Regulation of neural stem cell proliferation and differentiation by Kinesin family member 2a

Dong Sun; Xue Zhou; Hua Li Yu; Xiao Xiao He; Wei Xiang Guo; Wen Cheng Xiong; Xiao Juan Zhu

doi:10.1371/journal.pone.0179047

Regulation of neural stem cell proliferation and differentiation by Kinesin family member 2a

Dong Sun, Xue Zhou, Hua Li Yu, Xiao Xiao He, Wei Xiang Guo, Wen Cheng Xiong, Xiao Juan Zhu

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

16 Scopus citations

Abstract

In the developing neocortex, cells in the ventricular/subventricular zone are largely multipotent neural stem cells and neural progenitor cells. These cells undergo self-renewal at the early stage of embryonic development to amplify the progenitor pool and subsequently differentiate into neurons. It is thus of considerable interest to investigate mechanisms controlling the switch from neural stem cells or neural progenitor cells to neurons. Here, we present evidence that Kif2a, a member of the Kinesin-13 family, plays a role in regulating the proliferation and differentiation of neural stem cells or neural progenitor cells at embryonic day 13.5. Silencing Kif2a by use of in utero electroporation of Kif2a shRNA reduced neural stem cells proliferation or self-renewal but increased neuronal differentiation. We further found that knockdown of Kif2a decreased the protein level of β-catenin, which is a critical molecule for neocortical neurogenesis. Together, these results reveal an important function of Kif2a in embryonic neocortical neurogenesis.

Original language	English (US)
Article number	e0179047
Journal	PloS one
Volume	12
Issue number	6
DOIs	https://doi.org/10.1371/journal.pone.0179047
State	Published - Jun 2017

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences
General

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title = "Regulation of neural stem cell proliferation and differentiation by Kinesin family member 2a",

abstract = "In the developing neocortex, cells in the ventricular/subventricular zone are largely multipotent neural stem cells and neural progenitor cells. These cells undergo self-renewal at the early stage of embryonic development to amplify the progenitor pool and subsequently differentiate into neurons. It is thus of considerable interest to investigate mechanisms controlling the switch from neural stem cells or neural progenitor cells to neurons. Here, we present evidence that Kif2a, a member of the Kinesin-13 family, plays a role in regulating the proliferation and differentiation of neural stem cells or neural progenitor cells at embryonic day 13.5. Silencing Kif2a by use of in utero electroporation of Kif2a shRNA reduced neural stem cells proliferation or self-renewal but increased neuronal differentiation. We further found that knockdown of Kif2a decreased the protein level of β-catenin, which is a critical molecule for neocortical neurogenesis. Together, these results reveal an important function of Kif2a in embryonic neocortical neurogenesis.",

author = "Dong Sun and Xue Zhou and Yu, {Hua Li} and He, {Xiao Xiao} and Guo, {Wei Xiang} and Xiong, {Wen Cheng} and Zhu, {Xiao Juan}",

note = "Funding Information: This work was supported by the Program of International S and T Cooperation (2015DFA31580), the National Natural Science Foundation of China (31401192, 31271486), the Jilin Provincial Key Laboratory of Neural Plasticity (20160622020JC) and China scholarship council (201506620038). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Publisher Copyright: {\textcopyright} 2017 Sun et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

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N2 - In the developing neocortex, cells in the ventricular/subventricular zone are largely multipotent neural stem cells and neural progenitor cells. These cells undergo self-renewal at the early stage of embryonic development to amplify the progenitor pool and subsequently differentiate into neurons. It is thus of considerable interest to investigate mechanisms controlling the switch from neural stem cells or neural progenitor cells to neurons. Here, we present evidence that Kif2a, a member of the Kinesin-13 family, plays a role in regulating the proliferation and differentiation of neural stem cells or neural progenitor cells at embryonic day 13.5. Silencing Kif2a by use of in utero electroporation of Kif2a shRNA reduced neural stem cells proliferation or self-renewal but increased neuronal differentiation. We further found that knockdown of Kif2a decreased the protein level of β-catenin, which is a critical molecule for neocortical neurogenesis. Together, these results reveal an important function of Kif2a in embryonic neocortical neurogenesis.

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Regulation of neural stem cell proliferation and differentiation by Kinesin family member 2a

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