Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency

Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency

Embryonic stem cells (ESCs) are unique in that they have the capacity to differentiate into all of the cell types in the body. We know a lot about the complex transcriptional control circuits that maintain the naive pluripotent state under self-renewing conditions but comparatively less about how ce...

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Main Authors: Shen-Hsi Yang, Tüzer Kalkan, Claire Morissroe, Hendrik Marks, Hendrik Stunnenberg, Austin Smith, Andrew D. Sharrocks
Format: Article
Language:English
Published: Elsevier 2014-06-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124714004318
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spelling doaj-5d756686d44647c4b90b13749a5d7b2c2020-11-25T01:49:37ZengElsevierCell Reports2211-12472014-06-01761968198110.1016/j.celrep.2014.05.037Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive PluripotencyShen-Hsi Yang0Tüzer Kalkan1Claire Morissroe2Hendrik Marks3Hendrik Stunnenberg4Austin Smith5Andrew D. Sharrocks6Faculty of Life Sciences, University of Manchester, Michael Smith Building, Oxford Road, Manchester, M13 9PT, UKWellcome Trust-Medical Research Council Stem Cell Institute and Department of Biochemistry, University of Cambridge, Tennis Court Road, Cambridge, CB2 1QR, UKFaculty of Life Sciences, University of Manchester, Michael Smith Building, Oxford Road, Manchester, M13 9PT, UKDepartment of Molecular Biology, Faculty of Science, Raboud Institute for Molecular Life Sciences, Radboud University, 6525GA Nijmegen, the NetherlandsDepartment of Molecular Biology, Faculty of Science, Raboud Institute for Molecular Life Sciences, Radboud University, 6525GA Nijmegen, the NetherlandsWellcome Trust-Medical Research Council Stem Cell Institute and Department of Biochemistry, University of Cambridge, Tennis Court Road, Cambridge, CB2 1QR, UKFaculty of Life Sciences, University of Manchester, Michael Smith Building, Oxford Road, Manchester, M13 9PT, UKEmbryonic stem cells (ESCs) are unique in that they have the capacity to differentiate into all of the cell types in the body. We know a lot about the complex transcriptional control circuits that maintain the naive pluripotent state under self-renewing conditions but comparatively less about how cells exit from this state in response to differentiation stimuli. Here, we examined the role of Otx2 in this process in mouse ESCs and demonstrate that it plays a leading role in remodeling the gene regulatory networks as cells exit from ground state pluripotency. Otx2 drives enhancer activation through affecting chromatin marks and the activity of associated genes. Mechanistically, Oct4 is required for Otx2 expression, and reciprocally, Otx2 is required for efficient Oct4 recruitment to many enhancer regions. Therefore, the Oct4-Otx2 regulatory axis actively establishes a new regulatory chromatin landscape during the early events that accompany exit from ground state pluripotency.http://www.sciencedirect.com/science/article/pii/S2211124714004318
collection DOAJ
language English
format Article
sources DOAJ
author Shen-Hsi Yang
Tüzer Kalkan
Claire Morissroe
Hendrik Marks
Hendrik Stunnenberg
Austin Smith
Andrew D. Sharrocks
spellingShingle Shen-Hsi Yang
Tüzer Kalkan
Claire Morissroe
Hendrik Marks
Hendrik Stunnenberg
Austin Smith
Andrew D. Sharrocks
Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
Cell Reports
author_facet Shen-Hsi Yang
Tüzer Kalkan
Claire Morissroe
Hendrik Marks
Hendrik Stunnenberg
Austin Smith
Andrew D. Sharrocks
author_sort Shen-Hsi Yang
title Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
title_short Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
title_full Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
title_fullStr Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
title_full_unstemmed Otx2 and Oct4 Drive Early Enhancer Activation during Embryonic Stem Cell Transition from Naive Pluripotency
title_sort otx2 and oct4 drive early enhancer activation during embryonic stem cell transition from naive pluripotency
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2014-06-01
description Embryonic stem cells (ESCs) are unique in that they have the capacity to differentiate into all of the cell types in the body. We know a lot about the complex transcriptional control circuits that maintain the naive pluripotent state under self-renewing conditions but comparatively less about how cells exit from this state in response to differentiation stimuli. Here, we examined the role of Otx2 in this process in mouse ESCs and demonstrate that it plays a leading role in remodeling the gene regulatory networks as cells exit from ground state pluripotency. Otx2 drives enhancer activation through affecting chromatin marks and the activity of associated genes. Mechanistically, Oct4 is required for Otx2 expression, and reciprocally, Otx2 is required for efficient Oct4 recruitment to many enhancer regions. Therefore, the Oct4-Otx2 regulatory axis actively establishes a new regulatory chromatin landscape during the early events that accompany exit from ground state pluripotency.
url http://www.sciencedirect.com/science/article/pii/S2211124714004318
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AT hendrikmarks otx2andoct4driveearlyenhanceractivationduringembryonicstemcelltransitionfromnaivepluripotency
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