Mouse embryonic stem cells self-organize into trunk-like structures with neural tube and somites
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Abstract
Post-implantation embryogenesis is a highly dynamic process comprising multiple lineage decisions and morphogenetic changes inaccessible to deep analysis in vivo . Mouse embryonic stem cells (mESCs) can form aggregates reflecting the post-occipital embryo ( gastruloids ), but lacking proper morphogenesis. Here we show that embedding of aggregates derived from mESCs in an extracellular matrix compound results in Trunk-Like-Structures (TLS) with a high level of organization comprising a neural tube and somites. Comparative single-cell RNA-seq analysis demonstrates that TLS execute gene-regulatory programs in an embryo-like order, and generate primordial germ cell like cells (PGCLCs). TLS lacking Tbx6 form ectopic neural tubes, mirroring the embryonic mutant phenotype. ESC-derived trunk-like structures thus constitute a novel powerful in vitro platform for investigating lineage decisions and morphogenetic processes shaping the post-implantation embryo.
One sentence summary
A platform for generating trunk-like-structures with precursors of spinal cord, bone and muscle from stem cells in a dish
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Excerpt
What would happen if you culture in vitro self-aggregated gastruloids embedded in Matrigel? Believe it or not, they differentiate into trunk-like structures containing neural tube and somites.
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Excerpt
Creating to understand: mouse embryonic stem cells can be aggregated in specific conditions to mimic formation of embryonic precursors of spinal cord and body segments called somites
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