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Gene Expr ; 18(1): 51-62, 2018 03 21.
Article in English | MEDLINE | ID: mdl-29212575

ABSTRACT

Hepatocyte to biliary transdifferentiation has been documented in various models of bile duct injury. In this process, mature hepatocytes transform into mature biliary epithelial cells by acquiring biliary phenotypic markers. Several signaling pathways including PI3 kinase, Notch, Hes1, Sox9, and Hippo are shown to be involved in the process. However, whether Oct4 is involved in hepatocyte to biliary transdifferentiation is unknown. We investigated the role of Oct4 in hepatocyte to biliary transdifferentiation utilizing an in vitro organoid culture system as a model of transdifferentiation. Oct4 was inhibited using adenovirus containing Oct4 shRNA. Hepatocyte-specific HNF-4α and biliary-specific HNF-1ß and CK19 expression were assessed to gauge the extent of transdifferentiation. Oct4 was induced during hepatocyte to biliary transdifferentiation. Oct4 inhibition significantly downregulated the appearance of biliary cells from hepatocytes. This was accompanied by a significant downregulation of signaling pathways including Notch, Sox9, and Hippo. Our findings suggest that Oct4 is crucial for hepatocyte to biliary transdifferentiation and maturation and that it acts upstream of Notch, Sox9, and Hippo signaling in this model. This finding identifies new signaling through Oct4 in plasticity between hepatocytes and biliary epithelial cells, which can be potentially utilized to identify new strategies in chronic biliary diseases.


Subject(s)
Cell Transdifferentiation , Hepatocytes/metabolism , Octamer Transcription Factor-3/metabolism , Animals , Bile Ducts/cytology , Cells, Cultured , Hepatocyte Nuclear Factors/genetics , Hepatocyte Nuclear Factors/metabolism , Hepatocytes/cytology , Male , Octamer Transcription Factor-3/genetics , Organoids/cytology , Organoids/metabolism , Rats , Rats, Inbred F344 , Receptors, Notch/genetics , Receptors, Notch/metabolism , SOX9 Transcription Factor/genetics , SOX9 Transcription Factor/metabolism , Signal Transduction
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