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Published July 2020 | Supplemental Material + Submitted + Published
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De novo enteric neurogenesis in post-embryonic zebrafish from Schwann cell precursors rather than resident cell types

El-Nachef, Wael Noor
Bronner, Marianne E. ORCID icon
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Abstract

The enteric nervous system (ENS) is essential for normal gastrointestinal function. Although the embryonic origin of enteric neurons from the neural crest is well established, conflicting evidence exists regarding postnatal enteric neurogenesis. Here, we address this by examining the origin of de novo neurogenesis in the post-embryonic zebrafish ENS. Although new neurons are added during growth and after injury, the larval intestine appears to lack resident neurogenic precursors or classical glia marked by sox10, plp1a, gfap or s100. Rather, lineage tracing with lipophilic dye or inducible Sox10-Cre suggests that post-embryonic enteric neurons arise from trunk neural crest-derived Schwann cell precursors that migrate from the spinal cord into the intestine. Furthermore, the 5-HT₄ receptor agonist prucalopride increases enteric neurogenesis in normal development and after injury. Taken together, the results suggest that despite the lack of resident progenitors in the gut, post-embryonic enteric neurogenesis occurs via gut-extrinsic Schwann cell precursors during development and injury, and is promoted by serotonin receptor agonists. The absence of classical glia in the ENS further suggests that neural crest-derived enteric glia might have evolved after the teleost lineage.

Additional Information

© 2020 Published by The Company of Biologists Ltd. Received November 30, 2019; Accepted June 3, 2020; Published 13 July 2020. We thank the Beckman Institute Biological Imaging Facility of Caltech for technical assistance with microscopy experiments. For generously supplying transgenic fish lines, we thank the Ian Shepherd Lab (Phox2b-kaede), the Jua-Nian Chen Lab (sox10:GAL4-UAS-Cre and ubi:switch) and the Christiane Nüsslein-Volhard Lab (cmlc:GFP-sox10:ERT2-Cre). Special thanks to Megan Martik and Can Li for sharing ISH probes (Sox10, Phox2bb). We also recognize Claire Hu (California Institute of Technology) for assistance with IHC. The authors declare no competing or financial interests. Author contributions: Conceptualization: W.N.E.-N., M.E.B.; Methodology: W.N.E.-N., M.E.B.; Validation: W.N.E.-N.; Formal analysis: W.N.E.-N., M.E.B.; Investigation: W.N.E.-N.; Resources: W.N.E.-N., M.E.B.; Data curation: W.N.E.-N., M.E.B.; Writing - original draft: W.N.E.-N.; Writing - review & editing: W.N.E.-N., M.E.B.; Visualization: W.N.E.-N.; Supervision: M.E.B.; Project administration: M.E.B.; Funding acquisition: M.E.B. This work was supported by the National Institutes of Health (NIH R35NS111564 to M.E.B. and NIH R01NS108500 to M.E.B.). Deposited in PMC for release after 12 months.

Attached Files

Published - dev186619.full.pdf

Submitted - 2020.06.01.127712v1.full.pdf

Supplemental Material - DEV186619supp.pdf

Supplemental Material - media-1.docx

Supplemental Material - media-2.mp4

Supplemental Material - media-3.mp4

Supplemental Material - media-4.mp4

Supplemental Material - media-5.avi

Supplemental Material - media-6.avi

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