Principles of signaling pathway modulation for enhancing human naive pluripotency induction

Summary Isolating human MEK/ERK signaling-independent pluripotent stem cells (PSCs) with naive pluripotency characteristics while maintaining differentiation competence and (epi)genetic integrity remains challenging. Here, we engineer reporter systems that allow the screening for defined conditions that induce molecular and functional features of human naive pluripotency. Synergistic inhibition of WNT/β-CATENIN, protein kinase C (PKC), and SRC signaling consolidates the induction of teratoma-competent naive human PSCs, with the capacity to differentiate into trophoblast stem cells (TSCs) and extraembryonic naive endodermal (nEND) cells in vitro. Divergent signaling and transcriptional requirements for boosting naive pluripotency were found between mouse and human. P53 depletion in naive hPSCs increased their contribution to mouse-human cross-species chimeric embryos upon priming and differentiation. Finally, MEK/ERK inhibition can be substituted with the inhibition of NOTCH/RBPj, which induces alternative naive-like hPSCs with a diminished risk for deleterious global DNA hypomethylation. Our findings set a framework for defining the signaling foundations of human naive pluripotency.
Graphical abstract
Highlights • Inhibition of SRC, PKC, and WNT consolidates human naive pluripotency induction • Competitiveness of p53 depleted human PSCs in cross-species chimeric embryos • Opposing net effect for ACTIVIN and WNT on mouse versus human naive pluripotency • 2i and ERKi independent alternative human naive-like PSC conditions
Engineered systems were used to screen for conditions that enable robust induction of human naive PSCs without the obligation for exogenous transgenes or feeder cells. The latter allowed defining the signaling and transcriptional foundations of human naive PSCs with enhanced (epi)genetic stability and competence for differentiation into all lineages.