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An Esrrb and Nanog cell fate regulatory module controlled by feed forward loop interactions

An Esrrb and Nanog cell fate regulatory module controlled by feed forward loop interactions
An Esrrb and Nanog cell fate regulatory module controlled by feed forward loop interactions

Cell fate decisions during development are governed by multi-factorial regulatory mechanisms including chromatin remodeling, DNA methylation, binding of transcription factors to specific loci, RNA transcription and protein synthesis. However, the mechanisms by which such regulatory “dimensions” coordinate cell fate decisions are currently poorly understood. Here we quantified the multi-dimensional molecular changes that occur in mouse embryonic stem cells (mESCs) upon depletion of Estrogen related receptor beta (Esrrb), a key pluripotency regulator. Comparative analyses of expression changes subsequent to depletion of Esrrb or Nanog, indicated that a system of interlocked feed-forward loops involving both factors, plays a central part in regulating the timing of mESC fate decisions. Taken together, our meta-analyses support a hierarchical model in which pluripotency is maintained by an Oct4-Sox2 regulatory module, while the timing of differentiation is regulated by a Nanog-Esrrb module.

epigenetics, feed forward regulatory loops, multi-omics network, proteomics, stem cells
2296-634X
Sevilla, Ana
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Papatsenko, Dmitri
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Mazloom, Amin R.
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Huilei, Xu
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Vasileva, Ana
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Unwin, Richard D.
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LeRoy, Gary
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Chen, Edward Y.
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Garrett-Bakelman, Francine E.
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Lee, Dung-Fang
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Trinite, Benjamin
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Webb, Ryan L.
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Wang, Zichen
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Su, Jie
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Gingold, Julian
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Melnick, Ari
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Garcia, Benjamin A.
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Whetton, Anthony D.
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Macarthur, Benjamin
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Ma'ayan, Avi
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Lemischka, Ihor R.
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Sevilla, Ana
76ccdbff-7bd7-414b-980a-5b47ae3c1b2c
Papatsenko, Dmitri
6f0c7d1a-eb97-49cc-a444-758e1d9b6492
Mazloom, Amin R.
f3c1191b-2211-4b54-bafc-af8cf3fa47c8
Huilei, Xu
6d0f0715-19fe-43b6-9ef3-aeda974cafef
Vasileva, Ana
56a8ce62-2f9c-49d0-99ab-1001b2237e93
Unwin, Richard D.
85201df4-f3ad-454f-9a59-2cc4377c9d25
LeRoy, Gary
63163a86-a5c3-426a-b343-d263aa90e41f
Chen, Edward Y.
8edcb85e-8607-4e63-98b5-5a98eede0aba
Garrett-Bakelman, Francine E.
16bff764-3ced-4189-bb80-0f935787643b
Lee, Dung-Fang
84b7f030-2a24-4de5-a97e-dd93bb7edd32
Trinite, Benjamin
d29ef7db-e8f9-4b66-81f7-b54f36259259
Webb, Ryan L.
9ec39a1b-f1a7-42e2-b4ba-cca43f3ed4bb
Wang, Zichen
5626aa44-4b83-4e00-ab83-0ead5cf8e3b5
Su, Jie
4e7b3219-db1d-489c-88da-7e8affb9ed33
Gingold, Julian
2c9614eb-cbe7-48d6-8f5a-38721d263c1b
Melnick, Ari
845e9438-c065-48ba-b0d4-5249e0621357
Garcia, Benjamin A.
35de058d-68ba-4de8-b5e1-f23d8dbaeb83
Whetton, Anthony D.
b86abe9e-b267-4e09-8b65-877dd4627ef9
Macarthur, Benjamin
2c0476e7-5d3e-4064-81bb-104e8e88bb6b
Ma'ayan, Avi
99cb1aec-22a3-45a9-a377-0f7c5df56ce0
Lemischka, Ihor R.
365c7427-f317-4831-86a7-e8a4d238b62b

Sevilla, Ana, Papatsenko, Dmitri, Mazloom, Amin R., Huilei, Xu, Vasileva, Ana, Unwin, Richard D., LeRoy, Gary, Chen, Edward Y., Garrett-Bakelman, Francine E., Lee, Dung-Fang, Trinite, Benjamin, Webb, Ryan L., Wang, Zichen, Su, Jie, Gingold, Julian, Melnick, Ari, Garcia, Benjamin A., Whetton, Anthony D., Macarthur, Benjamin, Ma'ayan, Avi and Lemischka, Ihor R. (2021) An Esrrb and Nanog cell fate regulatory module controlled by feed forward loop interactions. Frontiers in Cell and Developmental Biology, 9, [630067]. (doi:10.3389/fcell.2021.630067).

Record type: Article

Abstract

Cell fate decisions during development are governed by multi-factorial regulatory mechanisms including chromatin remodeling, DNA methylation, binding of transcription factors to specific loci, RNA transcription and protein synthesis. However, the mechanisms by which such regulatory “dimensions” coordinate cell fate decisions are currently poorly understood. Here we quantified the multi-dimensional molecular changes that occur in mouse embryonic stem cells (mESCs) upon depletion of Estrogen related receptor beta (Esrrb), a key pluripotency regulator. Comparative analyses of expression changes subsequent to depletion of Esrrb or Nanog, indicated that a system of interlocked feed-forward loops involving both factors, plays a central part in regulating the timing of mESC fate decisions. Taken together, our meta-analyses support a hierarchical model in which pluripotency is maintained by an Oct4-Sox2 regulatory module, while the timing of differentiation is regulated by a Nanog-Esrrb module.

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Accepted/In Press date: 17 February 2021
Published date: 19 March 2021
Keywords: epigenetics, feed forward regulatory loops, multi-omics network, proteomics, stem cells
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Identifiers

Local EPrints ID: 453499
URI: http://eprints.soton.ac.uk/id/eprint/453499
DOI: doi:10.3389/fcell.2021.630067
ISSN: 2296-634X
PURE UUID: a088c0d6-3bef-46c6-a2a2-fc6a9364734a
ORCID for Benjamin Macarthur: ORCID iD orcid.org/0000-0002-5396-9750

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Date deposited: 18 Jan 2022 17:53
Last modified: 17 Mar 2024 02:51

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Contributors

Author: Ana Sevilla
Author: Dmitri Papatsenko
Author: Amin R. Mazloom
Author: Xu Huilei
Author: Ana Vasileva
Author: Richard D. Unwin
Author: Gary LeRoy
Author: Edward Y. Chen
Author: Francine E. Garrett-Bakelman
Author: Dung-Fang Lee
Author: Benjamin Trinite
Author: Ryan L. Webb
Author: Zichen Wang
Author: Jie Su
Author: Julian Gingold
Author: Ari Melnick
Author: Benjamin A. Garcia
Author: Anthony D. Whetton
Author: Benjamin Macarthur ORCID iD
Author: Avi Ma'ayan
Author: Ihor R. Lemischka

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