Netrin-1 promotes naive pluripotency through Neo1 and Unc5b co-regulation of 
Wnt and MAPK signalling

Huyghe, Aurélia; Furlan, Giacomo; Ozmadenci, Duygu; Galonska, Christina; Charlton, Jocelyn; Gaume, Xavier; Combémorel, Noémie; Riemenschneider, Christina; Allègre, Nicolas; Zhang, Jenny; Wajda, Pauline; Rama, Nicolas; Vieugué, Pauline; Durand, Isabelle; Brevet , Marie; Gadot, Nicolas; Imhof, Thomas; Merrill , Bradley J.; Koch, Manuel; Mehlen, Patrick; Chazaud, Claire; Meissner, Alexander; Lavial , Fabrice

doi:10.1038/s41556-020-0483-2

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Netrin-1 promotes naive pluripotency through Neo1 and Unc5b co-regulation of Wnt and MAPK signalling

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Galonska, Christina
Dept. of Genome Regulation (Head: Alexander Meissner), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Charlton, Jocelyn
Dept. of Genome Regulation (Head: Alexander Meissner), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Riemenschneider, Christina
Dept. of Genome Regulation (Head: Alexander Meissner), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Meissner, Alexander
Dept. of Genome Regulation (Head: Alexander Meissner), Max Planck Institute for Molecular Genetics, Max Planck Society;

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Zitation

Huyghe, A., Furlan, G., Ozmadenci, D., Galonska, C., Charlton, J., Gaume, X., et al. (2020). Netrin-1 promotes naive pluripotency through Neo1 and Unc5b co-regulation of Wnt and MAPK signalling. Nature Cell Biology, 22(4), 389-400. doi:10.1038/s41556-020-0483-2.

Zitierlink: https://hdl.handle.net/21.11116/0000-0006-0A48-F

Zusammenfassung

In mouse embryonic stem cells (mESCs), chemical blockade of Gsk3α/β and Mek1/2 (2i) instructs a self-renewing ground state whose endogenous inducers are unknown. Here we show that the axon guidance cue Netrin-1 promotes naive pluripotency by triggering profound signalling, transcriptomic and epigenetic changes in mESCs. Furthermore, we demonstrate that Netrin-1 can substitute for blockade of Gsk3α/β and Mek1/2 to sustain self-renewal of mESCs in combination with leukaemia inhibitory factor and regulates the formation of the mouse pluripotent blastocyst. Mechanistically, we reveal how Netrin-1 and the balance of its receptors Neo1 and Unc5B co-regulate Wnt and MAPK pathways in both mouse and human ESCs. Netrin-1 induces Fak kinase to inactivate Gsk3α/β and stabilize β-catenin while increasing the phosphatase activity of a Ppp2r2c-containing Pp2a complex to reduce Erk1/2 activity. Collectively, this work identifies Netrin-1 as a regulator of pluripotency and reveals that it mediates different effects in mESCs depending on its receptor dosage, opening perspectives for balancing self-renewal and lineage commitment.