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Foxa2 and Nurr1 Synergistically Yield A9 Nigral Dopamine Neurons Exhibiting Improved Differentiation, Function, and Cell Survival

Authors
Lee, Hyun-SeobBae, Eun-JiYi, Sang-HoonShim, Jae-WonJo, A-YoungKang, Jin-SunYoon, Eun-HyeRhee, Yong-HeePark, Chang-HwanKoh, Hyun-ChulKim, Hyun-JungChoi, Hueng-SikHan, Jeung-WhanLee, Yong-SungKim, JaesangLi, Jia-YiBrundin, PatrikLee, Sang-Hun
Issue Date
Mar-2010
Publisher
AlphaMed Press Inc
Keywords
Foxa2; Nurr1; Dopamine neurons; Neural precursor cells; Parkinson's disease; Cell transplantation
Citation
Stem Cells, v.28, no.3, pp 501 - 512
Pages
12
Indexed
SCI
SCIE
SCOPUS
Journal Title
Stem Cells
Volume
28
Number
3
Start Page
501
End Page
512
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/175392
DOI
10.1002/stem.294
ISSN
1066-5099
1549-4918
Abstract
Effective dopamine (DA) neuron differentiation from neural precursor cells (NPCs) is prerequisite for precursor/stem cell-based therapy of Parkinson's disease (PD). Nurr1, an orphan nuclear receptor, has been reported as a transcription factor that can drive DA neuron differentiation from non-dopaminergic NPCs in vitro. However, Nurr1 alone neither induces full neuronal maturation nor expression of proteins found specifically in midbrain DA neurons. In addition, Nurr1 expression is inefficient in inducing DA phenotype expression in NPCs derived from certain species such as mouse and human. We show here that Foxa2, a forkhead transcription factor whose role in midbrain DA neuron development was recently revealed, synergistically cooperates with Nurr1 to induce DA phenotype acquisition, midbrain-specific gene expression, and neuronal maturation. Thus, the combinatorial expression of Nurr1 and Foxa2 in NPCs efficiently yielded fully differentiated nigral (A9)-type midbrain neurons with clearly detectable DA neuronal activities. The effects of Foxa2 in DA neuron generation were observed regardless of the brain regions or species from which NPCs were derived. Furthermore, DA neurons generated by ectopic Foxa2 expression were more resistant to toxins. Importantly, Foxa2 expression resulted in a rapid cell cycle exit and reduced cell proliferation. Consistently, transplantation of NPCs transduced with Nurr1 and Foxa2 generated grafts enriched with midbrain-type DA neurons but reduced number of proliferating cells, and significantly reversed motor deficits in a rat PD model. Our findings can be applied to ongoing attempts to develop an efficient and safe precursor/stem cell-based therapy for PD.
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서울 의과대학 > 서울 생화학·분자생물학교실 > 1. Journal Articles
서울 의과대학 > 서울 약리학교실 > 1. Journal Articles
서울 의생명공학전문대학원 > 서울 의생명과학과 > 1. Journal Articles

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Koh, Hyun Chul
서울 의과대학 (DEPARTMENT OF PHARMACOLOGY)
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