Cross-lineage potential of Ascl1 uncovered by comparing diverse reprogramming regulatomes

重编程 生物 MEF2C公司 转录因子 表观基因组 转录组 谱系(遗传) 诱导多能干细胞 表观遗传学 再生医学 细胞生物学 遗传学 细胞命运测定 干细胞 基因 基因表达 胚胎干细胞 DNA甲基化
作者
Haofei Wang,Benjamin Keepers,Yunzhe Qian,Yifang Xie,Marazzano Colon,Jiandong Liu,Qian Li
出处
期刊:Cell Stem Cell [Elsevier BV]
卷期号:29 (10): 1491-1504.e9 被引量:31
标识
DOI:10.1016/j.stem.2022.09.006
摘要

•Comparison of direct reprogramming processes unveiled common regulators •Ascl1 demonstrates a cross-lineage potential to activate cardiac program •Ascl1 and Mef2c induce cardiac reprogramming with high efficiency and maturity •Ascl1 and Mef2c cooperate to induce cardiac fate and repress neuron identity Direct reprogramming has revolutionized the fields of stem cell biology and regenerative medicine. However, the common mechanisms governing how reprogramming cells undergo transcriptome and epigenome remodeling (i.e., regulatome remodeling) have not been investigated. Here, by characterizing early changes in the regulatome of three different types of direct reprogramming, we identify lineage-specific features as well as common regulatory transcription factors. Of particular interest, we discover that the neuronal factor Ascl1 possesses cross-lineage potential; together with Mef2c, it drives efficient cardiac reprogramming toward a mature and induced cardiomyocyte phenotype. Through ChIP-seq and RNA-seq, we find that MEF2C drives the shift in ASCL1 binding away from neuronal genes toward cardiac genes, guiding their co-operative epigenetic and transcription activities. Together, these findings demonstrate the existence of common regulators of different direct reprogramming and argue against the premise that transcription factors possess only lineage-specific capabilities for altering cell fate – the basic premise used to develop direct reprogramming approaches. Direct reprogramming has revolutionized the fields of stem cell biology and regenerative medicine. However, the common mechanisms governing how reprogramming cells undergo transcriptome and epigenome remodeling (i.e., regulatome remodeling) have not been investigated. Here, by characterizing early changes in the regulatome of three different types of direct reprogramming, we identify lineage-specific features as well as common regulatory transcription factors. Of particular interest, we discover that the neuronal factor Ascl1 possesses cross-lineage potential; together with Mef2c, it drives efficient cardiac reprogramming toward a mature and induced cardiomyocyte phenotype. Through ChIP-seq and RNA-seq, we find that MEF2C drives the shift in ASCL1 binding away from neuronal genes toward cardiac genes, guiding their co-operative epigenetic and transcription activities. Together, these findings demonstrate the existence of common regulators of different direct reprogramming and argue against the premise that transcription factors possess only lineage-specific capabilities for altering cell fate – the basic premise used to develop direct reprogramming approaches.
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