ATF3 Preserves Skeletal Muscle Stem Cell Quiescence by Preventing Precocious Activation
Author:
Zhang Suyang,Huang Yile,Yang Feng,He Liangqiang,Li Yuying,Esther Wan Yi Ching,Ding Yingzhe,Chan Kui Ming,Xie Ting,Sun Hao,Wang Huating
Abstract
AbstractSkeletal muscle stem cells (also called satellite cells, SCs) are important for maintaining muscle tissue homeostasis and damage-induced regeneration. However, it remains poorly understood how the SC quiescence is preserved. Here we report that AP-1 family member ATF3 preserves the SC quiescence by preventing their premature activation. Atf3 is rapidly and transiently induced in SCs upon activation. Short-term deletion of Atf3 in SCs accelerates acute injury-induced regeneration, and however, its long-term deletion exhausts the SC pool and thus impairs muscle regeneration. The Atf3 loss also provokes SC activation during voluntary exercise and enhances SC activation during resistance exercise. Mechanistically, ATF3 directly activates the transcription of Histone 2B genes, which reduction accelerates nucleosome displacement and gene transcription required for SC activation. Finally, the ATF3-dependent H2B expression also prevents genome instability and replicative senescence in SCs. Therefore, this study has revealed a novel mechanism for preserving the SC population by actively suppressing precocious activation, in which ATF3 is a key regulator.
Publisher
Cold Spring Harbor Laboratory
Reference97 articles.
1. Tissue-Specific Stem Cells: Lessons from the Skeletal Muscle Satellite Cell
2. FOXO3 promotes quiescence in adult muscle stem cells during the process of self-renewal;Stem Cell Reports. Apr,8 2014
3. Calcitonin Receptor Signaling Inhibits Muscle Stem Cells from Escaping the Quiescent State and the Niche;Cell Rep. Oct,13 2015
4. Expression of CD34 and Myf5 defines the majority of quiescent adult skeletal muscle satellite cells;The Journal of cell biology. Dec,11 2000
5. Cellular and Molecular Regulation of Muscle Regeneration