Literature DB >> 31588046

The RNA Helicase DDX6 Controls Cellular Plasticity by Modulating P-Body Homeostasis.

Bruno Di Stefano1, En-Ching Luo2, Chuck Haggerty3, Stefan Aigner2, Jocelyn Charlton3, Justin Brumbaugh1, Fei Ji4, Inés Rabano Jiménez2, Katie J Clowers5, Aaron J Huebner1, Kendell Clement6, Inna Lipchina1, Marit A C de Kort1, Anthony Anselmo4, John Pulice1, Mattia F M Gerli7, Hongcang Gu6, Steven P Gygi5, Ruslan I Sadreyev4, Alexander Meissner8, Gene W Yeo9, Konrad Hochedlinger10.   

Abstract

Post-transcriptional mechanisms have the potential to influence complex changes in gene expression, yet their role in cell fate transitions remains largely unexplored. Here, we show that suppression of the RNA helicase DDX6 endows human and mouse primed embryonic stem cells (ESCs) with a differentiation-resistant, "hyper-pluripotent" state, which readily reprograms to a naive state resembling the preimplantation embryo. We further demonstrate that DDX6 plays a key role in adult progenitors where it controls the balance between self-renewal and differentiation in a context-dependent manner. Mechanistically, DDX6 mediates the translational suppression of target mRNAs in P-bodies. Upon loss of DDX6 activity, P-bodies dissolve and release mRNAs encoding fate-instructive transcription and chromatin factors that re-enter the ribosome pool. Increased translation of these targets impacts cell fate by rewiring the enhancer, heterochromatin, and DNA methylation landscapes of undifferentiated cell types. Collectively, our data establish a link between P-body homeostasis, chromatin organization, and stem cell potency.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  P-body; RNA helicase DDX6; adult progenitor cells; chromatin; differentiation; embryonic stem cells; exit from pluripotency; naive pluripotency; post-transcriptional regulation; primed pluripotency; self-renewal

Year:  2019        PMID: 31588046      PMCID: PMC7247364          DOI: 10.1016/j.stem.2019.08.018

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  97 in total

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