Sevilla Ana, Papatsenko Dimitri, Mazloom Amin R, Xu Huilei, Vasileva Ana, Unwin Richard D, LeRoy Gary, Chen Edward Y, Garrett-Bakelman Francine E, Lee Dung-Fang, Trinite Benjamin, Webb Ryan L, Wang Zichen, Su Jie, Gingold Julian, Melnick Ari, Garcia Benjamin A, Whetton Anthony D, MacArthur Ben D, Ma'ayan Avi, Lemischka Ihor R
Department of Cell, Developmental and Regenerative Biology, Icahn School of Medicine at Mount Sinai, New York, NY, United States.
Black Family Stem Cell Institute, Icahn School of Medicine at Mount Sinai, New York, NY, United States.
Front Cell Dev Biol. 2021 Mar 19;9:630067. doi: 10.3389/fcell.2021.630067. eCollection 2021.
Cell fate decisions during development are governed by multi-factorial regulatory mechanisms including chromatin remodeling, DNA methylation, binding of transcription factors to specific loci, RNA transcription and protein synthesis. However, the mechanisms by which such regulatory "dimensions" coordinate cell fate decisions are currently poorly understood. Here we quantified the multi-dimensional molecular changes that occur in mouse embryonic stem cells (mESCs) upon depletion of Estrogen related receptor beta (Esrrb), a key pluripotency regulator. Comparative analyses of expression changes subsequent to depletion of Esrrb or Nanog, indicated that a system of interlocked feed-forward loops involving both factors, plays a central part in regulating the timing of mESC fate decisions. Taken together, our meta-analyses support a hierarchical model in which pluripotency is maintained by an Oct4-Sox2 regulatory module, while the timing of differentiation is regulated by a Nanog-Esrrb module.
发育过程中的细胞命运决定受多因素调控机制支配,包括染色质重塑、DNA甲基化、转录因子与特定基因座的结合、RNA转录和蛋白质合成。然而,目前对于这些调控“维度”如何协调细胞命运决定的机制了解甚少。在此,我们对雌激素相关受体β(Esrrb,一种关键的多能性调节因子)缺失后小鼠胚胎干细胞(mESC)中发生的多维度分子变化进行了量化。对Esrrb或Nanog缺失后的表达变化进行比较分析表明,一个涉及这两种因子的连锁前馈环系统在调节mESC命运决定的时间方面起着核心作用。综合来看,我们的荟萃分析支持一种层级模型,其中多能性由Oct4-Sox2调控模块维持,而分化时间则由Nanog-Esrrb模块调控。
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