[PDF][PDF] Retinoic acid accelerates the specification of enteric neural progenitors from in-vitro-derived neural crest

TJR Frith, A Gogolou, JOS Hackland, ZA Hewitt… - Stem cell reports, 2020 - cell.com
TJR Frith, A Gogolou, JOS Hackland, ZA Hewitt, HD Moore, I Barbaric, N Thapar, AJ Burns…
Stem cell reports, 2020cell.com
The enteric nervous system (ENS) is derived primarily from the vagal neural crest, a
migratory multipotent cell population emerging from the dorsal neural tube between somites
1 and 7. Defects in the development and function of the ENS cause a range of enteric
neuropathies, including Hirschsprung disease. Little is known about the signals that specify
early ENS progenitors, limiting progress in the generation of enteric neurons from human
pluripotent stem cells (hPSCs) to provide tools for disease modeling and regenerative …
Summary
The enteric nervous system (ENS) is derived primarily from the vagal neural crest, a migratory multipotent cell population emerging from the dorsal neural tube between somites 1 and 7. Defects in the development and function of the ENS cause a range of enteric neuropathies, including Hirschsprung disease. Little is known about the signals that specify early ENS progenitors, limiting progress in the generation of enteric neurons from human pluripotent stem cells (hPSCs) to provide tools for disease modeling and regenerative medicine for enteric neuropathies. We describe the efficient and accelerated generation of ENS progenitors from hPSCs, revealing that retinoic acid is critical for the acquisition of vagal axial identity and early ENS progenitor specification. These ENS progenitors generate enteric neurons in vitro and, following in vivo transplantation, achieved long-term colonization of the ENS in adult mice. Thus, hPSC-derived ENS progenitors may provide the basis for cell therapy for defects in the ENS.
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