LKB1通过控制音猬因子介导的颗粒细胞前体增殖和颗粒细胞迁移来调节小脑发育。

LKB1 Regulates Cerebellar Development by Controlling Sonic Hedgehog-mediated Granule Cell Precursor Proliferation and Granule Cell Migration.

作者信息

Men Yuqin, Zhang Aizhen, Li Haixiang, Jin Yecheng, Sun Xiaoyang, Li Huashun, Gao Jiangang

机构信息

School of Life Science and Key Laboratory of the Ministry of Education for Experimental Teratology, Shandong University, Jinan 250100, China.

SARITEX Center for Stem Cell, Engineering Translational Medicine, Shanghai East Hospital, Advanced Institute of Translational Medicine, Tongji University School of Medicine, Shanghai 200123, China.

出版信息

Sci Rep. 2015 Nov 9;5:16232. doi: 10.1038/srep16232.

DOI:10.1038/srep16232

PMID:26549569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4637891/

Abstract

The Liver Kinase B1 (LKB1) gene plays crucial roles in cell differentiation, proliferation and the establishment of cell polarity. We created LKB1 conditional knockout mice (LKB1(Atoh1) CKO) to investigate the function of LKB1 in cerebellar development. The LKB1(Atoh1) CKO mice displayed motor dysfunction. In the LKB1(Atoh1) CKO cerebellum, the overall structure had a larger volume and more lobules. LKB1 inactivation led to an increased proliferation of granule cell precursors (GCPs), aberrant granule cell migration and overproduction of unipolar brush cells. To investigate the mechanism underlying the abnormal foliation, we examined sonic hedgehog signalling (Shh) by testing its transcriptional mediators, the Gli proteins, which regulate the GCPs proliferation and cerebellar foliation during cerebellar development. The expression levels of Gli genes were significantly increased in the mutant cerebellum. In vitro assays showed that the proliferation of cultured GCPs from mutant cerebellum significantly increased, whereas the proliferation of mutant GCPs significantly decreased in the presence of a Shh inhibitor GDC-0049. Thus, LKB1 deficiency in the LKB1(Atoh1) CKO mice enhanced Shh signalling, leading to the excessive GCP proliferation and the formation of extra lobules. We proposed that LKB1 regulates cerebellar development by controlling GCPs proliferation through Shh signalling during cerebellar development.

摘要

肝脏激酶B1（LKB1）基因在细胞分化、增殖以及细胞极性的确立中发挥着关键作用。我们构建了LKB1条件性敲除小鼠（LKB1(Atoh1) CKO）以研究LKB1在小脑发育中的功能。LKB1(Atoh1) CKO小鼠表现出运动功能障碍。在LKB1(Atoh1) CKO小鼠的小脑中，整体结构体积更大且叶更多。LKB1失活导致颗粒细胞前体（GCPs）增殖增加、颗粒细胞迁移异常以及单极刷细胞过度产生。为了研究异常叶化背后的机制，我们通过检测其转录调节因子Gli蛋白来研究音猬因子信号通路（Shh），Gli蛋白在小脑发育过程中调节GCPs增殖和小脑叶化。Gli基因的表达水平在突变体小脑中显著增加。体外实验表明，来自突变体小脑的培养GCPs增殖显著增加，而在存在Shh抑制剂GDC - 0049的情况下，突变体GCPs的增殖显著降低。因此，LKB1(Atoh1) CKO小鼠中LKB1的缺乏增强了Shh信号通路，导致GCPs过度增殖和额外叶的形成。我们提出，LKB1在小脑发育过程中通过Shh信号通路控制GCPs增殖来调节小脑发育。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/104b/4637891/227b63b047ee/srep16232-f1.jpg

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LKB1通过控制音猬因子介导的颗粒细胞前体增殖和颗粒细胞迁移来调节小脑发育。

LKB1 Regulates Cerebellar Development by Controlling Sonic Hedgehog-mediated Granule Cell Precursor Proliferation and Granule Cell Migration.

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