Literature DB >> 33357405

Dcaf11 activates Zscan4-mediated alternative telomere lengthening in early embryos and embryonic stem cells.

Rongrong Le1, Yixin Huang2, Yanping Zhang2, Hu Wang3, Jiaming Lin2, Yu Dong2, Ziyi Li2, Mingyue Guo2, Xiaochen Kou2, Yanhong Zhao2, Mo Chen2, Qianshu Zhu2, Anqi Zhao2, Jiqing Yin2, Jiatong Sun4, Zhongqu Su4, Kerong Shi4, Yawei Gao2, Jiayu Chen2, Wenqiang Liu2, Lan Kang2, Yixuan Wang2, Chong Li2, Xiaoyu Liu2, Rui Gao2, Hong Wang2, Zhenyu Ju5, Shaorong Gao6.   

Abstract

Telomeres play vital roles in ensuring chromosome stability and are thus closely linked with the onset of aging and human disease. Telomeres undergo extensive lengthening during early embryogenesis. However, the detailed molecular mechanism of telomere resetting in early embryos remains unknown. Here, we show that Dcaf11 (Ddb1- and Cul4-associated factor 11) participates in telomere elongation in early embryos and 2-cell-like embryonic stem cells (ESCs). The deletion of Dcaf11 in embryos and ESCs leads to reduced telomere sister-chromatid exchange (T-SCE) and impairs telomere lengthening. Importantly, Dcaf11-deficient mice exhibit gradual telomere erosion with successive generations, and hematopoietic stem cell (HSC) activity is also greatly compromised. Mechanistically, Dcaf11 targets Kap1 (KRAB-associated protein 1) for ubiquitination-mediated degradation, leading to the activation of Zscan4 downstream enhancer and the removal of heterochromatic H3K9me3 at telomere/subtelomere regions. Our study therefore demonstrates that Dcaf11 plays important roles in telomere elongation in early embryos and ESCs through activating Zscan4.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ESCs; Kap1; Zscan4; alternative lengthening of telomeres; embryo

Mesh:

Year:  2020        PMID: 33357405     DOI: 10.1016/j.stem.2020.11.018

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  10 in total

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  10 in total

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