Department of Genetics, Case Western Reserve University School of Medicine, Cleveland, OH 44106, USA.
Proc Natl Acad Sci U S A. 2012 Oct 9;109(41):E2766-73. doi: 10.1073/pnas.1207169109. Epub 2012 Aug 24.
Environmental agents and genetic variants can induce heritable epigenetic changes that affect phenotypic variation and disease risk in many species. These transgenerational effects challenge conventional understanding about the modes and mechanisms of inheritance, but their molecular basis is poorly understood. The Deadend1 (Dnd1) gene enhances susceptibility to testicular germ cell tumors (TGCTs) in mice, in part by interacting epigenetically with other TGCT modifier genes in previous generations. Sequence homology to A1cf, the RNA-binding subunit of the ApoB editing complex, raises the possibility that the function of Dnd1 is related to Apobec1 activity as a cytidine deaminase. We conducted a series of experiments with a genetically engineered deficiency of Apobec1 on the TGCT-susceptible 129/Sv inbred background to determine whether dosage of Apobec1 modifies susceptibility, either alone or in combination with Dnd1, and either in a conventional or a transgenerational manner. In the paternal germ-lineage, Apobec1 deficiency significantly increased susceptibility among heterozygous but not wild-type male offspring, without subsequent transgenerational effects, showing that increased TGCT risk resulting from partial loss of Apobec1 function is inherited in a conventional manner. By contrast, partial deficiency in the maternal germ-lineage led to suppression of TGCTs in both partially and fully deficient males and significantly reduced TGCT risk in a transgenerational manner among wild-type offspring. These heritable epigenetic changes persisted for multiple generations and were fully reversed after consecutive crosses through the alternative germ-lineage. These results suggest that Apobec1 plays a central role in controlling TGCT susceptibility in both a conventional and a transgenerational manner.
环境因子和遗传变异可诱导遗传性表观遗传变化,从而影响许多物种的表型变异和疾病风险。这些跨代效应挑战了关于遗传模式和机制的传统认识,但它们的分子基础还知之甚少。Deadend1(Dnd1)基因通过在前几代与其他睾丸生殖细胞肿瘤(TGCT)修饰基因的表观遗传相互作用,增强了小鼠对 TGCT 的易感性。与 ApoB 编辑复合物的 RNA 结合亚基 A1cf 的序列同源性提出了这样一种可能性,即 Dnd1 的功能与 Apobec1 作为胞嘧啶脱氨酶的活性有关。我们在易患 TGCT 的 129/Sv 近交系背景下进行了一系列缺乏 Apobec1 的基因工程实验,以确定 Apobec1 的剂量是否单独或与 Dnd1 一起、以常规或跨代方式改变易感性。在父系生殖系中,Apobec1 缺乏显著增加了杂合子而非野生型雄性后代的易感性,但没有随后的跨代效应,表明部分丧失 Apobec1 功能导致的 TGCT 风险增加是通过常规方式遗传的。相比之下,母系生殖系的部分缺陷导致部分和完全缺陷的雄性 TGCT 均受到抑制,并以跨代方式显著降低野生型后代的 TGCT 风险。这些可遗传的表观遗传变化持续多代,并在通过替代生殖系连续杂交后完全逆转。这些结果表明,Apobec1 在常规和跨代方式中都在控制 TGCT 易感性方面发挥着核心作用。