hnRNPLL 通过调节 Tbx3 和 Bptf 的可变剪接来控制胚胎干细胞的多能性退出。

hnRNPLL controls pluripotency exit of embryonic stem cells by modulating alternative splicing of Tbx3 and Bptf.

机构信息

State Key Laboratory of Medical Molecular Biology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, Beijing, China.

Department of Medical Genetics, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, Beijing, China.

出版信息

EMBO J. 2021 Feb 15;40(4):e104729. doi: 10.15252/embj.2020104729. Epub 2020 Dec 22.

DOI:10.15252/embj.2020104729

PMID:33349972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7883296/

Abstract

The regulatory circuitry underlying embryonic stem (ES) cell self-renewal is well defined, but how this circuitry is disintegrated to enable lineage specification is unclear. RNA-binding proteins (RBPs) have essential roles in RNA-mediated gene regulation, and preliminary data suggest that they might regulate ES cell fate. By combining bioinformatic analyses with functional screening, we identified seven RBPs played important roles for the exit from pluripotency of ES cells. We characterized hnRNPLL, which mainly functions as a global regulator of alternative splicing in ES cells. Specifically, hnRNPLL promotes multiple ES cell-preferred exon skipping events during the onset of ES cell differentiation. hnRNPLL depletion thus leads to sustained expression of ES cell-preferred isoforms, resulting in a differentiation deficiency that causes developmental defects and growth impairment in hnRNPLL-KO mice. In particular, hnRNPLL-mediated alternative splicing of two transcription factors, Bptf and Tbx3, is important for pluripotency exit. These data uncover the critical role of RBPs in pluripotency exit and suggest the application of targeting RBPs in controlling ES cell fate.

摘要

胚胎干细胞（ES 细胞）自我更新的调控回路已经得到很好的定义，但这个回路是如何被破坏以实现谱系特化的还不清楚。RNA 结合蛋白（RBPs）在 RNA 介导的基因调控中起着至关重要的作用，初步数据表明它们可能调节 ES 细胞命运。通过将生物信息学分析与功能筛选相结合，我们鉴定出了 7 种在 ES 细胞退出多能性中起重要作用的 RBPs。我们对 hnRNPLL 进行了表征，它主要作为 ES 细胞中可变剪接的全局调节剂发挥作用。具体来说，hnRNPLL 在 ES 细胞分化开始时促进多个 ES 细胞偏好的外显子跳过事件。因此，hnRNPLL 的耗竭导致 ES 细胞偏好的异构体持续表达，导致分化缺陷，从而导致 hnRNPLL-KO 小鼠的发育缺陷和生长受损。特别是，hnRNPLL 介导的两个转录因子 Bptf 和 Tbx3 的可变剪接对于多能性的退出很重要。这些数据揭示了 RBPs 在多能性退出中的关键作用，并表明靶向 RBPs 控制 ES 细胞命运的应用。

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