Pluripotency reprogramming by competent and incompetent POU factors uncovers temporal dependency for Oct4 and Sox2

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作者
Vikas Malik
Laura V. Glaser
Dennis Zimmer
Sergiy Velychko
Mingxi Weng
Markus Holzner
Marius Arend
Yanpu Chen
Yogesh Srivastava
Veeramohan Veerapandian
Zahir Shah
Miguel A. Esteban
Huating Wang
Jiekai Chen
Hans R. Schöler
Andrew P. Hutchins
Sebastiaan H. Meijsing
Sebastian Pott
Ralf Jauch
机构
[1] Chinese Academy of Sciences,CAS Key Laboratory of Regenerative Biology, Joint School of Life Sciences, Guangzhou Institutes of Biomedicine and Health
[2] Guangzhou Medical University,Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine; Guangzhou Institutes of Biomedicine and Health
[3] University of Chinese Academy of Sciences,Department of Cell and Developmental Biology
[4] Chinese Academy of Sciences,School of Biomedical Sciences, Li Ka Shing Faculty of Medicine
[5] Max Planck Institute for Molecular Genetics,Department of Developmental Biology, School of Basic Medical Sciences
[6] Max Planck Institute for Molecular Biomedicine,Laboratory of RNA, Chromatin, and Human Disease, Key Laboratory of Regenerative Biology and Guangdong Provincial Key Laboratory of Stem Cells and Regenerative Medicine, Guangzhou Institutes of Biomedicine and
[7] The University of Hong Kong,Department of Orthopaedics and Traumatology, Prince of Wales Hospital, Li Ka Shing Institute of Health Sciences
[8] Southern Medical University,Medical Faculty
[9] Chinese Academy of Sciences,Department of Biology
[10] Guangzhou Regenerative Medicine and Health Guangdong Laboratory (GRMH-GDL),Department of Human Genetics
[11] The Chinese University of Hong Kong,undefined
[12] University of Münster,undefined
[13] Southern University of Science and Technology,undefined
[14] The University of Chicago,undefined
来源
Nature Communications | / 10卷
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摘要
Oct4, along with Sox2 and Klf4 (SK), can induce pluripotency but structurally similar factors like Oct6 cannot. To decode why Oct4 has this unique ability, we compare Oct4-binding, accessibility patterns and transcriptional waves with Oct6 and an Oct4 mutant defective in the dimerization with Sox2 (Oct4defSox2). We find that initial silencing of the somatic program proceeds indistinguishably with or without Oct4. Oct6 mitigates the mesenchymal-to-epithelial transition and derails reprogramming. These effects are a consequence of differences in genome-wide binding, as the early binding profile of Oct4defSox2 resembles Oct4, whilst Oct6 does not bind pluripotency enhancers. Nevertheless, in the Oct6-SK condition many otherwise Oct4-bound locations become accessible but chromatin opening is compromised when Oct4defSox2 occupies these sites. We find that Sox2 predominantly facilitates chromatin opening, whilst Oct4 serves an accessory role. Formation of Oct4/Sox2 heterodimers is essential for pluripotency establishment; however, reliance on Oct4/Sox2 heterodimers declines during pluripotency maintenance.
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