Brd4-Brd2亚型转换协调多能性退出和Smad2依赖性谱系特化。

Brd4-Brd2 isoform switching coordinates pluripotent exit and Smad2-dependent lineage specification.

作者信息

Fernandez-Alonso Rosalia, Davidson Lindsay, Hukelmann Jens, Zengerle Michael, Prescott Alan R, Lamond Angus, Ciulli Alessio, Sapkota Gopal P, Findlay Greg M

机构信息

The MRC Protein Phosphorylation and Ubiquitylation Unit, School of Life Sciences, The University of Dundee, Dundee, UK.

Pluripotent Stem Cell Facility, School of Life Sciences, The University of Dundee, Dundee, UK.

出版信息

EMBO Rep. 2017 Jul;18(7):1108-1122. doi: 10.15252/embr.201643534. Epub 2017 Jun 6.

DOI:10.15252/embr.201643534

PMID:28588073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5494510/

Abstract

Pluripotent stem cells (PSCs) hold great clinical potential, as they possess the capacity to differentiate into fully specialised tissues such as pancreas, liver, neurons and cardiac muscle. However, the molecular mechanisms that coordinate pluripotent exit with lineage specification remain poorly understood. To address this question, we perform a small molecule screen to systematically identify novel regulators of the Smad2 signalling network, a key determinant of PSC fate. We reveal an essential function for BET family bromodomain proteins in Smad2 activation, distinct from the role of Brd4 in pluripotency maintenance. Mechanistically, BET proteins specifically engage Nodal gene regulatory elements (NREs) to promote Nodal signalling and Smad2 developmental responses. In pluripotent cells, Brd2-Brd4 occupy NREs, but only Brd4 is required for pluripotency gene expression. Brd4 downregulation facilitates pluripotent exit and drives enhanced Brd2 NRE occupancy, thereby unveiling a specific function for Brd2 in differentiative Nodal-Smad2 signalling. Therefore, distinct BET functionalities and Brd4-Brd2 isoform switching at NREs coordinate pluripotent exit with lineage specification.

摘要

多能干细胞（PSC）具有巨大的临床潜力，因为它们能够分化为完全特化的组织，如胰腺、肝脏、神经元和心肌。然而，协调多能性退出与谱系特化的分子机制仍知之甚少。为了解决这个问题，我们进行了一项小分子筛选，以系统地鉴定Smad2信号网络的新型调节因子，Smad2信号网络是PSC命运的关键决定因素。我们揭示了BET家族溴结构域蛋白在Smad2激活中的重要功能，这与Brd4在多能性维持中的作用不同。从机制上讲，BET蛋白特异性结合Nodal基因调控元件（NRE）以促进Nodal信号传导和Smad2的发育反应。在多能细胞中，Brd2 - Brd4占据NRE，但只有Brd4是多能性基因表达所必需的。Brd4的下调促进多能性退出并驱动Brd2对NRE的占据增加，从而揭示了Brd2在分化性Nodal - Smad2信号传导中的特定功能。因此，NRE处不同的BET功能以及Brd4 - Brd2异构体切换协调了多能性退出与谱系特化。

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Brd4-Brd2亚型转换协调多能性退出和Smad2依赖性谱系特化。

Brd4-Brd2 isoform switching coordinates pluripotent exit and Smad2-dependent lineage specification.

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