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Mouse pancreatic ductal organoid culture as a relevant model to study exocrine pancreatic ion secretion. | LitMetric

AI Article Synopsis

  • The study investigates the secretory processes of pancreatic epithelial cells, noting that primary cells are hard to study and pancreatic organoid cultures might offer a better model for research.
  • Researchers compared gene expression, morphology, and functionality between primary isolated pancreatic ductal cells and organoids, finding significant similarities in ion channel and transporter expression between the two.
  • The results indicate that pancreatic organoids mimic primary ductal cell activities, making them a promising model for studying pancreatic ion transport and developing treatments for conditions like cystic fibrosis and chronic pancreatitis.

Article Abstract

Pancreatic exocrine secretory processes are challenging to investigate on primary epithelial cells. Pancreatic organoid cultures may help to overcome shortcomings of the current models, however the ion secretory processes in pancreatic organoids-and therefore their physiological relevance or their utility in disease modeling-are not known. To answer these questions, we provide side-by-side comparison of gene expression, morphology, and function of epithelial cells in primary isolated pancreatic ducts and organoids. We used mouse pancreatic ductal fragments for experiments or were grown in Matrigel to obtain organoid cultures. Using PCR analysis we showed that gene expression of ion channels and transporters remarkably overlap in primary ductal cells and organoids. Morphological analysis with scanning electron microscopy revealed that pancreatic organoids form polarized monolayers with brush border on the apical membrane. Whereas the expression and localization of key proteins involved in ductal secretion (cystic fibrosis transmembrane conductance regulator, Na/H exchanger 1 and electrogenic Na/HCO cotransporter 1) are equivalent to the primary ductal fragments. Measurements of intracellular pH and Cl levels revealed no significant difference in the activities of the apical Cl/HCO exchange, or in the basolateral Na dependent HCO uptake. In summary we found that ion transport activities in the mouse pancreatic organoids are remarkably similar to those observed in freshly isolated primary ductal fragments. These results suggest that organoids can be suitable and robust model to study pancreatic ductal epithelial ion transport in health and diseases and facilitate drug development for secretory pancreatic disorders like cystic fibrosis, or chronic pancreatitis.

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Source
http://dx.doi.org/10.1038/s41374-019-0300-3DOI Listing

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