A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation

A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation

Embryonic stem cells (ESCs) enable rapid proliferation that also causes DNA damage. To maintain genomic stabilization during rapid proliferation, ESCs must have an efficient system to repress genotoxic stress. Here, we show that withdrawal of leukemia inhibitory factor (LIF), which maintains the sel...

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Main Authors: Qidong Liu, Guiying Wang, Yafang Chen, Guoping Li, Dandan Yang, Jiuhong Kang
Format: Article
Language:English
Published: Elsevier 2014-12-01
Series:Stem Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2213671114003282
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spelling doaj-16bef15a32b94e09bd014f51507000112020-11-24T20:44:23ZengElsevierStem Cell Reports2213-67112014-12-01361103111710.1016/j.stemcr.2014.10.006A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC ProliferationQidong Liu0Guiying Wang1Yafang Chen2Guoping Li3Dandan Yang4Jiuhong Kang5Clinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaClinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaClinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaClinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaClinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaClinical and Translational Research Center of Shanghai First Maternity and Infant Health Hospital, Shanghai Key Laboratory of Signaling and Disease Research, School of Life Science and Technology, Tongji University, 1239 Siping Road, Shanghai 200092, People’s Republic of ChinaEmbryonic stem cells (ESCs) enable rapid proliferation that also causes DNA damage. To maintain genomic stabilization during rapid proliferation, ESCs must have an efficient system to repress genotoxic stress. Here, we show that withdrawal of leukemia inhibitory factor (LIF), which maintains the self-renewal capability of mouse ESCs (mESCs), significantly inhibits the cell proliferation and DNA damage of mESCs and upregulates the expression of miR-590. miR-590 promotes single-strand break (SSB) and double-strand break (DSB) damage repair, thus slowing proliferation of mESCs without influencing stemness. miR-590 directly targets Activin receptor type 2a (Acvr2a) to mediate Activin signaling. We identified the homologous recombination-mediated repair (HRR) gene, Rad51b, as a downstream molecule of the miR-590/Acvr2a pathway regulating the SSB and DSB damage repair and cell cycle. Our study shows that a miR-590/Acvr2a/Rad51b signaling axis ensures the stabilization of mESCs by balancing DNA damage repair and rapid proliferation during self-renewal.http://www.sciencedirect.com/science/article/pii/S2213671114003282
collection DOAJ
language English
format Article
sources DOAJ
author Qidong Liu
Guiying Wang
Yafang Chen
Guoping Li
Dandan Yang
Jiuhong Kang
spellingShingle Qidong Liu
Guiying Wang
Yafang Chen
Guoping Li
Dandan Yang
Jiuhong Kang
A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
Stem Cell Reports
author_facet Qidong Liu
Guiying Wang
Yafang Chen
Guoping Li
Dandan Yang
Jiuhong Kang
author_sort Qidong Liu
title A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
title_short A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
title_full A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
title_fullStr A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
title_full_unstemmed A miR-590/Acvr2a/Rad51b Axis Regulates DNA Damage Repair during mESC Proliferation
title_sort mir-590/acvr2a/rad51b axis regulates dna damage repair during mesc proliferation
publisher Elsevier
series Stem Cell Reports
issn 2213-6711
publishDate 2014-12-01
description Embryonic stem cells (ESCs) enable rapid proliferation that also causes DNA damage. To maintain genomic stabilization during rapid proliferation, ESCs must have an efficient system to repress genotoxic stress. Here, we show that withdrawal of leukemia inhibitory factor (LIF), which maintains the self-renewal capability of mouse ESCs (mESCs), significantly inhibits the cell proliferation and DNA damage of mESCs and upregulates the expression of miR-590. miR-590 promotes single-strand break (SSB) and double-strand break (DSB) damage repair, thus slowing proliferation of mESCs without influencing stemness. miR-590 directly targets Activin receptor type 2a (Acvr2a) to mediate Activin signaling. We identified the homologous recombination-mediated repair (HRR) gene, Rad51b, as a downstream molecule of the miR-590/Acvr2a pathway regulating the SSB and DSB damage repair and cell cycle. Our study shows that a miR-590/Acvr2a/Rad51b signaling axis ensures the stabilization of mESCs by balancing DNA damage repair and rapid proliferation during self-renewal.
url http://www.sciencedirect.com/science/article/pii/S2213671114003282
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