C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4

Bruno Di Stefano; Samuel Collombet; Janus Schou Jakobsen; Michael Wierer; Jose Luis Sardina; Andreas Lackner; Ralph Stadhouders; Carolina Segura-Morales; Mirko Francesconi; Francesco Limone; Matthias Mann; Bo Porse; Denis Thieffry; Thomas Graf

doi:10.1038/ncb3326

C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4

Bruno Di Stefano, Samuel Collombet, Janus Schou Jakobsen, Michael Wierer, Jose Luis Sardina, Andreas Lackner, Ralph Stadhouders, Carolina Segura-Morales, Mirko Francesconi, Francesco Limone, Matthias Mann, Bo Porse, Denis Thieffry, Thomas Graf

82 Citationer (Scopus)

Abstract

Reprogramming somatic cells into induced pluripotent stem cells (iPSCs) is typically inefficient and has been explained by elite-cell and stochastic models. We recently reported that B cells exposed to a pulse of C/EBPα (Bα' cells) behave as elite cells, in that they can be rapidly and efficiently reprogrammed into iPSCs by the Yamanaka factors OSKM. Here we show that C/EBPα post-transcriptionally increases the abundance of several hundred proteins, including Lsd1, Hdac1, Brd4, Med1 and Cdk9, components of chromatin-modifying complexes present at super-enhancers. Lsd1 was found to be required for B cell gene silencing and Brd4 for the activation of the pluripotency program. C/EBPα also promotes chromatin accessibility in pluripotent cells and upregulates Klf4 by binding to two haematopoietic enhancers. Bα' cells share many properties with granulocyte/macrophage progenitors, naturally occurring elite cells that are obligate targets for leukaemic transformation, whose formation strictly requires C/EBPα.

Originalsprog	Engelsk
Tidsskrift	Nature Cell Biology
Vol/bind	18
Udgave nummer	4
Sider (fra-til)	371-81
ISSN	1465-7392
DOI	https://doi.org/10.1038/ncb3326
Status	Udgivet - 14 mar. 2016

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10.1038/ncb3326

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Di Stefano, B., Collombet, S., Jakobsen, J. S., Wierer, M., Sardina, J. L., Lackner, A., Stadhouders, R., Segura-Morales, C., Francesconi, M., Limone, F., Mann, M., Porse, B., Thieffry, D., & Graf, T. (2016). C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4. Nature Cell Biology, 18(4), 371-81. https://doi.org/10.1038/ncb3326

Di Stefano, B, Collombet, S, Jakobsen, JS, Wierer, M, Sardina, JL, Lackner, A, Stadhouders, R, Segura-Morales, C, Francesconi, M, Limone, F, Mann, M, Porse, B, Thieffry, D & Graf, T 2016, 'C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4', Nature Cell Biology, bind 18, nr. 4, s. 371-81. https://doi.org/10.1038/ncb3326

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title = "C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4",

abstract = "Reprogramming somatic cells into induced pluripotent stem cells (iPSCs) is typically inefficient and has been explained by elite-cell and stochastic models. We recently reported that B cells exposed to a pulse of C/EBPα (Bα' cells) behave as elite cells, in that they can be rapidly and efficiently reprogrammed into iPSCs by the Yamanaka factors OSKM. Here we show that C/EBPα post-transcriptionally increases the abundance of several hundred proteins, including Lsd1, Hdac1, Brd4, Med1 and Cdk9, components of chromatin-modifying complexes present at super-enhancers. Lsd1 was found to be required for B cell gene silencing and Brd4 for the activation of the pluripotency program. C/EBPα also promotes chromatin accessibility in pluripotent cells and upregulates Klf4 by binding to two haematopoietic enhancers. Bα' cells share many properties with granulocyte/macrophage progenitors, naturally occurring elite cells that are obligate targets for leukaemic transformation, whose formation strictly requires C/EBPα.",

author = "{Di Stefano}, Bruno and Samuel Collombet and Jakobsen, {Janus Schou} and Michael Wierer and Sardina, {Jose Luis} and Andreas Lackner and Ralph Stadhouders and Carolina Segura-Morales and Mirko Francesconi and Francesco Limone and Matthias Mann and Bo Porse and Denis Thieffry and Thomas Graf",

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AU - Di Stefano, Bruno

AU - Collombet, Samuel

AU - Jakobsen, Janus Schou

AU - Wierer, Michael

AU - Sardina, Jose Luis

AU - Lackner, Andreas

AU - Stadhouders, Ralph

AU - Segura-Morales, Carolina

AU - Francesconi, Mirko

AU - Limone, Francesco

AU - Mann, Matthias

AU - Porse, Bo

AU - Thieffry, Denis

AU - Graf, Thomas

PY - 2016/3/14

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N2 - Reprogramming somatic cells into induced pluripotent stem cells (iPSCs) is typically inefficient and has been explained by elite-cell and stochastic models. We recently reported that B cells exposed to a pulse of C/EBPα (Bα' cells) behave as elite cells, in that they can be rapidly and efficiently reprogrammed into iPSCs by the Yamanaka factors OSKM. Here we show that C/EBPα post-transcriptionally increases the abundance of several hundred proteins, including Lsd1, Hdac1, Brd4, Med1 and Cdk9, components of chromatin-modifying complexes present at super-enhancers. Lsd1 was found to be required for B cell gene silencing and Brd4 for the activation of the pluripotency program. C/EBPα also promotes chromatin accessibility in pluripotent cells and upregulates Klf4 by binding to two haematopoietic enhancers. Bα' cells share many properties with granulocyte/macrophage progenitors, naturally occurring elite cells that are obligate targets for leukaemic transformation, whose formation strictly requires C/EBPα.

AB - Reprogramming somatic cells into induced pluripotent stem cells (iPSCs) is typically inefficient and has been explained by elite-cell and stochastic models. We recently reported that B cells exposed to a pulse of C/EBPα (Bα' cells) behave as elite cells, in that they can be rapidly and efficiently reprogrammed into iPSCs by the Yamanaka factors OSKM. Here we show that C/EBPα post-transcriptionally increases the abundance of several hundred proteins, including Lsd1, Hdac1, Brd4, Med1 and Cdk9, components of chromatin-modifying complexes present at super-enhancers. Lsd1 was found to be required for B cell gene silencing and Brd4 for the activation of the pluripotency program. C/EBPα also promotes chromatin accessibility in pluripotent cells and upregulates Klf4 by binding to two haematopoietic enhancers. Bα' cells share many properties with granulocyte/macrophage progenitors, naturally occurring elite cells that are obligate targets for leukaemic transformation, whose formation strictly requires C/EBPα.

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ER -

C/EBPα creates elite cells for iPSC reprogramming by upregulating Klf4 and increasing the levels of Lsd1 and Brd4

Abstract

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