Distinct Phenotypes of Human Intrahepatic and Extrahepatic Bile duct Organoids and their Applications for Biliary Disease Modeling
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ABSTRACT: Bile draining by the bile duct system is paramount for good liver function. Diseases which compromise the integrity of the biliary tree are common and often life-threatening. Both intrahepatic and extrahepatic bile ducts contain distinct (stem) cell niches which are important for bile duct homeostasis and repair. A detailed characterization of the cell populations in the extrahepatic bile ducts has been lacking due to the inability of cell culture propagation. The aim of this study was to expand extrahepatic bile duct stem cells using the organoid culture system developed for intrahepatic bile duct cells. Extrahepatic bile duct (eBD)-organoids and intrahepatic (iBD) liver-derived organoids were initiated from paired biopsies of human common bile duct and liver tissue. Organoids of both origins were characterized on the basis of morphology and growth characteristics, gene and protein expression profiles, and their differentiation capacity towards mature cholangiocytes and hepatocytes. Although eBD organoids were very similar to iBD liver organoids, some differences in growth rate, organoid size and gene and protein expression were found. More strikingly, although both organoids could be differentiated towards a mature cholangiocyte phenotype, only iBD organoids can be directed to a mature hepatocyte phenotype. Of note, eBD organoids derived from a cystic fibrosis (CF) patient, harboring the same CFTR mutation (dF508-R1162X) as found in the patient, showed normal Ca2+-dependent Cl- channel and MDR-1 transporter activity but no CFTR channel activity. In conclusion, we here show feasibility of expanding eBD organoids with distinct properties when compared to iBD organoids. These eBD organoids may provide an excellent model for studying bile duct diseases and regenerative medicine.
PROVIDER: EGAS00001003792 | EGA |
REPOSITORIES: EGA
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