ENU诱导的雄性生殖细胞点突变频率与其后代遗传性生殖系突变频率的比较。
Comparison of the frequencies of ENU-induced point mutations in male germ cells and inherited germline mutations in their offspring.
作者信息
Masumura Kenichi, Ando Tomoko, Toyoda-Hokaiwado Naomi, Ukai Akiko, Nohmi Takehiko, Honma Masamitsu
机构信息
Division of Genetics and Mutagenesis, National Institute of Health Sciences, 3-25-26 Tonomachi, Kawasaki-ku, Kawasaki-shi, Kanagawa, 210-9501, Japan.
Division of Pathology, National Institute of Health Sciences, 3-25-26 Tonomachi, Kawasaki-ku, Kawasaki-shi, Kanagawa, 210-9501, Japan.
出版信息
Genes Environ. 2021 Oct 9;43(1):43. doi: 10.1186/s41021-021-00216-z.
BACKGROUND
Gene mutations induced in germ cells may be transmitted to the next generation and cause adverse effects such as genetic diseases. Certain mutations may result in infertility or death in early development. Thus, the mutations may not be inheritable. However, the extent to which point mutations in male germ cells are transmitted to the next generation or eliminated during transmission is largely unknown. This study compared mutation frequencies (MFs) in sperm of N-ethyl-N-nitrosourea (ENU)-treated gpt delta mice and de novo MFs in the whole exome/genome of their offspring.
RESULTS
Male gpt delta mice were treated with 10, 30, and 85 mg/kg of ENU (i.p., weekly × 2) and mated with untreated females to generate offspring. We previously reported a dose-dependent increase in de novo MFs in the offspring estimated by whole exome sequencing (WES) (Mutat. Res., 810, 30-39, 2016). In this study, gpt MFs in the sperm of ENU-treated mice were estimated, and the MFs per reporter gene were converted to MFs per base pair. The inherited de novo MFs in the offspring (9, 26 and 133 × 10/bp for 10, 30, and 85 mg/kg ENU-treated groups, respectively) were comparable to those of the converted gpt MFs in the sperm of ENU-treated fathers (6, 16, and 69 × 10/bp). It indicated that the gpt MFs in the ENU-treated father's sperm were comparable to the inherited de novo MFs in the offspring as estimated by WES. In addition, de novo MFs in the offspring of 10 mg/kg ENU-treated and control fathers were estimated by whole genome sequencing (WGS), because WES was not sufficiently sensitive to detect low background MF. The de novo MF in the offspring of the ENU-treated fathers was 6 × 10/bp and significantly higher than that of the control (2 × 10/bp). There were no significant differences in de novo MFs between gene-coding and non-coding regions. WGS analysis was able to detect ENU-induced characteristic de novo base substitutions at a low dose group.
CONCLUSIONS
Despite a difference between exome/genome and exogenous reporter genes, the results indicated that ENU-induced point mutations in male germ cells could be transmitted to the next generation without severe selection.
背景
生殖细胞中诱导产生的基因突变可能会传递给下一代,并导致诸如遗传疾病等不良影响。某些突变可能导致不育或早期发育死亡。因此,这些突变可能无法遗传。然而,雄性生殖细胞中的点突变传递给下一代或在传递过程中被消除的程度在很大程度上尚不清楚。本研究比较了经N-乙基-N-亚硝基脲(ENU)处理的gpt delta小鼠精子中的突变频率(MFs)及其后代全外显子组/基因组中的新生MFs。
结果
雄性gpt delta小鼠分别用10、30和85mg/kg的ENU(腹腔注射,每周×2次)处理,并与未处理的雌性小鼠交配以产生后代。我们之前报道过,通过全外显子组测序(WES)估计,后代中的新生MFs呈剂量依赖性增加(《突变研究》,810,30 - 39,2016年)。在本研究中,对经ENU处理的小鼠精子中的gpt MFs进行了估计,并将每个报告基因的MFs转换为每碱基对的MFs。后代中的遗传新生MFs(10、30和85mg/kg ENU处理组分别为9、26和133×10⁻⁹/bp)与经ENU处理的父本精子中转换后的gpt MFs(6、16和69×10⁻⁹/bp)相当。这表明经ENU处理的父本精子中的gpt MFs与通过WES估计的后代中的遗传新生MFs相当。此外,由于WES检测低背景MF的灵敏度不足,因此通过全基因组测序(WGS)估计了10mg/kg ENU处理的父本和对照父本后代中的新生MFs。经ENU处理的父本后代中的新生MF为6×10⁻⁹/bp,显著高于对照组(2×10⁻⁹/bp)。基因编码区和非编码区之间的新生MFs没有显著差异。WGS分析能够在低剂量组检测到ENU诱导的特征性新生碱基替换。
结论
尽管外显子组/基因组与外源性报告基因存在差异,但结果表明ENU诱导的雄性生殖细胞点突变能够在没有严格筛选的情况下传递给下一代。
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