Litcius/Paper detail

Intestinal organoids in coculture: redefining the boundaries of gut mucosa ex vivo modeling

Viktoria Hentschel, Thomas Seufferlein, Milena Armacki

2021American Journal of Physiology-Gastrointestinal and Liver Physiology28 citationsDOIOpen Access PDF

Abstract

All-time preservation of an intact mucosal barrier is crucial to ensuring intestinal homeostasis and, hence, the organism's overall health maintenance. This complex process relies on an equilibrated signaling system between the intestinal epithelium and numerous cell populations inhabiting the gut mucosa. Any perturbations of this delicate cross talk, particularly regarding the immune cell compartment and microbiota, may sustainably debilitate the intestinal barrier function. As a final joint event, a critical rise in epithelial permeability facilitates the exposure of submucosal immunity to microbial antigens, resulting in uncontrolled inflammation, collateral tissue destruction, and dysbiosis. Organoid-derived intestinal coculture models have established themselves as convenient tools to reenact such pathophysiological events, explore interactions between selected cell populations, and assess their roles with a central focus on intestinal barrier recovery and stabilization.

Topics & Concepts

OrganoidCell biologyIntestinal epitheliumDysbiosisBiologyIntestinal mucosaImmune systemEpitheliumHomeostasisModel organismOrganismInflammationBarrier functionCompartment (ship)Stem cellImmunityGut floraImmunologyMedicineBiochemistryGeneticsOceanographyGeologyInternal medicineGeneCancer Cells and MetastasisGut microbiota and health3D Printing in Biomedical Research