C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis

Chris van Oevelen; Samuel Collombet; Guillermo Vicent; Maarten Hoogenkamp; Cyrille Lepoivre; Aimee Badeaux; Lars Bussmann; Jose Luis Sardina; Denis Thieffry; Miguel Beato; Yang Shi; Constanze Bonifer; Thomas Graf

doi:10.1016/j.stemcr.2015.06.007

C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis

Chris van Oevelen, Samuel Collombet, Guillermo Vicent, Maarten Hoogenkamp, Cyrille Lepoivre, Aimee Badeaux, Lars Bussmann, Jose Luis Sardina, Denis Thieffry, Miguel Beato, Yang Shi, Constanze Bonifer, Thomas Graf

Cancer and Genomic Sciences

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56 Citations (Scopus)

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Abstract

Transcription-factor-induced somatic cell conversions are highly relevant for both basic and clinical research yet their mechanism is not fully understood and it is unclear whether they reflect normal differentiation processes. Here we show that during pre-B-cell-to-macrophage transdifferentiation, C/EBPα binds to two types of myeloid enhancers in B cells: pre-existing enhancers that are bound by PU.1, providing a platform for incoming C/EBPα; and de novo enhancers that are targeted by C/EBPα, acting as a pioneer factor for subsequent binding by PU.1. The order of factor binding dictates the upregulation kinetics of nearby genes. Pre-existing enhancers are broadly active throughout the hematopoietic lineage tree, including B cells. In contrast, de novo enhancers are silent in most cell types except in myeloid cells where they become activated by C/EBP factors. Our data suggest that C/EBPα recapitulates physiological developmental processes by short-circuiting two macrophage enhancer pathways in pre-B cells.

Original language	English
Pages (from-to)	232-247
Journal	Stem Cell Reports
Volume	5
Issue number	2
Early online date	30 Jul 2015
DOIs	https://doi.org/10.1016/j.stemcr.2015.06.007
Publication status	Published - 11 Aug 2015

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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van Oevelen, C., Collombet, S., Vicent, G., Hoogenkamp, M., Lepoivre, C., Badeaux, A., Bussmann, L., Sardina, J. L., Thieffry, D., Beato, M., Shi, Y., Bonifer, C., & Graf, T. (2015). C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis. Stem Cell Reports, 5(2), 232-247. Advance online publication. https://doi.org/10.1016/j.stemcr.2015.06.007

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title = "C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis",

abstract = "Transcription-factor-induced somatic cell conversions are highly relevant for both basic and clinical research yet their mechanism is not fully understood and it is unclear whether they reflect normal differentiation processes. Here we show that during pre-B-cell-to-macrophage transdifferentiation, C/EBPα binds to two types of myeloid enhancers in B cells: pre-existing enhancers that are bound by PU.1, providing a platform for incoming C/EBPα; and de novo enhancers that are targeted by C/EBPα, acting as a pioneer factor for subsequent binding by PU.1. The order of factor binding dictates the upregulation kinetics of nearby genes. Pre-existing enhancers are broadly active throughout the hematopoietic lineage tree, including B cells. In contrast, de novo enhancers are silent in most cell types except in myeloid cells where they become activated by C/EBP factors. Our data suggest that C/EBPα recapitulates physiological developmental processes by short-circuiting two macrophage enhancer pathways in pre-B cells.",

author = "{van Oevelen}, Chris and Samuel Collombet and Guillermo Vicent and Maarten Hoogenkamp and Cyrille Lepoivre and Aimee Badeaux and Lars Bussmann and Sardina, {Jose Luis} and Denis Thieffry and Miguel Beato and Yang Shi and Constanze Bonifer and Thomas Graf",

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doi = "10.1016/j.stemcr.2015.06.007",

language = "English",

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journal = "Stem Cell Reports",

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van Oevelen, C, Collombet, S, Vicent, G, Hoogenkamp, M, Lepoivre, C, Badeaux, A, Bussmann, L, Sardina, JL, Thieffry, D, Beato, M, Shi, Y, Bonifer, C & Graf, T 2015, 'C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis', Stem Cell Reports, vol. 5, no. 2, pp. 232-247. https://doi.org/10.1016/j.stemcr.2015.06.007

TY - JOUR

T1 - C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis

AU - van Oevelen, Chris

AU - Collombet, Samuel

AU - Vicent, Guillermo

AU - Hoogenkamp, Maarten

AU - Lepoivre, Cyrille

AU - Badeaux, Aimee

AU - Bussmann, Lars

AU - Sardina, Jose Luis

AU - Thieffry, Denis

AU - Beato, Miguel

AU - Shi, Yang

AU - Bonifer, Constanze

AU - Graf, Thomas

PY - 2015/8/11

Y1 - 2015/8/11

N2 - Transcription-factor-induced somatic cell conversions are highly relevant for both basic and clinical research yet their mechanism is not fully understood and it is unclear whether they reflect normal differentiation processes. Here we show that during pre-B-cell-to-macrophage transdifferentiation, C/EBPα binds to two types of myeloid enhancers in B cells: pre-existing enhancers that are bound by PU.1, providing a platform for incoming C/EBPα; and de novo enhancers that are targeted by C/EBPα, acting as a pioneer factor for subsequent binding by PU.1. The order of factor binding dictates the upregulation kinetics of nearby genes. Pre-existing enhancers are broadly active throughout the hematopoietic lineage tree, including B cells. In contrast, de novo enhancers are silent in most cell types except in myeloid cells where they become activated by C/EBP factors. Our data suggest that C/EBPα recapitulates physiological developmental processes by short-circuiting two macrophage enhancer pathways in pre-B cells.

AB - Transcription-factor-induced somatic cell conversions are highly relevant for both basic and clinical research yet their mechanism is not fully understood and it is unclear whether they reflect normal differentiation processes. Here we show that during pre-B-cell-to-macrophage transdifferentiation, C/EBPα binds to two types of myeloid enhancers in B cells: pre-existing enhancers that are bound by PU.1, providing a platform for incoming C/EBPα; and de novo enhancers that are targeted by C/EBPα, acting as a pioneer factor for subsequent binding by PU.1. The order of factor binding dictates the upregulation kinetics of nearby genes. Pre-existing enhancers are broadly active throughout the hematopoietic lineage tree, including B cells. In contrast, de novo enhancers are silent in most cell types except in myeloid cells where they become activated by C/EBP factors. Our data suggest that C/EBPα recapitulates physiological developmental processes by short-circuiting two macrophage enhancer pathways in pre-B cells.

U2 - 10.1016/j.stemcr.2015.06.007

DO - 10.1016/j.stemcr.2015.06.007

M3 - Article

C2 - 26235892

SN - 2213-6711

VL - 5

SP - 232

EP - 247

JO - Stem Cell Reports

JF - Stem Cell Reports

IS - 2

ER -

C/EBPα Activates Pre-existing and De Novo Macrophage Enhancers during Induced Pre-B Cell Transdifferentiation and Myelopoiesis

Abstract

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