一种将星形胶质细胞诱导直接重编程为神经干细胞的“肇事逃逸”方法。

A "Hit and Run" Approach to Inducible Direct Reprogramming of Astrocytes to Neural Stem Cells.

作者信息

Poulou Maria, Mandalos Nikolaos P, Karnavas Theodoros, Saridaki Marannia, McKay Ronald D G, Remboutsika Eumorphia

机构信息

Stem Cell Biology Laboratory, Biomedical Sciences Research Centre "Alexander Fleming," Vari-Attica, Greece.

Stem Cell Biology Laboratory, Biomedical Sciences Research Centre "Alexander Fleming,"Vari-Attica, Greece; Choremio Laboratory, Department of Pediatrics, National University of Athens Medical SchoolAthens, Greece.

出版信息

Front Physiol. 2016 Apr 12;7:127. doi: 10.3389/fphys.2016.00127. eCollection 2016.

DOI:10.3389/fphys.2016.00127

PMID:27148066

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4828628/

Abstract

Temporal and spatial control of gene expression can be achieved using an inducible system as a fundamental tool for regulated transcription in basic, applied and eventually in clinical research. We describe a novel "hit and run" inducible direct reprogramming approach. In a single step, 2 days post-transfection, transiently transfected Sox2(FLAG) under the Leu3p-αIPM inducible control (iSox2) triggers the activation of endogenous Sox2, redirecting primary astrocytes into abundant distinct nestin-positive radial glia cells. This technique introduces a unique novel tool for safe, rapid and efficient reprogramming amendable to regenerative medicine.

摘要

利用诱导系统作为基础、应用乃至临床研究中调控转录的基本工具，可以实现基因表达的时空控制。我们描述了一种新型的“打了就跑”诱导性直接重编程方法。在转染后2天的单个步骤中，在Leu3p-αIPM诱导控制（iSox2）下瞬时转染的Sox2(FLAG)触发内源性Sox2的激活，将原代星形胶质细胞重定向为大量不同的巢蛋白阳性放射状胶质细胞。该技术为再生医学引入了一种独特的新型工具，可用于安全、快速且高效的重编程。

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一种将星形胶质细胞诱导直接重编程为神经干细胞的“肇事逃逸”方法。

A "Hit and Run" Approach to Inducible Direct Reprogramming of Astrocytes to Neural Stem Cells.

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