A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal

Embryonic stem (ES) cell self-renewal efficiency is determined by the Nanog protein level. However, the protein partners of Nanog that function to direct self-renewal are unclear. Here, we identify a Nanog interactome of over 130 proteins including transcription factors, chromatin modifying complexe...

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Autores principales: Gagliardi, Alessia, Mullin, Nicholas P, Ying Tan, Zi, Colby, Douglas, Kousa, Anastasia I, Halbritter, Florian, Weiss, Jason T, Felker, Anastasia, Bezstarosti, Karel, Favaro, Rebecca, Demmers, Jeroen, Nicolis, Silvia K, Tomlinson, Simon R, Poot, Raymond A, Chambers, Ian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: European Molecular Biology Organization 2013
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3746198/
https://www.ncbi.nlm.nih.gov/pubmed/23892456
http://dx.doi.org/10.1038/emboj.2013.161
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author Gagliardi, Alessia
Mullin, Nicholas P
Ying Tan, Zi
Colby, Douglas
Kousa, Anastasia I
Halbritter, Florian
Weiss, Jason T
Felker, Anastasia
Bezstarosti, Karel
Favaro, Rebecca
Demmers, Jeroen
Nicolis, Silvia K
Tomlinson, Simon R
Poot, Raymond A
Chambers, Ian
author_facet Gagliardi, Alessia
Mullin, Nicholas P
Ying Tan, Zi
Colby, Douglas
Kousa, Anastasia I
Halbritter, Florian
Weiss, Jason T
Felker, Anastasia
Bezstarosti, Karel
Favaro, Rebecca
Demmers, Jeroen
Nicolis, Silvia K
Tomlinson, Simon R
Poot, Raymond A
Chambers, Ian
author_sort Gagliardi, Alessia
collection PubMed
description Embryonic stem (ES) cell self-renewal efficiency is determined by the Nanog protein level. However, the protein partners of Nanog that function to direct self-renewal are unclear. Here, we identify a Nanog interactome of over 130 proteins including transcription factors, chromatin modifying complexes, phosphorylation and ubiquitination enzymes, basal transcriptional machinery members, and RNA processing factors. Sox2 was identified as a robust interacting partner of Nanog. The purified Nanog–Sox2 complex identified a DNA recognition sequence present in multiple overlapping Nanog/Sox2 ChIP-Seq data sets. The Nanog tryptophan repeat region is necessary and sufficient for interaction with Sox2, with tryptophan residues required. In Sox2, tyrosine to alanine mutations within a triple-repeat motif (S X T/S Y) abrogates the Nanog–Sox2 interaction, alters expression of genes associated with the Nanog-Sox2 cognate sequence, and reduces the ability of Sox2 to rescue ES cell differentiation induced by endogenous Sox2 deletion. Substitution of the tyrosines with phenylalanine rescues both the Sox2–Nanog interaction and efficient self-renewal. These results suggest that aromatic stacking of Nanog tryptophans and Sox2 tyrosines mediates an interaction central to ES cell self-renewal.
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spelling pubmed-37461982013-08-19 A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal Gagliardi, Alessia Mullin, Nicholas P Ying Tan, Zi Colby, Douglas Kousa, Anastasia I Halbritter, Florian Weiss, Jason T Felker, Anastasia Bezstarosti, Karel Favaro, Rebecca Demmers, Jeroen Nicolis, Silvia K Tomlinson, Simon R Poot, Raymond A Chambers, Ian EMBO J Article Embryonic stem (ES) cell self-renewal efficiency is determined by the Nanog protein level. However, the protein partners of Nanog that function to direct self-renewal are unclear. Here, we identify a Nanog interactome of over 130 proteins including transcription factors, chromatin modifying complexes, phosphorylation and ubiquitination enzymes, basal transcriptional machinery members, and RNA processing factors. Sox2 was identified as a robust interacting partner of Nanog. The purified Nanog–Sox2 complex identified a DNA recognition sequence present in multiple overlapping Nanog/Sox2 ChIP-Seq data sets. The Nanog tryptophan repeat region is necessary and sufficient for interaction with Sox2, with tryptophan residues required. In Sox2, tyrosine to alanine mutations within a triple-repeat motif (S X T/S Y) abrogates the Nanog–Sox2 interaction, alters expression of genes associated with the Nanog-Sox2 cognate sequence, and reduces the ability of Sox2 to rescue ES cell differentiation induced by endogenous Sox2 deletion. Substitution of the tyrosines with phenylalanine rescues both the Sox2–Nanog interaction and efficient self-renewal. These results suggest that aromatic stacking of Nanog tryptophans and Sox2 tyrosines mediates an interaction central to ES cell self-renewal. European Molecular Biology Organization 2013-08-14 2013-07-26 /pmc/articles/PMC3746198/ /pubmed/23892456 http://dx.doi.org/10.1038/emboj.2013.161 Text en Copyright © 2013, European Molecular Biology Organization https://creativecommons.org/licenses/by/3.0/This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. To view a copy of this licence visit http://creativecommons.org/licenses/by/3.0/.
spellingShingle Article
Gagliardi, Alessia
Mullin, Nicholas P
Ying Tan, Zi
Colby, Douglas
Kousa, Anastasia I
Halbritter, Florian
Weiss, Jason T
Felker, Anastasia
Bezstarosti, Karel
Favaro, Rebecca
Demmers, Jeroen
Nicolis, Silvia K
Tomlinson, Simon R
Poot, Raymond A
Chambers, Ian
A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title_full A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title_fullStr A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title_full_unstemmed A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title_short A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal
title_sort direct physical interaction between nanog and sox2 regulates embryonic stem cell self-renewal
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3746198/
https://www.ncbi.nlm.nih.gov/pubmed/23892456
http://dx.doi.org/10.1038/emboj.2013.161
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