Large-scale Generation of Functional and Transplantable Hepatocytes and Cholangiocytes from Human Endoderm Stem Cells

Sisi Feng; Jiaying Wu; Wei‐Lin Qiu; Yang Li; Xiaogang Deng; Ying Zhou; Yabin Chen; Li Xiao; Lei Yu; Hongsheng Li; Ziran Xu; Yini Xiao; Xiongzhao Ren; Ludi Zhang; Chenhua Wang; Zhen Sun; Jinglin Wang; Xiaoyan Ding; Yue‐Lei Chen; Paul Gadue; Guoyu Pan; Mina Ogawa; Shinichiro Ogawa; Jie Na; Peilin Zhang; Lijian Hui; Hao Yin; Luonan Chen; Cheng‐Ran Xu; Xin Cheng

doi:10.1016/j.celrep.2020.108455

Large-scale Generation of Functional and Transplantable Hepatocytes and Cholangiocytes from Human Endoderm Stem Cells

Sisi Feng(Center for Excellence in Molecular Cell Science), Jiaying Wu(Center for Excellence in Molecular Cell Science), Wei‐Lin Qiu(Peking University), Yang Li(Peking University), Xiaogang Deng(Center for Excellence in Molecular Cell Science), Ying Zhou(Center for Excellence in Molecular Cell Science), Yabin Chen(ShanghaiTech University), Li Xiao(Center for Excellence in Molecular Cell Science), Lei Yu(Fudan University), Hongsheng Li(Center for Excellence in Molecular Cell Science), Ziran Xu(Peking University), Yini Xiao(Center for Excellence in Molecular Cell Science), Xiongzhao Ren(Center for Excellence in Molecular Cell Science), Ludi Zhang(Center for Excellence in Molecular Cell Science), Chenhua Wang(Center for Excellence in Molecular Cell Science), Zhen Sun(ShanghaiTech University), Jinglin Wang(Nanjing Drum Tower Hospital), Xiaoyan Ding(Center for Excellence in Molecular Cell Science), Yue‐Lei Chen(ShanghaiTech University), Paul Gadue(Children's Hospital of Philadelphia), Guoyu Pan(Chinese Academy of Sciences), Mina Ogawa(University Health Network), Shinichiro Ogawa(University Health Network), Jie Na(Tsinghua University), Peilin Zhang(Second Military Medical University), Lijian Hui(Center for Excellence in Molecular Cell Science), Hao Yin(Second Military Medical University), Luonan Chen(Chinese Academy of Sciences), Cheng‐Ran Xu(Peking University), Xin Cheng(Center for Excellence in Molecular Cell Science)

Cell Reports

December 1, 2020

10.1016/j.celrep.2020.108455

Cited by 42Open Access

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Abstract

The ever-increasing therapeutic and pharmaceutical demand for liver cells calls for systems that enable mass production of hepatic cells. Here we describe a large-scale suspension system that uses human endoderm stem cells (hEnSCs) as precursors to generate functional and transplantable hepatocytes (E-heps) or cholangiocytes (E-chos). hEnSC-derived hepatic populations are characterized by single-cell transcriptomic analyses and compared with hESC-derived counterparts, in-vitro-maintained or -expanded primary hepatocytes and adult cells, which reveals that hepatic differentiation of hEnSCs recapitulates in vivo development and that the heterogeneities of the resultant populations can be manipulated by regulating the EGF and MAPK signaling pathways. Functional assessments demonstrate that E-heps and E-chos possess properties comparable with adult counterparts and that, when transplanted intraperitoneally, encapsulated E-heps were able to rescue rats with acute liver failure. Our study lays the foundation for cell-based therapeutic agents and in vitro applications for liver diseases.

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