A biologically relevant in vitro model of hepatic microtissue would be a valuable tool for the preclinical study of pharmacokinetics and metabolism. Although considerable advances have been made in recent years in the establishment of alternative in vitro culture systems that mimic liver tissue, generating an effective liver model remains challenging. Specifically, existing model systems still exhibit limited functions for hepatocellular differentiation potential and cellular complexity. It is essential to improve the in vitro differentiation of liver progenitor cells (LPCs) for disease modeling and preclinical pharmatoxicological research. Here, we describe a rat liver organoid culture system under in vivo-like steady-state flow conditions; this system is capable of controlling the expansion and differentiation of rat liver organoids over 10-15 d. LPCs cultured in medium flow conditions become self-assembled liver organoids that exhibit phenotypic and functional hepato-biliary modeling. In addition, hepatocytes that are differentiated using liver organoids produced albumin and maintained polygonal morphology, which is characteristic of mature hepatocytes.
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