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Literature DB >> 26481520

Small Molecules Efficiently Reprogram Human Astroglial Cells into Functional Neurons.

Lei Zhang¹, Jiu-Chao Yin¹, Hana Yeh¹, Ning-Xin Ma¹, Grace Lee¹, Xiangyun Amy Chen², Yanming Wang², Li Lin³, Li Chen³, Peng Jin³, Gang-Yi Wu⁴, Gong Chen⁵.

Abstract

We have recently demonstrated that reactive glial cells can be directly reprogrammed into functional neurons by a single neural transcription factor, NeuroD1. Here we report that a combination of small molecules can also reprogram human astrocytes in culture into fully functional neurons. We demonstrate that sequential exposure of human astrocytes to a cocktail of nine small molecules that inhibit glial but activate neuronal signaling pathways can successfully reprogram astrocytes into neurons in 8-10 days. This chemical reprogramming is mediated through epigenetic regulation and involves transcriptional activation of NEUROD1 and NEUROGENIN2. The human astrocyte-converted neurons can survive for >5 months in culture and form functional synaptic networks with synchronous burst activities. The chemically reprogrammed human neurons can also survive for >1 month in the mouse brain in vivo and integrate into local circuits. Our study opens a new avenue using chemical compounds to reprogram reactive glial cells into functional neurons.

Entities: Chemical Disease Gene Species

Mesh：

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Year: 2015 PMID： 26481520 PMCID： PMC4675726 DOI： 10.1016/j.stem.2015.09.012

Source DB: PubMed Journal: Cell Stem Cell ISSN： 1875-9777 Impact factor: 24.633

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