Integrin-associated protein promotes neuronal differentiation of neural stem/progenitor cells

Kazuhiko Fujimura; Tetsuhiro Niidome; Yoriko Shinozuka; Yasuhiko Izumi; Takeshi Kihara; Hachiro Sugimoto; Akinori Akaike; Toshiaki Kume

doi:10.1371/journal.pone.0116741

Integrin-associated protein promotes neuronal differentiation of neural stem/progenitor cells

Kazuhiko Fujimura, Tetsuhiro Niidome, Yoriko Shinozuka, Yasuhiko Izumi, Takeshi Kihara, Hachiro Sugimoto, Akinori Akaike, Toshiaki Kume

Applied Pharmacology

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

Abstract

Neural stem/progenitor cells (NSPCs) proliferate and differentiate depending on their intrinsic properties and local environment. During the development of the mammalian nervous system, NSPCs generate neurons and glia sequentially. However, little is known about the mechanism that determines the timing of switch from neurogenesis to gliogenesis. In this study, we established a culture system in which the neurogenic potential of NSPCs is decreased in a time-dependent manner, so that short-term-cultured NSPCs differentiate into more neurons compared with long-term-cultured NSPCs. We found that short-term-cultured NSPCs express high levels of integrin-associated protein form 2 (IAP2; so-called CD47) mRNA using differential display analysis. Moreover, IAP2 overexpression in NSPCs induced neuronal differentiation of NSPCs. These findings reveal a novel mechanism by which IAP2 induces neuronal differentiation of NSPCs.

Original language	English
Article number	e0116741
Journal	PLoS ONE
Volume	10
Issue number	2
DOIs	https://doi.org/10.1371/journal.pone.0116741
State	Published - 2015/02/23

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title = "Integrin-associated protein promotes neuronal differentiation of neural stem/progenitor cells",

abstract = "Neural stem/progenitor cells (NSPCs) proliferate and differentiate depending on their intrinsic properties and local environment. During the development of the mammalian nervous system, NSPCs generate neurons and glia sequentially. However, little is known about the mechanism that determines the timing of switch from neurogenesis to gliogenesis. In this study, we established a culture system in which the neurogenic potential of NSPCs is decreased in a time-dependent manner, so that short-term-cultured NSPCs differentiate into more neurons compared with long-term-cultured NSPCs. We found that short-term-cultured NSPCs express high levels of integrin-associated protein form 2 (IAP2; so-called CD47) mRNA using differential display analysis. Moreover, IAP2 overexpression in NSPCs induced neuronal differentiation of NSPCs. These findings reveal a novel mechanism by which IAP2 induces neuronal differentiation of NSPCs.",

author = "Kazuhiko Fujimura and Tetsuhiro Niidome and Yoriko Shinozuka and Yasuhiko Izumi and Takeshi Kihara and Hachiro Sugimoto and Akinori Akaike and Toshiaki Kume",

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AU - Fujimura, Kazuhiko

AU - Niidome, Tetsuhiro

AU - Shinozuka, Yoriko

AU - Izumi, Yasuhiko

AU - Kihara, Takeshi

AU - Sugimoto, Hachiro

AU - Akaike, Akinori

AU - Kume, Toshiaki

PY - 2015/2/23

Y1 - 2015/2/23

N2 - Neural stem/progenitor cells (NSPCs) proliferate and differentiate depending on their intrinsic properties and local environment. During the development of the mammalian nervous system, NSPCs generate neurons and glia sequentially. However, little is known about the mechanism that determines the timing of switch from neurogenesis to gliogenesis. In this study, we established a culture system in which the neurogenic potential of NSPCs is decreased in a time-dependent manner, so that short-term-cultured NSPCs differentiate into more neurons compared with long-term-cultured NSPCs. We found that short-term-cultured NSPCs express high levels of integrin-associated protein form 2 (IAP2; so-called CD47) mRNA using differential display analysis. Moreover, IAP2 overexpression in NSPCs induced neuronal differentiation of NSPCs. These findings reveal a novel mechanism by which IAP2 induces neuronal differentiation of NSPCs.

AB - Neural stem/progenitor cells (NSPCs) proliferate and differentiate depending on their intrinsic properties and local environment. During the development of the mammalian nervous system, NSPCs generate neurons and glia sequentially. However, little is known about the mechanism that determines the timing of switch from neurogenesis to gliogenesis. In this study, we established a culture system in which the neurogenic potential of NSPCs is decreased in a time-dependent manner, so that short-term-cultured NSPCs differentiate into more neurons compared with long-term-cultured NSPCs. We found that short-term-cultured NSPCs express high levels of integrin-associated protein form 2 (IAP2; so-called CD47) mRNA using differential display analysis. Moreover, IAP2 overexpression in NSPCs induced neuronal differentiation of NSPCs. These findings reveal a novel mechanism by which IAP2 induces neuronal differentiation of NSPCs.

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Integrin-associated protein promotes neuronal differentiation of neural stem/progenitor cells

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