Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells

Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells

Induced hepatic stem cells (iHepSCs) have great potential as donors for liver cell therapy due to their self-renewal and bipotential differentiation properties. However, the efficiency of bidifferentiation and repopulation efficiency of iHepSCs is relatively low. Recent evidence shows that physiolog...

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Main Authors: Xiaosong Zhi, Jun Xiong, Mengchao Wang, Hongxia Zhang, Gang Huang, Jian Zhao, Xiaoyuan Zi, Yi-Ping Hu
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Oxidative Medicine and Cellular Longevity
Online Access:http://dx.doi.org/10.1155/2018/7618704
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spelling doaj-1c1ab94e8ffb415a9d2261fadb5ab3962020-11-24T22:45:18ZengHindawi LimitedOxidative Medicine and Cellular Longevity1942-09001942-09942018-01-01201810.1155/2018/76187047618704Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem CellsXiaosong Zhi0Jun Xiong1Mengchao Wang2Hongxia Zhang3Gang Huang4Jian Zhao5Xiaoyuan Zi6Yi-Ping Hu7Center for Stem Cells and Medicine, Department of Cell Biology, Second Military Medical University, 800 Xiangyin Road, Shanghai 200433, ChinaDepartment of Histology and Embryology, Second Military Medical University, 800 Xiangyin Road, Shanghai 200433, ChinaThe Third Department of Hepatic Surgery, Eastern Hepatobiliary Surgery Hospital, Second Military Medical University, Shanghai 200433, ChinaCenter for Stem Cells and Medicine, Department of Cell Biology, Second Military Medical University, 800 Xiangyin Road, Shanghai 200433, ChinaThe Third Department of Hepatic Surgery, Eastern Hepatobiliary Surgery Hospital, Second Military Medical University, Shanghai 200433, ChinaShanghai Key Laboratory for Molecular Imaging, Shanghai University of Medicine & Health Sciences, 279th Zhouzhu Road, Shanghai 201318, ChinaCenter for Stem Cells and Medicine, Department of Cell Biology, Second Military Medical University, 800 Xiangyin Road, Shanghai 200433, ChinaCenter for Stem Cells and Medicine, Department of Cell Biology, Second Military Medical University, 800 Xiangyin Road, Shanghai 200433, ChinaInduced hepatic stem cells (iHepSCs) have great potential as donors for liver cell therapy due to their self-renewal and bipotential differentiation properties. However, the efficiency of bidifferentiation and repopulation efficiency of iHepSCs is relatively low. Recent evidence shows that physiological hypoxia, a vital factor within stem cell “niche” microenvironment, plays key roles in regulating tissue stem cell biological behaviors including proliferation and differentiation. In this study, we found that physiological hypoxia (10% O2) enhanced the stemness properties and promoted the proliferation ability of iHepSCs by accelerating G1/S transition via p53-p21 signaling pathway. In addition, short-term hypoxia preconditioning improved the efficiency of hepatic differentiation of iHepSCs, and long-term hypoxia promoted cholangiocytic differentiation but inhibited hepatic differentiation of iHepSCs. These results demonstrated the potential effects of hypoxia on stemness preservation, proliferation, and bidifferentiation of iHepSCs and promising perspective to explore appropriate culture conditions for therapeutic stem cells.http://dx.doi.org/10.1155/2018/7618704
collection DOAJ
language English
format Article
sources DOAJ
author Xiaosong Zhi
Jun Xiong
Mengchao Wang
Hongxia Zhang
Gang Huang
Jian Zhao
Xiaoyuan Zi
Yi-Ping Hu
spellingShingle Xiaosong Zhi
Jun Xiong
Mengchao Wang
Hongxia Zhang
Gang Huang
Jian Zhao
Xiaoyuan Zi
Yi-Ping Hu
Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
Oxidative Medicine and Cellular Longevity
author_facet Xiaosong Zhi
Jun Xiong
Mengchao Wang
Hongxia Zhang
Gang Huang
Jian Zhao
Xiaoyuan Zi
Yi-Ping Hu
author_sort Xiaosong Zhi
title Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
title_short Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
title_full Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
title_fullStr Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
title_full_unstemmed Physiological Hypoxia Enhances Stemness Preservation, Proliferation, and Bidifferentiation of Induced Hepatic Stem Cells
title_sort physiological hypoxia enhances stemness preservation, proliferation, and bidifferentiation of induced hepatic stem cells
publisher Hindawi Limited
series Oxidative Medicine and Cellular Longevity
issn 1942-0900
1942-0994
publishDate 2018-01-01
description Induced hepatic stem cells (iHepSCs) have great potential as donors for liver cell therapy due to their self-renewal and bipotential differentiation properties. However, the efficiency of bidifferentiation and repopulation efficiency of iHepSCs is relatively low. Recent evidence shows that physiological hypoxia, a vital factor within stem cell “niche” microenvironment, plays key roles in regulating tissue stem cell biological behaviors including proliferation and differentiation. In this study, we found that physiological hypoxia (10% O2) enhanced the stemness properties and promoted the proliferation ability of iHepSCs by accelerating G1/S transition via p53-p21 signaling pathway. In addition, short-term hypoxia preconditioning improved the efficiency of hepatic differentiation of iHepSCs, and long-term hypoxia promoted cholangiocytic differentiation but inhibited hepatic differentiation of iHepSCs. These results demonstrated the potential effects of hypoxia on stemness preservation, proliferation, and bidifferentiation of iHepSCs and promising perspective to explore appropriate culture conditions for therapeutic stem cells.
url http://dx.doi.org/10.1155/2018/7618704
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