Translational Neurodegeneration (Nov 2018)

Direct conversion of mouse astrocytes into neural progenitor cells and specific lineages of neurons

  • Kangmu Ma,
  • Xiaobei Deng,
  • Xiaohuan Xia,
  • Zhaohuan Fan,
  • Xinrui Qi,
  • Yongxiang Wang,
  • Yuju Li,
  • Yizhao Ma,
  • Qiang Chen,
  • Hui Peng,
  • Jianqing Ding,
  • Chunhong Li,
  • Yunlong Huang,
  • Changhai Tian,
  • Jialin C. Zheng

DOI
https://doi.org/10.1186/s40035-018-0132-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 15

Abstract

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Abstract Background Cell replacement therapy has been envisioned as a promising treatment for neurodegenerative diseases. Due to the ethical concerns of ESCs-derived neural progenitor cells (NPCs) and tumorigenic potential of iPSCs, reprogramming of somatic cells directly into multipotent NPCs has emerged as a preferred approach for cell transplantation. Methods Mouse astrocytes were reprogrammed into NPCs by the overexpression of transcription factors (TFs) Foxg1, Sox2, and Brn2. The generation of subtypes of neurons was directed by the force expression of cell-type specific TFs Lhx8 or Foxa2/Lmx1a. Results Astrocyte-derived induced NPCs (AiNPCs) share high similarities, including the expression of NPC-specific genes, DNA methylation patterns, the ability to proliferate and differentiate, with the wild type NPCs. The AiNPCs are committed to the forebrain identity and predominantly differentiated into glutamatergic and GABAergic neuronal subtypes. Interestingly, additional overexpression of TFs Lhx8 and Foxa2/Lmx1a in AiNPCs promoted cholinergic and dopaminergic neuronal differentiation, respectively. Conclusions Our studies suggest that astrocytes can be converted into AiNPCs and lineage-committed AiNPCs can acquire differentiation potential of other lineages through forced expression of specific TFs. Understanding the impact of the TF sets on the reprogramming and differentiation into specific lineages of neurons will provide valuable strategies for astrocyte-based cell therapy in neurodegenerative diseases.

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