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Human embryonic stem cell-derived neural precursors as a continuous, stable, and on-demand source for human dopamine neurons

Authors
Ko, Ji-YunPark, Chang-HwanKoh, Hyun-ChulCho, Youl-HeeKyhm, Jee HongKim, Young SooLee, InchulLee, Yong SungLee, Sang Hun
Issue Date
Nov-2007
Publisher
Blackwell Publishing Inc.
Keywords
dopamine neurons; human embryonic stem cells; neural precursor cell; Parkinson's disease
Citation
Journal of Neurochemistry, v.103, no.4, pp 1417 - 1429
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Journal of Neurochemistry
Volume
103
Number
4
Start Page
1417
End Page
1429
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/179374
DOI
10.1111/j.1471-4159.2007.04898.x
ISSN
0022-3042
1471-4159
Abstract
Human embryonic stem (hES) cells can be guided to differentiate into ventral midbrain-type neural precursor (NP) cells that proliferate in vitro by specific mitogens. We investigated the potential of these NP cells derived from hES cells (hES-NP) for the large-scale generation of human dopamine (DA) neurons for functional analyses and therapeutic applications. To address this, hES-NP cells were expanded in vitro for 1.5 months with six passages, and their proliferation and differentiation properties determined over the NP passages. Interestingly, the total hES-NP cell number was increased by > 2 x 10(4)-folds over the in vitro period without alteration of phenotypic gene expression. They also sustained their differentiation capacity toward neuronal cells, exhibiting in vitro pre-synaptic DA neuronal functionality. Furthermore, the hES-NP cells can be cryopreserved without losing their proliferative and developmental potential. Upon transplantation into a Parkinson's disease rat model, the multi-passaged hES-NP cells survived, integrated into the host striatum, and differentiated toward the neuronal cells expressing DA phenotypes. A significant reduction in the amphetamine-induced rotation score of Parkinson's disease rats was observed by the cell transplantation. Taken together, these findings indicate that hES-NP cell expansion is exploitable for a large-scale generation of experimental and transplantable DA neurons of human-origin.
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서울 의과대학 > 서울 생화학·분자생물학교실 > 1. Journal Articles
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서울 의과대학 (DEPARTMENT OF PHARMACOLOGY)
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