Guasconi Valentina, Puri Pier Lorenzo
Istituto Dulbecco Telethon at Istituto Di Ricovero e Cura a Carattere Scientifico, Santa Lucia Fondazione and European Brain Research Institute, 64 Via del Fosso di Fiorano, Rome, Italy.
Trends Cell Biol. 2009 Jun;19(6):286-94. doi: 10.1016/j.tcb.2009.03.002. Epub 2009 Apr 23.
Muscle regeneration provides a paradigm by which to study how extrinsic signals coordinate gene expression in somatic stem cells (satellite cells) by directing the genome distribution of chromatin-modifying complexes. Understanding the signal-dependent control of the epigenetic events underlying the transition of muscle stem cells through sequential regeneration stages holds the promise to reveal new targets for selective interventions toward repairing diseased muscles. This review describes the latest findings on how regeneration cues are integrated at the chromatin level to build the transcription network that regulates progression of endogenous muscle progenitors throughout the myogenic program. In particular, we describe how specific epigenetic signatures can confer responsiveness to extrinsic cues on discrete regions of the muscle stem cell genome.
肌肉再生提供了一个范例,借此可以研究外在信号如何通过指导染色质修饰复合物的基因组分布来协调体干细胞(卫星细胞)中的基因表达。了解肌肉干细胞在连续再生阶段转变过程中表观遗传事件的信号依赖性控制,有望揭示修复患病肌肉的选择性干预新靶点。本综述描述了关于再生信号如何在染色质水平整合以构建调控内源性肌肉祖细胞在整个生肌程序中进展的转录网络的最新发现。特别是,我们描述了特定的表观遗传特征如何使肌肉干细胞基因组的离散区域对外在信号产生反应。