PLoS ONE (Jan 2015)

Transdifferentiation-Induced Neural Stem Cells Promote Recovery of Middle Cerebral Artery Stroke Rats.

  • Hui Yao,
  • Mou Gao,
  • Jianhua Ma,
  • Maoying Zhang,
  • Shaowu Li,
  • Bingshan Wu,
  • Xiaohu Nie,
  • Jiao Jiao,
  • Hao Zhao,
  • Shanshan Wang,
  • Yuanyuan Yang,
  • Yesen Zhang,
  • Yilin Sun,
  • Max S Wicha,
  • Alfred E Chang,
  • Shaorong Gao,
  • Qiao Li,
  • Ruxiang Xu

DOI
https://doi.org/10.1371/journal.pone.0137211
Journal volume & issue
Vol. 10, no. 9
p. e0137211

Abstract

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Induced neural stem cells (iNSCs) can be directly transdifferentiated from somatic cells. One potential clinical application of the iNSCs is for nerve regeneration. However, it is unknown whether iNSCs function in disease models. We produced transdifferentiated iNSCs by conditional overexpressing Oct4, Sox2, Klf4, c-Mycin mouse embryonic fibroblasts. They expanded readily in vitro and expressed NSC mRNA profile and protein markers. These iNSCs differentiated into mature astrocytes, neurons and oligodendrocytes in vitro. Importantly, they reduced lesion size, promoted the recovery of motor and sensory function as well as metabolism status in middle cerebral artery stroke rats. These iNSCs secreted nerve growth factors, which was associated with observed protection of neurons from apoptosis. Furthermore, iNSCs migrated to and passed through the lesion in the cerebral cortex, where Tuj1+ neurons were detected. These findings have revealed the function of transdifferentiated iNSCs in vivo, and thus provide experimental evidence to support the development of personalized regenerative therapy for CNS diseases by using genetically engineered autologous somatic cells.