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  • Insulin fine-tunes self-renewal pathways governing naive pluripotency and extra-embryonic endoderm.

Insulin fine-tunes self-renewal pathways governing naive pluripotency and extra-embryonic endoderm.

Nature cell biology (2017-09-26)
Kathryn G V Anderson, William B Hamilton, Fabian V Roske, Ajuna Azad, Teresa E Knudsen, Maurice A Canham, Lesley M Forrester, Joshua M Brickman
ZUSAMMENFASSUNG

Signalling downstream of Activin/Nodal (ActA) and Wnt can induce endoderm differentiation and also support self-renewal in pluripotent cells. Here we find that these apparently contradictory activities are fine-tuned by insulin. In the absence of insulin, the combination of these cytokines supports endoderm in a context-dependent manner. When applied to naive pluripotent cells that resemble peri-implantation embryos, ActA and Wnt induce extra-embryonic primitive endoderm (PrE), whereas when applied to primed pluripotent epiblast stem cells (EpiSC), these cytokines induce gastrulation-stage embryonic definitive endoderm. In naive embryonic stem cell culture, we find that insulin complements LIF signalling to support self-renewal; however, when it is removed, LIF, ActA and Wnt signalling not only induce PrE differentiation, but also support its expansion. Self-renewal of these PrE cultures is robust and, on the basis of gene expression, these cells resemble early blastocyst-stage PrE, a naive endoderm state able to make both visceral and parietal endoderm.

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

SAFC
Insulin, human, rekombinant, dry powder, for research or for further manufacturing use
Sigma-Aldrich
JAK-Inhibitor I, InSolution, ≥98%