Primary mature hepatocytes (MHs) or their progenitor cells are candidate cell sources for cell transplantation therapy in severe liver diseases. However, stable culture of these cells or generation of equivalent cells from pluripotent stem cells has been limited. Using a cocktail of small molecules that we previously found useful in stable culture of multiple types of stem/progenitor cells, we recently established a novel method to generate bipotent liver progenitor cells, named chemically induced liver progenitors (CLiPs), from adult rat MHs. Here, we describe a detailed protocol for the induction of rat CLiPs. We first describe the method to isolate primary rat MHs and then describe how to induce CLiPs from these MHs. In addition, we describe a method to evaluate the bipotentiality of generated CLiPs to differentiate into hepatocytes and biliary epithelial cells. We also describe how to establish stable CLiPs through long-term culture with detailed example data. Primary CLiPs can be generated within 2 weeks, and stable CLiPs, which undergo 10 passages, can be established within 2.5-4 months with batch-to-batch variability.
Keywords: Biliary epithelial cell; Bipotentiality; CLiP; Hepatocyte; Liver progenitor cell; Reprogramming.
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