评估MF和光谱⁠, 与目前使用的体内基因突变测定相比，这是一个相当大的进步。

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来源期刊

Mutation research. Genetic toxicology and environmental mutagenesis 生物-毒理学

CiteScore

3.80

自引率

5.30%

发文量

审稿时长

105 days

期刊介绍： Mutation Research - Genetic Toxicology and Environmental Mutagenesis (MRGTEM) publishes papers advancing knowledge in the field of genetic toxicology. Papers are welcomed in the following areas: New developments in genotoxicity testing of chemical agents (e.g. improvements in methodology of assay systems and interpretation of results). Alternatives to and refinement of the use of animals in genotoxicity testing. Nano-genotoxicology, the study of genotoxicity hazards and risks related to novel man-made nanomaterials. Studies of epigenetic changes in relation to genotoxic effects. The use of structure-activity relationships in predicting genotoxic effects. The isolation and chemical characterization of novel environmental mutagens. The measurement of genotoxic effects in human populations, when accompanied by quantitative measurements of environmental or occupational exposures. The application of novel technologies for assessing the hazard and risks associated with genotoxic substances (e.g. OMICS or other high-throughput approaches to genotoxicity testing). MRGTEM is now accepting submissions for a new section of the journal: Current Topics in Genotoxicity Testing, that will be dedicated to the discussion of current issues relating to design, interpretation and strategic use of genotoxicity tests. This section is envisaged to include discussions relating to the development of new international testing guidelines, but also to wider topics in the field. The evaluation of contrasting or opposing viewpoints is welcomed as long as the presentation is in accordance with the journal''s aims, scope, and policies.