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Human Enteric Glia Diversity in Health and Disease: New Avenues for the Treatment of Hirschsprung Disease

Jonathan D. Windster, Naomi Kakiailatu, Laura E. Kuil, Agne Antanaviciute, Andrea Sacchetti, Katherine C. MacKenzie, Joke Zink, Tsung Wai Kan, Eric M. Bindels, Emma de Pater, Michail Doukas, Thierry van den Bosch, Soheil Yousefi, Tahsin Stefan Barakat, Conny Meeussen, Pim C.E.J. Sloots, René Wijnen, Kaushal Parikh, Werend Boesmans, Veerle Melotte, Robert M.W. Hofstra, Alison Simmons, Maria M. Alves

2024Gastroenterology27 citationsDOIOpen Access PDF

Abstract

Background & Aims The enteric nervous system (ENS), which is composed of neurons and glia, regulates intestinal motility. Hirschsprung disease (HSCR) results from defects in ENS formation; however, although neuronal aspects have been studied extensively, enteric glia remain disregarded. This study aimed to explore enteric glia diversity in health and disease. Methods Full-thickness intestinal resection material from pediatric controls and patients with HSCR was collected, dissociated, and enriched for the ENS population through fluorescence-activated cell sorting. Single-cell RNA sequencing was performed to uncover the transcriptomic diversity of the ENS in controls and HSCR patients, as well as in wild-type and ret mutant zebrafish. Immunofluorescence and fluorescence in situ hybridization confirmed the presence of distinct subtypes. Results Two major enteric glial classes emerged in the pediatric intestine: Schwann-like enteric glia, which are reminiscent of Schwann cells, and enteric glia expressing classical glial markers. Comparative analysis with previously published datasets confirmed our classification and revealed that although classical enteric glia are predominant prenatally, Schwann-like enteric glia become more abundant postnatally. In HSCR, ganglionic segments mirrored controls and aganglionic segments featured only Schwann-like enteric glia. Leveraging the regenerative potential of Schwann cells, we explored therapeutic options using a ret mutant zebrafish. Prucalopride, a serotonin-receptor (5-HT) agonist, induced neurogenesis partially rescuing the HSCR phenotype in ret +/– mutants. Conclusions Two major enteric glial classes were identified in the pediatric intestine, highlighting the significant postnatal contribution of Schwann-like enteric glia to glial heterogeneity. Crucially, these glial subtypes persist in aganglionic segments of patients with HSCR, offering a new target for their treatment using 5-HT agonists.

Topics & Concepts

Hirschsprung's diseaseEnteric nervous systemDiseaseMedicineDiversity (politics)Internal medicinePolitical scienceLawCongenital gastrointestinal and neural anomaliesGastrointestinal motility and disordersGenomic variations and chromosomal abnormalities