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Sonic Hedgehog 有效促进 Oct4 介导的星形胶质细胞重编程为神经干细胞。

Sonic Hedgehog Effectively Improves Oct4-Mediated Reprogramming of Astrocytes into Neural Stem Cells.

机构信息

Translational Medicine Center, Hong Hui Hospital, Xi'an Jiaotong University, Shaanxi 710054, China.

Translational Medicine Center, Hong Hui Hospital, Xi'an Jiaotong University, Shaanxi 710054, China.

出版信息

Mol Ther. 2019 Aug 7;27(8):1467-1482. doi: 10.1016/j.ymthe.2019.05.006. Epub 2019 May 16.

DOI:10.1016/j.ymthe.2019.05.006
PMID:31153826
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6698197/
Abstract

Irreversible neuron loss following spinal cord injury (SCI) usually results in persistent neurological dysfunction. The generation of autologous neural stem cells (NSCs) holds great potential for neural replenishment therapies and drug screening in SCI. Our recent studies demonstrated that mature astrocytes from the spinal cord can directly revert back to a pluripotent state under appropriate signals. However, in previous attempts, the reprogramming of astrocytes into induced NSCs (iNSCs) was unstable, inefficient, and frequently accompanied by generation of intermediate precursors. It remained unknown how to further increase the efficiency of astrocyte reprogramming into iNSCs. Here, we show that mature astrocytes could be directly converted into iNSCs by a single transcription factor, Oct4, and that the iNSCs displayed typical neurosphere morphology, authentic NSC gene expression, self-renewal capacity, and multipotency. Strikingly, Oct4-driven reprogramming of astrocytes into iNSCs was potentiated with continuous sonic hedgehog (Shh) stimulation, as demonstrated by a sped-up reprogramming and increased conversion efficiency. Moreover, the iNSC-derived neurons possessed functionality as neurons. Importantly, crosstalk between Sox2/Shh-targeted downstream signals and phosphatidylinositol 3-kinase/cyclin-dependent kinase 2/Smad ubiquitin regulatory factor 2 (PI3K/Cdk2/Smurf2) signaling is likely involved in the mechanisms underlying this cellular event. The highly efficient reprogramming of astrocytes to generate iNSCs will provide an alternative therapeutic approach for SCI using autologous cells.

摘要

脊髓损伤 (SCI) 后不可逆的神经元丢失通常导致持续的神经功能障碍。自体神经干细胞 (NSCs) 的产生为 SCI 中的神经补充疗法和药物筛选提供了巨大的潜力。我们最近的研究表明,脊髓中的成熟星形胶质细胞在适当的信号下可以直接恢复到多能状态。然而,在之前的尝试中,将星形胶质细胞重编程为诱导性 NSCs (iNSCs) 的效率不稳定且效率低下,并且经常伴随着中间前体细胞的产生。尚不清楚如何进一步提高星形胶质细胞重编程为 iNSCs 的效率。在这里,我们表明成熟的星形胶质细胞可以通过单个转录因子 Oct4 直接转化为 iNSCs,并且 iNSCs 表现出典型的神经球形态、真实的 NSC 基因表达、自我更新能力和多能性。引人注目的是,通过连续的 sonic hedgehog (Shh) 刺激增强了 Oct4 驱动的星形胶质细胞重编程为 iNSCs 的能力,表现为更快的重编程和更高的转化率。此外,iNSC 衍生的神经元具有神经元的功能。重要的是,Sox2/Shh 靶向下游信号和磷脂酰肌醇 3-激酶/细胞周期蛋白依赖性激酶 2/Smad 泛素调节因子 2 (PI3K/Cdk2/Smurf2) 信号之间的串扰可能涉及到这种细胞事件的机制。星形胶质细胞高效重编程为 iNSCs 将为使用自体细胞治疗 SCI 提供一种替代的治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ef99/6698197/773de13ca383/fx1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ef99/6698197/773de13ca383/fx1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ef99/6698197/773de13ca383/fx1.jpg

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