Stem Cell-derived Synthetic Embryos Self-assemble by Exploiting Cadherin Codes and Cortical Tension

Overview

Journal Nat Cell Biol

Specialty Cell Biology

Date 2022 Sep 13

PMID 36100738

Authors

Min Bao

Jake Cornwall-Scoones

Estefania Sanchez-Vasquez

Andy L Cox

Dong-Yuan Chen

Joachim De Jonghe

Shahriar Shadkhoo

Florian Hollfelder

Matt Thomson

David M Glover

Magdalena Zernicka-Goetz

Affiliations

Soon will be listed here.

Abstract

Mammalian embryos sequentially differentiate into trophectoderm and an inner cell mass, the latter of which differentiates into primitive endoderm and epiblast. Trophoblast stem (TS), extraembryonic endoderm (XEN) and embryonic stem (ES) cells derived from these three lineages can self-assemble into synthetic embryos, but the mechanisms remain unknown. Here, we show that a stem cell-specific cadherin code drives synthetic embryogenesis. The XEN cell cadherin code enables XEN cell sorting into a layer below ES cells, recapitulating the sorting of epiblast and primitive endoderm before implantation. The TS cell cadherin code enables TS cell sorting above ES cells, resembling extraembryonic ectoderm clustering above epiblast following implantation. Whereas differential cadherin expression drives initial cell sorting, cortical tension consolidates tissue organization. By optimizing cadherin code expression in different stem cell lines, we tripled the frequency of correctly formed synthetic embryos. Thus, by exploiting cadherin codes from different stages of development, lineage-specific stem cells bypass the preimplantation structure to directly assemble a postimplantation embryo.

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