Microsystems & Nanoengineering (Nov 2023)

Modeling gut neuro-epithelial connections in a novel microfluidic device

  • Jose M. de Hoyos-Vega,
  • Xi Yu,
  • Alan M. Gonzalez-Suarez,
  • Sisi Chen,
  • Arnaldo Mercado-Perez,
  • Eugene Krueger,
  • Jeric Hernandez,
  • Yaroslav Fedyshyn,
  • Brooke R. Druliner,
  • David R. Linden,
  • Arthur Beyder,
  • Alexander Revzin

DOI
https://doi.org/10.1038/s41378-023-00615-y
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 12

Abstract

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Abstract The intestinal lumen is filled with diverse chemical and physical stimuli. Intestinal epithelial cells sense these stimuli and signal to enteric neurons which coordinate a range of physiologic processes required for normal digestive tract function. Yet, the neuro-epithelial connections remain poorly resolved, in part because the tools for orchestrating interactions between these cellular compartments are lacking. We describe the development of a two-compartment microfluidic device for co-culturing enteric neurons with intestinal epithelial cells. The device contains epithelial and neuronal compartments connected by microgrooves. The epithelial compartment was designed for cell seeding via injection and confinement of intestinal epithelial cells derived from human intestinal organoids. We demonstrated that organoids planarized effectively and retained epithelial phenotype for over a week. In the second chamber we dissociated and cultured intestinal myenteric neurons including intrinsic primary afferent neurons (IPANs) from transgenic mice that expressed the fluorescent protein tdTomato. IPANs extended projections into microgrooves, surrounded and frequently made contacts with epithelial cells. The density and directionality of neuronal projections were enhanced by the presence of epithelial cells in the adjacent compartment. Our microfluidic device represents a platform that may, in the future, be used to dissect structure and function of neuro-epithelial connections in the gut and other organs (skin, lung, bladder, and others) in health and disease.