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Τρίτη 22 Αυγούστου 2017

Zscan4 Inhibits Maintenance DNA Methylation to Facilitate Telomere Elongation in Mouse Embryonic Stem Cells

Publication date: 22 August 2017
Source:Cell Reports, Volume 20, Issue 8
Author(s): Jiameng Dan, Philippe Rousseau, Swanand Hardikar, Nicolas Veland, Jiemin Wong, Chantal Autexier, Taiping Chen
Proper telomere length is essential for embryonic stem cell (ESC) self-renewal and pluripotency. Mouse ESCs (mESCs) sporadically convert to a transient totipotent state similar to that of two-cell (2C) embryos to recover shortened telomeres. Zscan4, which exhibits a burst of expression in 2C-like mESCs, is required for telomere extension in these cells. However, the mechanism by which Zscan4 extends telomeres remains elusive. Here, we show that Zscan4 facilitates telomere elongation by inducing global DNA demethylation through downregulation of Uhrf1 and Dnmt1, major components of the maintenance DNA methylation machinery. Mechanistically, Zscan4 recruits Uhrf1 and Dnmt1 and promotes their degradation, which depends on the E3 ubiquitin ligase activity of Uhrf1. Blocking DNA demethylation prevents telomere elongation associated with Zscan4 expression, suggesting that DNA demethylation mediates the effect of Zscan4. Our results define a molecular pathway that contributes to the maintenance of telomere length homeostasis in mESCs.

Graphical abstract

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Teaser

Mouse embryonic stem cells sporadically convert to a transient totipotent (2C-like) state in which shortened telomeres are extended dependent on Zscan4. Dan et al. demonstrate that Zscan4 facilitates telomere elongation by inducing Uhrf1-dependent Uhrf1 and Dnmt1 degradation, leading to global DNA demethylation.


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