In vivo reprogramming of astrocytes to neuroblasts in the adult brain

Wenze Niu; Tong Zang; Yuhua Zou; Sanhua Fang; Derek K. Smith; Robert Bachoo; Chun Li Zhang

doi:10.1038/ncb2843

In vivo reprogramming of astrocytes to neuroblasts in the adult brain

Wenze Niu, Tong Zang, Yuhua Zou, Sanhua Fang, Derek K. Smith, Robert Bachoo, Chun Li Zhang

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373 Scopus citations

Abstract

Adult differentiated cells can be reprogrammed into pluripotent stem cells or lineage-restricted proliferating precursors in culture; however, this has not been demonstrated in vivo. Here, we show that the single transcription factor SOX2 is sufficient to reprogram resident astrocytes into proliferative neuroblasts in the adult mouse brain. These induced adult neuroblasts (iANBs) persist for months and can be generated even in aged brains. When supplied with BDNF and noggin or when the mice are treated with a histone deacetylase inhibitor, iANBs develop into electrophysiologically mature neurons, which functionally integrate into the local neural network. Our results demonstrate that adult astrocytes exhibit remarkable plasticity in vivo, a feature that might have important implications in regeneration of the central nervous system using endogenous patient-specific glial cells.

Original language	English (US)
Pages (from-to)	1164-1175
Number of pages	12
Journal	Nature cell biology
Volume	15
Issue number	10
DOIs	https://doi.org/10.1038/ncb2843
State	Published - Oct 2013

ASJC Scopus subject areas

Cell Biology

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title = "In vivo reprogramming of astrocytes to neuroblasts in the adult brain",

abstract = "Adult differentiated cells can be reprogrammed into pluripotent stem cells or lineage-restricted proliferating precursors in culture; however, this has not been demonstrated in vivo. Here, we show that the single transcription factor SOX2 is sufficient to reprogram resident astrocytes into proliferative neuroblasts in the adult mouse brain. These induced adult neuroblasts (iANBs) persist for months and can be generated even in aged brains. When supplied with BDNF and noggin or when the mice are treated with a histone deacetylase inhibitor, iANBs develop into electrophysiologically mature neurons, which functionally integrate into the local neural network. Our results demonstrate that adult astrocytes exhibit remarkable plasticity in vivo, a feature that might have important implications in regeneration of the central nervous system using endogenous patient-specific glial cells.",

author = "Wenze Niu and Tong Zang and Yuhua Zou and Sanhua Fang and Smith, {Derek K.} and Robert Bachoo and Zhang, {Chun Li}",

note = "Funding Information: We thank members of the Zhang laboratory for discussions and reagents. We also thank J. Bibb (UT Southwestern, USA) and P. Chambon (I.G.B.M.C., France) for providing PrP–CreERT mice, J. Hsieh (UT Southwestern, USA), C. Kuo (Duke University, USA) and Y. Jan (UCSF, USA) for Nes–CreERTM mice, M. Klymkowsky (UC Boulder, USA) for SOX3 antibody, K. Huber for sharing equipment, and E. Olson for critical reading of the manuscript. C-L.Z. is a W. W. Caruth, Jr. Scholar in Biomedical Research. This work was supported by The American Heart Association (09SDG2260602), The Whitehall Foundation Award (2009-12-05), The Welch Foundation Award (I-1724), The Ellison Medical Foundation Award (AG-NS-0753-11), and NIH Grants (1DP2OD006484 and R01NS070981; to C-L.Z.).",

year = "2013",

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AU - Zang, Tong

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AU - Fang, Sanhua

AU - Smith, Derek K.

AU - Bachoo, Robert

AU - Zhang, Chun Li

N1 - Funding Information: We thank members of the Zhang laboratory for discussions and reagents. We also thank J. Bibb (UT Southwestern, USA) and P. Chambon (I.G.B.M.C., France) for providing PrP–CreERT mice, J. Hsieh (UT Southwestern, USA), C. Kuo (Duke University, USA) and Y. Jan (UCSF, USA) for Nes–CreERTM mice, M. Klymkowsky (UC Boulder, USA) for SOX3 antibody, K. Huber for sharing equipment, and E. Olson for critical reading of the manuscript. C-L.Z. is a W. W. Caruth, Jr. Scholar in Biomedical Research. This work was supported by The American Heart Association (09SDG2260602), The Whitehall Foundation Award (2009-12-05), The Welch Foundation Award (I-1724), The Ellison Medical Foundation Award (AG-NS-0753-11), and NIH Grants (1DP2OD006484 and R01NS070981; to C-L.Z.).

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In vivo reprogramming of astrocytes to neuroblasts in the adult brain

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