Objectives: The final stage of liver development is the production of hepatocytes and cholangiocytes (biliary epithelial cells) from bipotent hepatic progenitor cells. We used HepaRG cells, which are bipotent and able to differentiate into both hepatocytes and cholangiocytes, as a model to study the action of a novel lncRNA (lnc-RHL) and its role in the regulation of bipotency leading to hepatocytes and cholangiocytes.
Materials and methods: Differentiation of HepaRG cells was assessed by marker expression and morphology which revealed their ability to differentiate into hepatocytes and cholangiocytes (modelling the behaviour of hepatoblasts in vivo). Using a qRT-PCR and RACE, we cloned a novel lncRNA (lnc-RHL; regulator of hepatic lineages) that is upregulated upon HepaRG differentiation. Using inducible knockdown of lnc-RHL concurrently with differentiation, we show that lnc-RHL is required for proper HepaRG cell differentiation resulting in diminution of the hepatocyte lineage.
Results: Here, we report the discovery of lnc-RHL, a spliced and polyadenylated 670 base lncRNA expressed from the 11q23.3 apolipoprotein gene cluster. lnc-RHL expression is confined to hepatic lineages and is upregulated when bipotent HepaRG cells are caused to differentiate. HepaRG cells made deficient for lnc-RHL have reduced ability to differentiate into hepatocytes, but retain their ability to differentiate into cholangiocytes.
Conclusions: Deficiency for lnc-RHL in HepaRG cells converts them from bipotent progenitor cells to unipotent progenitor cells with impaired ability to yield hepatocytes. We conclude that lnc-RHL is a key regulator of bipotency in HepaRG cells.
Keywords: HepaRG cells; cholangiocyte; differentiation; hepatic progenitor cells; hepatocyte; lnc-RHL; lncRNA.
© 2021 The Authors. Cell Proliferation Published by John Wiley & Sons Ltd.