碱基编辑介导的 Dnmt 基因家族一步失活揭示了 DNA 甲基化在小鼠原肠胚形成过程中的关键作用。

Base editing-mediated one-step inactivation of the Dnmt gene family reveals critical roles of DNA methylation during mouse gastrulation.

机构信息

State Key Laboratory of Cell Biology, Shanghai Key Laboratory of Molecular Andrology, Shanghai Institute of Biochemistry and Cell Biology, Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai, China.

School of Life Sciences, Biomedical Pioneering Innovation Center, Beijing Advanced Innovation Center for Genomics, Peking University, Beijing, China.

出版信息

Nat Commun. 2023 May 22;14(1):2922. doi: 10.1038/s41467-023-38528-z.

DOI:10.1038/s41467-023-38528-z

PMID:37217538

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10203112/

Abstract

During embryo development, DNA methylation is established by DNMT3A/3B and subsequently maintained by DNMT1. While much research has been done in this field, the functional significance of DNA methylation in embryogenesis remains unknown. Here, we establish a system of simultaneous inactivation of multiple endogenous genes in zygotes through screening for base editors that can efficiently introduce a stop codon. Embryos with mutations in Dnmts and/or Tets can be generated in one step with IMGZ. Dnmt-null embryos display gastrulation failure at E7.5. Interestingly, although DNA methylation is absent, gastrulation-related pathways are down-regulated in Dnmt-null embryos. Moreover, DNMT1, DNMT3A, and DNMT3B are critical for gastrulation, and their functions are independent of TET proteins. Hypermethylation can be sustained by either DNMT1 or DNMT3A/3B at some promoters, which are related to the suppression of miRNAs. The introduction of a single mutant allele of six miRNAs and paternal IG-DMR partially restores primitive streak elongation in Dnmt-null embryos. Thus, our results unveil an epigenetic correlation between promoter methylation and suppression of miRNA expression for gastrulation and demonstrate that IMGZ can accelerate deciphering the functions of multiple genes in vivo.

摘要

在胚胎发育过程中，DNA 甲基化由 DNMT3A/3B 建立，随后由 DNMT1 维持。虽然在这一领域进行了大量研究，但 DNA 甲基化在胚胎发生中的功能意义仍不清楚。在这里，我们通过筛选能够有效引入终止密码子的碱基编辑器，建立了一种在受精卵中同时失活多个内源性基因的系统。通过 IMGZ 可以一步生成 Dnmts 和/或 Tets 突变的胚胎。Dnmt 缺失的胚胎在 E7.5 时表现出原肠胚形成失败。有趣的是，尽管 DNA 甲基化不存在，但 Dnmt 缺失的胚胎中与原肠胚形成相关的途径被下调。此外，DNMT1、DNMT3A 和 DNMT3B 对原肠胚形成至关重要，它们的功能独立于 TET 蛋白。一些启动子的甲基化可以由 DNMT1 或 DNMT3A/3B 维持，这与 miRNA 的抑制有关。在 Dnmt 缺失的胚胎中，引入六个 miRNA 和父系 IG-DMR 的单个突变等位基因部分恢复了原始条纹的伸长。因此，我们的结果揭示了启动子甲基化与 miRNA 表达抑制之间的表观遗传相关性，用于原肠胚形成，并证明了 IMGZ 可以加速体内多个基因功能的破译。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d33/10203112/efbc63342ff5/41467_2023_38528_Fig1_HTML.jpg

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碱基编辑介导的 Dnmt 基因家族一步失活揭示了 DNA 甲基化在小鼠原肠胚形成过程中的关键作用。

Base editing-mediated one-step inactivation of the Dnmt gene family reveals critical roles of DNA methylation during mouse gastrulation.

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