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Human surface ectoderm and amniotic ectoderm are sequentially specified according to cellular density

Shota Nakanoh, Kendig Sham, Sabitri Ghimire, Irina Mohorianu, Teresa Rayón, Ludovic Vallier

2024Science Advances12 citationsDOIOpen Access PDF

Abstract

Mechanisms specifying amniotic ectoderm and surface ectoderm are unresolved in humans due to their close similarities in expression patterns and signal requirements. This lack of knowledge hinders the development of protocols to accurately model human embryogenesis. Here, we developed a human pluripotent stem cell model to investigate the divergence between amniotic and surface ectoderms. In the established culture system, cells differentiated into functional amnioblast-like cells. Single-cell RNA sequencing analyses of amnioblast differentiation revealed an intermediate cell state with enhanced surface ectoderm gene expression. Furthermore, when the differentiation started at the confluent condition, cells retained the expression profile of surface ectoderm. Collectively, we propose that human amniotic ectoderm and surface ectoderm are specified along a common nonneural ectoderm trajectory based on cell density. Our culture system also generated extraembryonic mesoderm-like cells from the primed pluripotent state. Together, this study provides an integrative understanding of the human nonneural ectoderm development and a model for embryonic and extraembryonic human development around gastrulation.

Topics & Concepts

EctodermMesodermCell biologyBiologyGastrulationEye developmentEmbryogenesisGerm layerInduced pluripotent stem cellEmbryonic stem cellGeneticsEmbryoGenePhenotypePluripotent Stem Cells ResearchDevelopmental Biology and Gene RegulationSingle-cell and spatial transcriptomics
Human surface ectoderm and amniotic ectoderm are sequentially specified according to cellular density | Litcius