Small molecules enable neurogenin 2 to efficiently convert human fibroblasts into cholinergic neurons

Meng Lu Liu; Tong Zang; Yuhua Zou; Joshua C. Chang; Jay R. Gibson; Kimberly M. Huber; Chun Li Zhang

doi:10.1038/ncomms3183

Small molecules enable neurogenin 2 to efficiently convert human fibroblasts into cholinergic neurons

Meng Lu Liu, Tong Zang, Yuhua Zou, Joshua C. Chang, Jay R. Gibson, Kimberly M. Huber, Chun Li Zhang

Research output: Contribution to journal › Article › peer-review

258 Scopus citations

Abstract

Cell fate can be reprogrammed by modifying intrinsic and extrinsic cues. Here we show that two small molecules (forskolin and dorsomorphin) enable the transcription factor Neurogenin 2 (NGN2) to convert human fetal lung fibroblasts into cholinergic neurons with high purity (>90%) and efficiency (up to 99% of NGN2-expressing cells). The conversion is direct without passing through a proliferative progenitor state. These human induced cholinergic neurons (hiCN) show mature electrophysiological properties and exhibit motor neuron-like features, including morphology, gene expression and the formation of functional neuromuscular junctions. Inclusion of an additional transcription factor, SOX11, also efficiently converts postnatal and adult skin fibroblasts from healthy and diseased human patients to cholinergic neurons. Taken together, this study identifies a simple and highly efficient strategy for reprogramming human fibroblasts to subtype-specific neurons. These findings offer a unique venue for investigating the molecular mechanisms underlying cellular plasticity and human neurodegenerative diseases.

Original language	English (US)
Article number	2183
Journal	Nature communications
Volume	4
DOIs	https://doi.org/10.1038/ncomms3183
State	Published - 2013

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
Physics and Astronomy(all)

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title = "Small molecules enable neurogenin 2 to efficiently convert human fibroblasts into cholinergic neurons",

abstract = "Cell fate can be reprogrammed by modifying intrinsic and extrinsic cues. Here we show that two small molecules (forskolin and dorsomorphin) enable the transcription factor Neurogenin 2 (NGN2) to convert human fetal lung fibroblasts into cholinergic neurons with high purity (>90%) and efficiency (up to 99% of NGN2-expressing cells). The conversion is direct without passing through a proliferative progenitor state. These human induced cholinergic neurons (hiCN) show mature electrophysiological properties and exhibit motor neuron-like features, including morphology, gene expression and the formation of functional neuromuscular junctions. Inclusion of an additional transcription factor, SOX11, also efficiently converts postnatal and adult skin fibroblasts from healthy and diseased human patients to cholinergic neurons. Taken together, this study identifies a simple and highly efficient strategy for reprogramming human fibroblasts to subtype-specific neurons. These findings offer a unique venue for investigating the molecular mechanisms underlying cellular plasticity and human neurodegenerative diseases.",

author = "Liu, {Meng Lu} and Tong Zang and Yuhua Zou and Chang, {Joshua C.} and Gibson, {Jay R.} and Huber, {Kimberly M.} and Zhang, {Chun Li}",

note = "Funding Information: We thank the members of the Zhang lab for discussions and reagents. We also thank Eric Olson, Jane Johnson and Derek Smith 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 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 - Gibson, Jay R.

AU - Huber, Kimberly M.

AU - Zhang, Chun Li

N1 - Funding Information: We thank the members of the Zhang lab for discussions and reagents. We also thank Eric Olson, Jane Johnson and Derek Smith 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 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.).

PY - 2013

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N2 - Cell fate can be reprogrammed by modifying intrinsic and extrinsic cues. Here we show that two small molecules (forskolin and dorsomorphin) enable the transcription factor Neurogenin 2 (NGN2) to convert human fetal lung fibroblasts into cholinergic neurons with high purity (>90%) and efficiency (up to 99% of NGN2-expressing cells). The conversion is direct without passing through a proliferative progenitor state. These human induced cholinergic neurons (hiCN) show mature electrophysiological properties and exhibit motor neuron-like features, including morphology, gene expression and the formation of functional neuromuscular junctions. Inclusion of an additional transcription factor, SOX11, also efficiently converts postnatal and adult skin fibroblasts from healthy and diseased human patients to cholinergic neurons. Taken together, this study identifies a simple and highly efficient strategy for reprogramming human fibroblasts to subtype-specific neurons. These findings offer a unique venue for investigating the molecular mechanisms underlying cellular plasticity and human neurodegenerative diseases.

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Small molecules enable neurogenin 2 to efficiently convert human fibroblasts into cholinergic neurons

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