Parallel derivation of isogenic human primed and naive induced pluripotent stem cells

Parallel derivation of isogenic human primed and naive induced pluripotent stem cells

Induced pluripotent stem cells (iPSCs) have considerably impacted human developmental biology and regenerative medicine, notably because they circumvent the use of cells from embryonic origin and offer the potential to generate patient-specific pluripotent stem cells. However, conventional reprogram...

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Veröffentlicht in:Nature Communications 2018-01, Vol.9 (1), p.360-373
Hauptverfasser: Kilens, S, Meistermann, D, Moreno, D, Chariau, C, Gaignerie, A, Reigner, A, Lelievre, Y, Casanova, M, Vallot, C, Nedellec, S, Flippe, L, Firmin, J, Song, Juan, Charpentier, E, Lammers, J, Donnart, A, Deb, W, Bihouee, A, The Milieu Interieur Consortium, Caigenc, C, Pecquer, C, Redon, R, Barrier, P, Bourdon, J, Pasque, Vincent, Soumillon, M, Mikkelsen, T, Rougeulle, C, Fréour, T, David, L
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container_title Nature Communications
container_volume 9
creator Kilens, S
Meistermann, D
Moreno, D
Chariau, C
Gaignerie, A
Reigner, A
Lelievre, Y
Casanova, M
Vallot, C
Nedellec, S
Flippe, L
Firmin, J
Song, Juan
Charpentier, E
Lammers, J
Donnart, A
Deb, W
Bihouee, A
The Milieu Interieur Consortium
Caigenc, C
Pecquer, C
Redon, R
Barrier, P
Bourdon, J
Pasque, Vincent
Soumillon, M
Mikkelsen, T
Rougeulle, C
Fréour, T
David, L
description Induced pluripotent stem cells (iPSCs) have considerably impacted human developmental biology and regenerative medicine, notably because they circumvent the use of cells from embryonic origin and offer the potential to generate patient-specific pluripotent stem cells. However, conventional reprogramming protocols produce developmentally advanced, or primed, human iPSCs (hiPSCs), restricting their use to postimplantation human development modeling. Hence, there is a need for hiPSCs resembling preimplantation naive epiblast. Here, we develop a method to generate naive hiPSCs directly from somatic cells, using OKMS overexpression and specific culture conditions, further enabling parallel generation of their isogenic primed counterparts. We benchmark naive hiPSCs against human preimplantation epiblast and reveal a remarkable concordance in their transcriptome, dependency on mitochondrial respiration and X chromosome status. Collectively, our results are essential for the understanding of pluripotency regulation throughout preimplantation development and generate new opportunities for disease modeling and regenerative medicine.
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title Parallel derivation of isogenic human primed and naive induced pluripotent stem cells
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