联合小分子抑制可加速从人多能干细胞中获得功能性皮质神经元。

Combined small-molecule inhibition accelerates the derivation of functional cortical neurons from human pluripotent stem cells.

作者信息

Qi Yuchen, Zhang Xin-Jun, Renier Nicolas, Wu Zhuhao, Atkin Talia, Sun Ziyi, Ozair M Zeeshan, Tchieu Jason, Zimmer Bastian, Fattahi Faranak, Ganat Yosif, Azevedo Ricardo, Zeltner Nadja, Brivanlou Ali H, Karayiorgou Maria, Gogos Joseph, Tomishima Mark, Tessier-Lavigne Marc, Shi Song-Hai, Studer Lorenz

机构信息

Developmental Biology, Sloan-Kettering Institute, New York, New York, USA.

Center of Stem Cell Biology, Sloan-Kettering Institute, New York, New York, USA.

出版信息

Nat Biotechnol. 2017 Feb;35(2):154-163. doi: 10.1038/nbt.3777. Epub 2017 Jan 23.

DOI:10.1038/nbt.3777

PMID:28112759

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5516899/

Abstract

Considerable progress has been made in converting human pluripotent stem cells (hPSCs) into functional neurons. However, the protracted timing of human neuron specification and functional maturation remains a key challenge that hampers the routine application of hPSC-derived lineages in disease modeling and regenerative medicine. Using a combinatorial small-molecule screen, we previously identified conditions to rapidly differentiate hPSCs into peripheral sensory neurons. Here we generalize the approach to central nervous system (CNS) fates by developing a small-molecule approach for accelerated induction of early-born cortical neurons. Combinatorial application of six pathway inhibitors induces post-mitotic cortical neurons with functional electrophysiological properties by day 16 of differentiation, in the absence of glial cell co-culture. The resulting neurons, transplanted at 8 d of differentiation into the postnatal mouse cortex, are functional and establish long-distance projections, as shown using iDISCO whole-brain imaging. Accelerated differentiation into cortical neuron fates should facilitate hPSC-based strategies for disease modeling and cell therapy in CNS disorders.

摘要

在将人类多能干细胞（hPSC）转化为功能性神经元方面已经取得了相当大的进展。然而，人类神经元特化和功能成熟的漫长时间仍然是一个关键挑战，阻碍了hPSC衍生谱系在疾病建模和再生医学中的常规应用。通过组合小分子筛选，我们之前确定了将hPSC快速分化为外周感觉神经元的条件。在这里，我们通过开发一种小分子方法来加速早期出生的皮质神经元的诱导，将该方法推广到中枢神经系统（CNS）命运。六种信号通路抑制剂的组合应用在分化第16天时诱导出具有功能性电生理特性的有丝分裂后皮质神经元，且无需胶质细胞共培养。分化8天时移植到新生小鼠皮质的所得神经元具有功能并建立了长距离投射，如使用iDISCO全脑成像所示。加速分化为皮质神经元命运应有助于基于hPSC的中枢神经系统疾病建模和细胞治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc58/5516899/be80beae97f1/nihms837429f1.jpg

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联合小分子抑制可加速从人多能干细胞中获得功能性皮质神经元。

Combined small-molecule inhibition accelerates the derivation of functional cortical neurons from human pluripotent stem cells.

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