| Literature DB >> 30416071 |
Kun Zhang1, Ludi Zhang2, Wenming Liu3, Xiaolong Ma3, Jin Cen3, Zhen Sun4, Chenhua Wang3, Sisi Feng3, Zhengtao Zhang3, Liyun Yue3, Lulu Sun3, Zhenfeng Zhu5, Xiaotao Chen3, Anqi Feng3, Jiaying Wu3, Zhiwu Jiang6, Peng Li6, Xin Cheng3, Dong Gao3, Luying Peng7, Lijian Hui8.
Abstract
Transplantation of human hepatocytes (HHs) holds significant potential for treating liver diseases. However, the supply of transplantable HHs is severely constrained by limited donor availability and compromised capacity for in vitro expansion. In response to chronic injury, some HHs are reprogrammed into proliferative cells that express both hepatocyte and progenitor markers, suggesting exploitable strategies for expanding HHs in vitro. Here, we report defined medium conditions that allow 10,000-fold expansion of HHs. These proliferating HHs are bi-phenotypic, partially retaining hepatic features while gaining expression of progenitor-associated genes. Importantly, these cells engraft into injured mouse liver at a level comparable to primary HHs, and they undergo maturation following transplantation in vivo or differentiation in vitro. Thus, this study provides a protocol that enables large-scale expansion of transplantable HHs, which could be further developed for modeling and treating human liver disease.Entities:
Keywords: cell plasticity; hepatocyte culture; hepatocyte transplantation; liver repopulation
Mesh:
Year: 2018 PMID: 30416071 DOI: 10.1016/j.stem.2018.10.018
Source DB: PubMed Journal: Cell Stem Cell ISSN: 1875-9777 Impact factor: 24.633