Complete human day 14 post-implantation embryo models from naïve ES cells.
Bernardo OldakEmilie WildschutzVladyslav BondarenkoMehmet-Yunus ComarCheng ZhaoAlejandro Aguilera-CastrejonShadi TaraziSergey ViukovThi Xuan Ai PhamShahd AshouokhiDmitry LokshtanovFrancesco RoncatoEitan ArielMax RoseNir LivnatTom ShaniCarine JoubranRoni CohenYoseph AddadiMuriel ChemlaMerav KedmiHadas Keren-ShaulVincent PasqueSophie PetropoulosFredrik LannerNoa NovershternJacob H HannaPublished in: Nature (2023)
The ability to study human post-implantation development remains limited due to ethical and technical challenges associated with intrauterine development after implantation 1 . Embryo-like models with spatially organized morphogenesis of all defining embryonic and extra-embryonic tissues of the post-implantation human conceptus (i.e., embryonic disk, bilaminar disk, yolk- and chorionic sacs, surrounding trophoblasts) remain lacking 2 . Mouse naïve embryonic stem cells (ESCs) have recently been shown to give rise to embryonic and extra-embryonic stem cells capable of self-assembling into post-gastrulation mouse Structured Stem cell-based Embryo Models with spatially organized morphogenesis (SEMs) 3 . Here, we extend these findings to humans, while using only genetically unmodified human naïve ESCs (in HENSM conditions) 4 . Such human fully integrated SEMs recapitulate the organization of nearly all known lineages and compartments of post-implantation human embryos including epiblast, hypoblast, extra-embryonic mesoderm, and trophoblast surrounding the latter layers. These human complete SEMs demonstrated developmental growth dynamics that resemble key hallmarks of post-implantation stage embryogenesis up to 13-14 days post-fertilization (dpf) (Carnegie stage 6a). This includes embryonic disk and bilaminar disk formation, epiblast lumenogenesis, polarized amniogenesis, anterior-posterior symmetry breaking, PGC specification, polarized yolk sac with visceral and parietal endoderm, extra-embryonic mesoderm expansion that defines a chorionic cavity and a connecting stalk, a trophoblast surrounding compartment demonstrating syncytium and lacunae formation. This SEM platform may enable the experimental interrogation of previously inaccessible windows of human early post-implantation up to peri-gastrulation development.