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LIN28A enhances the therapeutic potential of cultured neural stem cells in a Parkinson's disease model

Authors
Rhee, Yong-HeeKim, Tae-HoJo, A. -YoungChang, Mi YoonPark, Chang-HwanKim, Sang-MiSong, Jae-JinOh, Sang-MinYi, Sang-HoonKim, Hyeon HoYou, Bo-HyunNam, Jin-WuLee, Sang-Hun
Issue Date
Oct-2016
Publisher
Oxford University Press
Keywords
LIN28; neural stem cell (NSC) culture; repair capacity; Parkinson's disease; cell transplantation
Citation
Brain, v.139, pp 2722 - 2739
Pages
18
Indexed
SCI
SCIE
SCOPUS
Journal Title
Brain
Volume
139
Start Page
2722
End Page
2739
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195735
DOI
10.1093/brain/aww203
ISSN
0006-8950
1460-2156
Abstract
Neural stem cells derived from the ventral midbrain lose their dopamine neurogenic potential and repair capacity during in vitro cell expansion. Rhee et al. report that loss of the RNA-binding protein Lin28a during cell expansion underlies these changes. Forced expression of Lin28a allows the preparation of therapeutically competent donor cells.Neural stem cells derived from the ventral midbrain lose their dopamine neurogenic potential and repair capacity during in vitro cell expansion. Rhee et al. report that loss of the RNA-binding protein Lin28a during cell expansion underlies these changes. Forced expression of Lin28a allows the preparation of therapeutically competent donor cells.The original properties of tissue-specific stem cells, regardless of their tissue origins, are inevitably altered during in vitro culturing, lessening the clinical and research utility of stem cell cultures. Specifically, neural stem cells derived from the ventral midbrain lose their dopamine neurogenic potential, ventral midbrain-specific phenotypes, and repair capacity during in vitro cell expansion, all of which are critical concerns in using the cultured neural stem cells in therapeutic approaches for Parkinson's disease. In this study, we observed that the culture-dependent changes of neural stem cells derived from the ventral midbrain coincided with loss of RNA-binding protein LIN28A expression. When LIN28A expression was forced and sustained during neural stem cell expansion using an inducible expression-vector system, loss of dopamine neurogenic potential and midbrain phenotypes after long-term culturing was blocked. Furthermore, dopamine neurons that differentiated from neural stem cells exhibited remarkable survival and resistance against toxic insults. The observed effects were not due to a direct action of LIN28A on the differentiated dopamine neurons, but rather its action on precursor neural stem cells as exogene expression was switched off in the differentiating/differentiated cultures. Remarkable and reproducible behavioural recovery was shown in all Parkinson's disease rats grafted with neural stem cells expanded with LIN28A expression, along with extensive engraftment of dopamine neurons expressing mature neuronal and midbrain-specific markers. These findings suggest that LIN28A expression during stem cell expansion could be used to prepare therapeutically competent donor cells.
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Chang, Mi Yoon
서울 의과대학 (DEPARTMENT OF BIOCHEMISTRY & MOLECULAR BIOLOGY)
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