Oldak, Bernardo and Wildschutz, Emilie and Bondarenko, Vladyslav and Comar, Mehmet-Yunus and Zhao, Cheng and Aguilera-Castrejon, Alejandro and Tarazi, Shadi and Viukov, Sergey and Pham, Thi Xuan Ai and Ashouokhi, Shahd and Lokshtanov, Dmitry and Roncato, Francesco and Ariel, Eitan and Rose, Max and Livnat, Nir and Shani, Tom and Joubran, Carine and Cohen, Roni and Addadi, Yoseph and Chemla, Muriel and Kedmi, Merav and Keren-Shaul, Hadas and Pasque, Vincent and Petropoulos, Sophie and Lanner, Fredrik and Novershtern, Noa and Hanna, Jacob H. (2023) Complete human day 14 post-implantation embryo models from naive ES cells. Nature, 622 (7983). pp. 562-573. ISSN 0028-0836
s41586-023-06604-5.pdf - Published Version
Download (62MB)
Abstract
The ability to study human post-implantation development remains limited owing to ethical and technical challenges associated with intrauterine development after implantation1. Embryo-like models with spatially organized morphogenesis and structure of all defining embryonic and extra-embryonic tissues of the post-implantation human conceptus (that is, the embryonic disc, the bilaminar disc, the yolk sac, the chorionic sac and the surrounding trophoblast layer) remain lacking1,2. Mouse naive embryonic stem cells have recently been shown to give rise to embryonic and extra-embryonic stem cells capable of self-assembling into post-gastrulation structured stem-cell-based embryo models with spatially organized morphogenesis (called SEMs)3. Here we extend those findings to humans using only genetically unmodified human naive embryonic stem cells (cultured in human enhanced naive stem cell medium conditions)4. Such human fully integrated and complete SEMs recapitulate the organization of nearly all known lineages and compartments of post-implantation human embryos, including the epiblast, the hypoblast, the extra-embryonic mesoderm and the trophoblast layer surrounding the latter compartments. These human complete SEMs demonstrated developmental growth dynamics that resemble key hallmarks of post-implantation stage embryogenesis up to 13–14 days after fertilization (Carnegie stage 6a). These include embryonic disc and bilaminar disc formation, epiblast lumenogenesis, polarized amniogenesis, anterior–posterior symmetry breaking, primordial germ-cell specification, polarized yolk sac with visceral and parietal endoderm formation, extra-embryonic mesoderm expansion that defines a chorionic cavity and a connecting stalk, and a trophoblast-surrounding compartment demonstrating syncytium and lacunae formation. This SEM platform will probably enable the experimental investigation of previously inaccessible windows of human early post implantation up to peri-gastrulation development.
Item Type: | Article |
---|---|
Subjects: | Library Keep > Multidisciplinary |
Depositing User: | Unnamed user with email support@librarykeep.com |
Date Deposited: | 14 Nov 2023 07:32 |
Last Modified: | 14 Nov 2023 07:32 |
URI: | http://archive.jibiology.com/id/eprint/1896 |