Repair of acute liver damage with immune evasive hESC derived hepato-blasts
Jingfeng Liu, Tingcai Pan, Yan Chen, Ying Liu, Fan Yang, Qu Chen, Nasir Abbas, Mingyan Zhong, Qianbing Zhang, Yang Xu, Yin-xiong Li
Journal:Stem Cell Research
IF:4.5
DOI:10.1016/j.scr.2020.102010
PMID:33011360
Published:2020-09-26
research field:干细胞生物学免疫学再生医学肝病学
Abstract
Human embryonic stem cells (hESCs) can undergo unlimited self-renewal and differentiate into hepatic cells, including expandable hepato-blasts (HBs) and hepatocyte-like cells (HLCs) in vitro . Therefore, hESC-derived HBs have the potential to become a renewable cell source for cell therapy of serious liver damage. However, one of the key challenges for such cell therapy is the allogeneic immune rejection of hESC-derived HBs. To overcome this challenge, we developed a strategy to protect the hESC-derived HBs from allogeneic immune rejection by ectopically expressing immune suppressive molecules CTLA4-Ig and PD-L1, denoted CP HBs. Like HBs derived from normal hESCs, CP HBs are capable of repairing liver damage in animal models. Using humanized mice (Hu-mice) reconstituted with human immune system, we showed that CP HBs are protected from allogeneic immune system and can survive long-term in Hu-mice. These data support the feasibility to develop CP HBs into a cell therapy to treat serious liver damage.
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