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  2. Hepatic Polarized Differentiation Promoted the Maturity and Liver Function of Human Embryonic Stem Cell-Derived Hepatocytes via Activating Hippo and AMPK Signaling Pathways

Hepatic Polarized Differentiation Promoted the Maturity and Liver Function of Human Embryonic Stem Cell-Derived Hepatocytes via Activating Hippo and AMPK Signaling Pathways

  • Cells. 2022 Dec 18;11(24):4117. doi: 10.3390/cells11244117.
Jue Wang 1 Ping Situ 1 2 Sen Chen 1 Haibin Wu 1 Xueyan Zhang 1 Shoupei Liu 1 Yiyu Wang 1 Jinghe Xie 1 2 Honglin Chen 1 3 4 5 Yuyou Duan 1 3 4 5
Affiliations

Affiliations

  • 1 Laboratory of Stem Cells and Translational Medicine, Institutes for Life Sciences, School of Medicine, South China University of Technology, Guangzhou 510006, China.
  • 2 School of Biomedical Sciences and Engineering, Guangzhou International Campus, South China University of Technology, Guangzhou 510180, China.
  • 3 National Engineering Research Center for Tissue Restoration and Reconstruction, South China University of Technology, Guangzhou 510180, China.
  • 4 Guangdong Provincial Key Laboratory of Biomedical Engineering, South China University of Technology, Guangzhou 510180, China.
  • 5 Key Laboratory of Biomedical Materials and Engineering of the Ministry of Education, South China University of Technology, Guangzhou 510180, China.
Abstract

Hepatocytes exhibit a multi-polarized state under the in vivo physiological environment, however, human embryonic stem cell-derived hepatocytes (hEHs) rarely exhibit polarity features in a two-dimensional (2D) condition. Thus, we hypothesized whether the polarized differentiation might enhance the maturity and liver function of hEHs. In this study, we obtained the polarized hEHs (phEHs) by using 2D differentiation in conjunct with employing transwell-based polarized culture. Our results showed that phEHs directionally secreted albumin, urea and bile acids, and afterward, the apical membrane and blood-bile barrier (BBIB) were identified to form in phEHs. Moreover, phEHs exhibited a higher maturity and capacitity of cellular secretory and drug metabolism than those of non-phEHs. Through transcriptome analysis, it was found that the polarized differentiation induced obvious changes in gene expression profiles of cellular adhesion and membrane transport in hEHs. Our further investigation revealed that the activation of Hippo and AMPK signaling pathways made contributions to the regulation of function and cellular polarity in phEHs, further verifying that the liver function of hEHs was closely related with their polarization state. These results not only demonstrated that the polarized differentiation enhanced the maturity and liver function of hEHs, but also identified the molecular targets that regulated the polarization state of hEHs.

Keywords

apical membrane; hepatic polarized differentiation; hepatocyte polarity; human embryonic stem cells-derived hepatocytes.

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