Direct induction of neural progenitor cells transiently passes through a partially reprogrammed state

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• 作者：Rui Gao^b ; ^c ; ¹ ; Wenchao Xiu^a ; ¹ ; Linfeng Zhang^a ; Ruge Zang^a ; Lei Yang^d ; Chenfei Wang^a ; Min Wang^e ; Mingzhu Wang^a ; Li Yi^a ; Yuanyuan Tang^d ; Yawei Gao^a ; Hong Wang^a ; Jiajie Xi^a ; Wenqiang Liu^a ; Yixuan Wang^a ; Xuejun Wen^f ; Yongchun Yu^e ; Yong Zhang^a ; Liang Chen^b ; ^c ; ^{chenliang@nibs.ac.cn} ; Jiayu Chen^a ; ^{chenjiayu@tongji.edu.cn} ; Shaorong Gao^a ; ^{gaoshaorong@tongji.edu.cn}
• 关键词：Direct induction ; giNPCs ; Partially reprogrammed state
• 刊名：Biomaterials
• 出版年：2017
• 出版时间：March 2017
• 年：2017
• 卷：119
• 期：Complete
• 页码：53-67
• 全文大小：5312 K
• 卷排序：119

文摘

The generation of functional neural progenitor cells (NPCs) holds great promise for both research and clinical applications in neurodegenerative diseases. Traditionally, NPCs are derived from embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs), or NPCs can be directly converted from somatic cells by sets of transcription factors or by a combination of chemical cocktails and/or hypoxia. However, the ethical issues of ESCs, the risk of tumorigenesis from iPSCs and transgenic integration from exogenous genes as well as complicated manipulation and time-consuming of chemical induced NPCs (ciNPCs) limit the applications of these strategies. Here, we describe a novel method for generating growth factor-induced neural progenitor cells (giNPCs) from mouse embryonic and adult fibroblasts by using inductive and/or permissive signaling culture conditions. These giNPCs closely resemble brain-derived NPCs in terms of transcription networks and neural lineage differentiation potentials. Moreover, this somatic cell to NPC induction is a gradual process that includes initiation, intermediate, maturation and stabilization stages. Importantly, gene expression and histone modification analyses further indicate a partially reprogrammed state during the generation process of induced NPCs, in which lineage specific genes and pluripotency associated genes are transiently activated. Our study therefore describes the potential safety problems that also exist in the transgene-free direct induction strategy and highlights the importance of excluding the possibility of residual partially reprogrammed and/or teratoma-like cells from the generated NPCs for future clinical trials.