Goblet cells mechanically breach the epithelial barrier in gut homeostasis

Denis Krndija (Centre de Biologie Intégrative, Toulouse)

15 mai 2025

Séminaire

Infos pratiques

12:00 - 13:00

Salle Rosalind Franklin

Professionnel de recherche

Accès mobilité réduite

The intestinal epithelium has to maintain a tight barrier to the harsh luminal environment. The absorptive enterocytes have a polygonal and columnar shape, while mucus-producing goblet cells have a round apical cell shape and a bulky body, raising the question of how epithelial integrity is maintained around these cells. Here, we show that goblet cells induce tight junction fractures between neighboring enterocytes under homeostatic conditions in vivo, which are exacerbated during goblet cell hypertrophy, increasing gut permeability. We demonstrate that these fractures arise from a two-component mechanical interaction: goblet cells push and deform adjacent enterocytes, which rupture depending on tissue rheology controlled by myosin II. These findings reveal that the mechanical interplay between goblet cells and neighboring enterocytes is critical for intestinal epithelial barrier integrity.

Denis Krndija is invited by Katia Ancelin and Julie Chaumeil.

Selected publications

Creff J, He Y, Bernat-Fabre S, Buscail E, Neuvendel S, Krishnakumar, Mangeat T, Xue S-L*, Krndija D*. Goblet cells mechanically breach the epithelial barrier in gut homeostasis bioRxiv 2025.04.01.646617; doi: https://doi.org/10.1101/2025.04.01.646617. *co-corresponding authors
Pérez-González C, Ceada G, Greco F, Matejčić M, Gómez-González M, Castro M, Menendez A, Kale S, Krndija D, Clark AG, Gannavarapu RV, Alvarez-Varela A, Roca-Cusachs P, Batlle E, Matic Vignjevic D, Arroyo M, Trepat X. Mechanical compartmentalization of the intestinal organoid enables crypt folding and collective cell migration. Nature Cell Biology 2021.
El Marjou F, Jouhanneau C, Krndija D. Targeted Transgenic Mice Using CRISPR/Cas9 Technology. Methods Mol Biol 2021.
Lagoutte E, Villeneuve C, Fraisier V, Krndija D, Deugnier MA, Chavrier P, Rossé C. A new pipeline for pathophysiological analysis of the mammary gland based on organoid transplantation and organ clearing. J Cell Sci 2020.
Krndija D*, Fairhead M. IGF1R undergoes active and directed centripetal transport on filopodia upon receptor activation. Biochem J 2019. *corresponding author
Krndija D*, El Marjou F, Guirao B, Richon S, Leroy O, Bellaiche Y, Hannezo E, Matic Vignjevic D. Active cell migration is critical for steady-state epithelial turnover in the gut. Science 2019. *corresponding author

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