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Convective exosome-tracing microfluidics for analysis of cell-non-autonomous neurogenesis

Authors
Oh, Hyun JeongShin, YoojinChung, SeokHwang, Do WonLee, Dong Soo
Issue Date
1월-2017
Publisher
ELSEVIER SCI LTD
Keywords
Neurogenesis; Cell-non-autonomous; Exosome imaging; MiR-193a; Microfluidic platform
Citation
BIOMATERIALS, v.112, pp.82 - 94
Indexed
SCIE
SCOPUS
Journal Title
BIOMATERIALS
Volume
112
Start Page
82
End Page
94
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/84987
DOI
10.1016/j.biomaterials.2016.10.006
ISSN
0142-9612
Abstract
The effective role of exosome delivering neurogenic microRNA (miRNA) enables to induce efficient differentiation process during neurogenesis. The microfiudic system capable of visualizing the exosomal behavior such as secretion, migration, and uptake of individual exosomes can be used as a robust technique to understand the exosome-mediated change of cellular behavior. Here, we developed the exosome-tracing microfluidic system to visualize exosomal transport carrying the neurogenic miRNA from leading to neighboring cells, and found a new mode of exosome-mediated cell-non-autonomous neurogenesis. The miR-193a facilitated neurogenesis in F11 cells by blocking proliferation-related target genes. In addition to time-lapse live-cell imaging using microfluidics visualized the convective transport of exosomes from differentiated to undifferentiated cells. Individual exosomes containing miR-193a from differentiated donor cells were taken up by undifferentiated cells to lead them to neurogenesis. Induction of anti-miR-193a was sufficient to block neurogenesis in F11 cells. Inhibition of the exosomal production by manumycin-A and treatment of anti-miR-193a in the differentiated donor cells failed to induce neurogenesis in undifferentiated recipient cells. These findings indicate that exosomes of neural progenitors and neurogenic miRNA within these exosomes propagate cell-non-autonomous differentiation to neighboring progenitors, to delineate the roles of exosome mediating neurogenesis of population of homologous neural progenitor cells. (C) 2016 Elsevier Ltd. All rights reserved.
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