Reinforcement of STAT3 activity reprogrammes human embryonic stem cells to naive-like pluripotency | ScholarBank@NUS

Please use this identifier to cite or link to this item: https://doi.org/10.1038/ncomms8095

Title:	Reinforcement of STAT3 activity reprogrammes human embryonic stem cells to naive-like pluripotency
Authors:	Chen, H Aksoy, I Gonnot, F Osteil, P Aubry, M Hamela, C Rognard, C Hochard, A Voisin, S Fontaine, E Mure, M Afanassieff, M Cleroux, E Guibert, S Chen, J Vallot, C Acloque, H Genthon, C Donnadieu, C De Vos, J Sanlaville, D Guérin, J.-F Weber, M Stanton, L.W Rougeulle, C Pain, B Bourillot, P.-Y Savatier, P
Keywords:	4 [4 (1,3 benzodioxol 5 yl) 5 (2 pyridinyl) 1h imidazol 2 yl]benzamide activin activin receptor cytochrome P450 1B1 DNA methyltransferase 1 DNA methyltransferase 3B fibroblast growth factor 2 glycoprotein gp 130 hepatocyte nuclear factor 3beta Janus kinase kruppel like factor 2 kruppel like factor 4 kruppel like factor 5 leukemia inhibitory factor receptor octamer transcription factor 4 STAT3 protein suppressor of cytokine signaling 3 tamoxifen transcription factor GATA 4 transcription factor GATA 6 transcription factor HoxA9 transcription factor NANOG transcription factor Nkx2.5 fibroblast growth factor 2 leukemia inhibitory factor LIF protein, human STAT3 protein STAT3 protein, human tamoxifen embryo enzyme activity gene expression germ cell growth rate hormone ligand signaling animal cell Article cell differentiation cell growth cell renewal cellular distribution controlled study ectoderm embryo embryonic stem cell female human human cell in vitro study male mouse nonhuman pluripotent stem cell preimplantation embryo protein expression protein localization protein phosphorylation signal transduction animal cytology drug effects embryonic stem cell feeder cell fibroblast gene expression regulation genetics metabolism physiology pluripotent stem cell protein microarray Rodentia Animals Embryonic Stem Cells Feeder Cells Fibroblast Growth Factor 2 Fibroblasts Gene Expression Regulation Humans Leukemia Inhibitory Factor Mice Pluripotent Stem Cells Protein Array Analysis Signal Transduction STAT3 Transcription Factor Tamoxifen
Issue Date:	2015
Publisher:	Nature Publishing Group
Citation:	Chen, H, Aksoy, I, Gonnot, F, Osteil, P, Aubry, M, Hamela, C, Rognard, C, Hochard, A, Voisin, S, Fontaine, E, Mure, M, Afanassieff, M, Cleroux, E, Guibert, S, Chen, J, Vallot, C, Acloque, H, Genthon, C, Donnadieu, C, De Vos, J, Sanlaville, D, Guérin, J.-F, Weber, M, Stanton, L.W, Rougeulle, C, Pain, B, Bourillot, P.-Y, Savatier, P (2015). Reinforcement of STAT3 activity reprogrammes human embryonic stem cells to naive-like pluripotency. Nature Communications 6 : 7095. ScholarBank@NUS Repository. https://doi.org/10.1038/ncomms8095
Rights:	Attribution 4.0 International
Abstract:	Leukemia inhibitory factor (LIF)/STAT3 signalling is a hallmark of naive pluripotency in rodent pluripotent stem cells (PSCs), whereas fibroblast growth factor (FGF)-2 and activin/nodal signalling is required to sustain self-renewal of human PSCs in a condition referred to as the primed state. It is unknown why LIF/STAT3 signalling alone fails to sustain pluripotency in human PSCs. Here we show that the forced expression of the hormone-dependent STAT3-ER (ER, ligand-binding domain of the human oestrogen receptor) in combination with 2i/LIF and tamoxifen allows human PSCs to escape from the primed state and enter a state characterized by the activation of STAT3 target genes and long-term self-renewal in FGF2- and feeder-free conditions. These cells acquire growth properties, a gene expression profile and an epigenetic landscape closer to those described in mouse naive PSCs. Together, these results show that temporarily increasing STAT3 activity is sufficient to reprogramme human PSCs to naive-like pluripotent cells. © 2015 Macmillan Publishers Limited. All rights reserved.
Source Title:	Nature Communications
URI:	https://scholarbank.nus.edu.sg/handle/10635/180470
ISSN:	2041-1723
DOI:	10.1038/ncomms8095
Rights:	Attribution 4.0 International
Appears in Collections:	Elements Staff Publications

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