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VEGF‐FGF Signaling Activates Quiescent CD63<sup>+</sup> Liver Stem Cells to Proliferate and Differentiate

Fei ChenDepartment of Cell Biology Basic Medical College Second Military Medical University (Naval Medical University) Shanghai 200433 ChinaKunshan ZhangStem Cell Translational Research Center School of Medicine and the Collaborative Innovation Center for Brain Science Tongji University Shanghai 200065 ChinaMinjun WangDepartment of Cell Biology Basic Medical College Second Military Medical University (Naval Medical University) Shanghai 200433 ChinaZhiying HeDepartment of Cell Biology Basic Medical College Second Military Medical University (Naval Medical University) Shanghai 200433 ChinaBing YuDepartment of Cell Biology Basic Medical College Second Military Medical University (Naval Medical University) Shanghai 200433 ChinaXin WangDepartment of Laboratory Medicine and Pathology University of Minnesota Minneapolis MN 55455 USAXinghua PanDepartment of Genetics School of Medicine Yale University New Haven CT 06520 USAYuping LuoStem Cell Translational Research Center School of Medicine and the Collaborative Innovation Center for Brain Science Tongji University Shanghai 200065 ChinaShoujia XuShanghai Baixian Biotechnology co., Ltd Shanghai 201318 ChinaJoseph T.Y. LauDepartment of Molecular and Cellular Biology Roswell Park Comprehensive Cancer Center Buffalo NY 14263 USAChunsheng HanState Key Laboratory of Stem Cell and Reproductive Biology Institute of Zoology Chinese Academy of Sciences Beijing 100101 ChinaYufang ShiYi SunDepartment of Psychiatry and Biobehavioral Sciences University of California Los Angeles Los Angeles CA 90095 USASiguang LiStem Cell Translational Research Center School of Medicine and the Collaborative Innovation Center for Brain Science Tongji University Shanghai 200065 ChinaYi‐Ping HuDepartment of Cell Biology Basic Medical College Second Military Medical University (Naval Medical University) Shanghai 200433 China
2024en
ABI

Abstract

Abstract Understanding the liver stem cells (LSCs) holds great promise for new insights into liver diseases and liver regeneration. However, the heterogenicity and plasticity of liver cells have made it controversial. Here, by employing single‐cell RNA‐sequencing technology, transcriptome features of Krt19 + bile duct lineage cells isolated from Krt19CreERT; Rosa26R‐GFP reporter mouse livers are examined. Distinct biliary epithelial cells which include adult LSCs, as well as their downstream hepatocytes and cholangiocytes are identified. Importantly, a novel cell surface LSCs marker, CD63, as well as CD56, which distinguished active and quiescent LSCs are discovered. Cell expansion and bi‐potential differentiation in culture demonstrate the stemness ability of CD63 + cells in vitro. Transplantation and lineage tracing of CD63 + cells confirm their contribution to liver cell mass in vivo upon injury. Moreover, CD63 + CD56 + cells are proved to be activated LSCs with vigorous proliferation ability. Further studies confirm that CD63 + CD56 − quiescent LSCs express VEGFR2 and FGFR1, and they can be activated to proliferation and differentiation through combination of growth factors: VEGF‐A and bFGF. These findings define an authentic adult liver stem cells compartment, make a further understanding of fate regulation on LSCs, and highlight its contribution to liver during pathophysiologic processes.

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