Transgene-free generation of mouse post-gastrulation whole embryo models solely from naive ESCs and iPSCs

Abstract

The generation of post-gastrulation stem cell-derived mouse embryo models (SEMs) exclusively from naive embryonic stem cells (nESCs) has underscored their ability to give rise to embryonic and extra-embryonic lineages. However, existing protocols for mouse SEMs rely on the separate induction of extra-embryonic lineages and on ectopic expression of transcription factors to induce nESC differentiation into trophectoderm (TE) or primitive endoderm (PrE). Here, we demonstrate that mouse nESCs and naive induced pluripotent stem cells (niPSCs) can be simultaneously co-induced, via signaling pathway modulation, to generate PrE and TE extra-embryonic cells that self-organize into embryonic day (E) 8.5-E8.75 transgene-free (TF) SEMs. We also devised an alternative condition (AC) naive media that in vitro stabilizes TF-SEM-competent OCT4+/NANOG+ nESC colonies that co-express antagonistic CDX2 and/or GATA6 extra-embryonic fate master regulators and self-renew while remaining poised for TE and PrE differentiation, respectively. These findings improve mouse SEM strategies and shed light on amplifying an inherent and dormant extra-embryonic plasticity of mouse naive pluripotent cells in vitro.

Keywords: chemical reprogramming; embryo models; ex utero embryo culture; extra-embryonic lineages; naive pluripotency; primitive endoderm; synthetic embryology; trophoblast stem cells.