Takamasa Ito, Musashi Kubiura-Ichimaru, Fumihito Miura, Shoji Tajima, M. Azim Surani, Takashi Ito, Shinpei Yamaguchi, Masako Tada
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Dnmts-TKO ESCs showed loss of DNA methylation and de-repression of primitive endoderm-related genes, but these defects were partially restored in Dnmts-TKO + FL and Dnmts-TKO + 602 ESCs. Upon differentiation, Dnmts-TKO + FL ESCs show increased 5mC and 5hmC levels across chromosomes, including pericentromeric regions. In contrast, Dnmts-TKO + 602 ESCs didn't accumulate 5mC, and sister chromatids showed 5hmC asynchronously. Furthermore, in comparison with DNMT1_602, DNMT1_FL effectively promoted commitment to the epiblast-like cells and beyond, driving cell-autonomous mesendodermal and germline differentiation through embryoid body-based methods. 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In contrast, Dnmts-TKO + 602 ESCs didn't accumulate 5mC, and sister chromatids showed 5hmC asynchronously. Furthermore, in comparison with DNMT1_602, DNMT1_FL effectively promoted commitment to the epiblast-like cells and beyond, driving cell-autonomous mesendodermal and germline differentiation through embryoid body-based methods. 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引用次数: 0
摘要
DNA 甲基转移酶和十-十一转位(TET)蛋白调控着小鼠胚胎发育过程中的 DNA 甲基化和去甲基化循环。虽然 DNMT1 主要在 DNA 复制后维持 DNA 甲基化方面发挥作用,但也有报道称它具有从头开始的甲基转移酶能力。然而,它的生理意义仍不清楚。在这里,我们证明了全长DNMT1(FL)和缺乏其维持活性所必需的N端突变体(602)赋予了小鼠Dnmt1、Dnmt3a和Dnmt3b(Dnmts-TKO)胚胎干细胞(ESC)的分化潜能。FL和602都能抑制未分化状态下Dnmts-TKO胚胎干细胞的自发分化。Dnmts-TKO ESCs表现出DNA甲基化缺失和原始内胚层相关基因的去抑制,但这些缺陷在Dnmts-TKO + FL和Dnmts-TKO + 602 ESCs中得到部分恢复。在分化过程中,Dnmts-TKO + FL ESCs 显示染色体上的 5mC 和 5hmC 水平升高,包括近染色质区域。相比之下,Dnmts-TKO + 602 ESCs 没有积累 5mC,而且姐妹染色单体不同步显示 5hmC。此外,与DNMT1_602相比,DNMT1_FL能有效地促进上胚层类细胞及其他细胞的分化,通过基于胚状体的方法驱动细胞自主的中胚层和生殖细胞分化。DNMT1 的 N 端区域具有精确的靶向选择性,它可能在基因调控导致生殖系发育方面发挥作用。
DNMT1 can induce primary germ layer differentiation through de novo DNA methylation
DNA methyltransferases and Ten-Eleven Translocation (TET) proteins regulate the DNA methylation and demethylation cycles during mouse embryonic development. Although DNMT1 mainly plays a role in the maintenance of DNA methylation after DNA replication, it is also reported to possess de novo methyltransferase capacity. However, its physiological significance remains unclear. Here, we demonstrate that full-length DNMT1 (FL) and a mutant lacking the N-terminus necessary for its maintenance activity (602) confer the differentiation potential of mouse Dnmt1, Dnmt3a, and Dnmt3b (Dnmts-TKO) embryonic stem cells (ESCs). Both FL and 602 inhibit the spontaneous differentiation of Dnmts-TKO ESCs in the undifferentiated state. Dnmts-TKO ESCs showed loss of DNA methylation and de-repression of primitive endoderm-related genes, but these defects were partially restored in Dnmts-TKO + FL and Dnmts-TKO + 602 ESCs. Upon differentiation, Dnmts-TKO + FL ESCs show increased 5mC and 5hmC levels across chromosomes, including pericentromeric regions. In contrast, Dnmts-TKO + 602 ESCs didn't accumulate 5mC, and sister chromatids showed 5hmC asynchronously. Furthermore, in comparison with DNMT1_602, DNMT1_FL effectively promoted commitment to the epiblast-like cells and beyond, driving cell-autonomous mesendodermal and germline differentiation through embryoid body-based methods. With precise target selectivity achieved by its N-terminal region, DNMT1 may play a role in gene regulation leading to germline development.
期刊介绍:
Genes to Cells provides an international forum for the publication of papers describing important aspects of molecular and cellular biology. The journal aims to present papers that provide conceptual advance in the relevant field. Particular emphasis will be placed on work aimed at understanding the basic mechanisms underlying biological events.
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