作者
Jiao Yang,Jiameng Dan,Nannan Zhao,Linlin Liu,Huasong Wang,Qiangqiang Liu,Lingling Wang,Jie Li,Yiwei Wu,Feilong Chen,Weilun Fu,Lei Zhu,Meiqi Lin,Weiyu Zhang,Fuquan Chen,Xinqi Liu,Xinyi Lu,Quan Chen,Xudong Wu,Yuyu Niu,Na Yang,Yushan Zhu,Jiafu Long,Lin Liu
摘要
Zygotic genome activation occurs in two-cell (2C) embryos, and a 2C-like state is also activated in sporadic (~1%) naïve embryonic stem cells in mice. Elevated chromatin accessibility is critical for the 2C-like state to occur, yet the underlying molecular mechanisms remain elusive. Zscan4 exhibits burst expression in 2C embryos and 2C-like cells. Here, we show that Zscan4 mediates chromatin remodeling to promote the chromatin accessibility for achieving the 2C-like state. Through coimmunoprecipitation/mass spectrometry, we identified that Zscan4 interacts with the corepressors Kap1/Trim28, Lsd1, and Hdac1, also with H3K9me3 modifiers Suv39h1/2, to transiently form a repressive chromatin complex. Then, Zscan4 mediates the degradation of these chromatin repressors by recruiting Trim25 as an E3 ligase, enabling the ubiquitination of Lsd1, Hdac1, and Suv39h1/2. Degradation of the chromatin repressors promotes the chromatin accessibility for activation of the 2C-like state. These findings reveal the molecular insights into the roles of Zscan4 in promoting full activation of the 2C-like state.