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Human duodenal organoid‐derived monolayers serve as a suitable barrier model for duodenal tissue

Franziska Weiß, D Holthaus, Martin R. Kraft, Christian Klotz, Martina Schneemann, Jörg D. Schulzke, Susanne M. Krug

2022Annals of the New York Academy of Sciences23 citationsDOIOpen Access PDF

Abstract

Usually, duodenal barriers are investigated using intestinal cell lines like Caco-2, which in contrast to native tissue are limited in cell-type representation. Organoids can consist of all intestinal cell types and are supposed to better reflect the in vivo situation. Growing three-dimensionally, with the apical side facing the lumen, application of typical physiological techniques to analyze the barrier is difficult. Organoid-derived monolayers (ODMs) were developed to overcome this. After optimizing culturing conditions, ODMs were characterized and compared to Caco-2 and duodenal tissue. Tight junction composition and appearance were analyzed, and electrophysiological barrier properties, like paracellular and transcellular barrier function and macromolecule permeability, were evaluated. Furthermore, transcriptomic data were analyzed. ODMs had tight junction protein expression and paracellular barrier properties much more resembling the originating tissue than Caco-2. Transcellular barrier was similar between ODMs and native tissue but was increased in Caco-2. Transcriptomic data showed that Caco-2 expressed fewer solute carriers than ODMs and native tissue. In conclusion, while Caco-2 cells differ mostly in transcellular properties, ODMs reflect trans- and paracellular properties of the originating tissue. If cultured under optimized conditions, ODMs possess reproducible functionality, and the variety of different cell types makes them a suitable model for human tissue-specific investigations.

Topics & Concepts

Paracellular transportTranscellularTight junctionOrganoidCell biologyChemistryCaco-2BiophysicsBiologyCellPermeability (electromagnetism)BiochemistryMembraneBarrier Structure and Function StudiesWnt/β-catenin signaling in development and cancerCancer Cells and Metastasis