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REST通过分泌粒蛋白II调节神经祖细胞的非细胞自主性神经元分化和成熟。

REST Regulates Non-Cell-Autonomous Neuronal Differentiation and Maturation of Neural Progenitor Cells via Secretogranin II.

作者信息

Kim Hyung Joon, Denli Ahmet M, Wright Rebecca, Baul Tithi D, Clemenson Gregory D, Morcos Ari S, Zhao Chunmei, Schafer Simon T, Gage Fred H, Kagalwala Mohamedi N

机构信息

Laboratory of Genetics, The Salk Institute for Biological Studies, La Jolla, California 92037, and.

Laboratory of Genetics, The Salk Institute for Biological Studies, La Jolla, California 92037, and Program in Neuroscience, Harvard University, Boston, Massachusetts 02138.

出版信息

J Neurosci. 2015 Nov 4;35(44):14872-84. doi: 10.1523/JNEUROSCI.4286-14.2015.

DOI:10.1523/JNEUROSCI.4286-14.2015
PMID:26538656
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4635134/
Abstract

UNLABELLED

RE-1 silencing transcription factor (REST), a master negative regulator of neuronal differentiation, controls neurogenesis by preventing the differentiation of neural stem cells. Here we focused on the role of REST in the early steps of differentiation and maturation of adult hippocampal progenitors (AHPs). REST knockdown promoted differentiation and affected the maturation of rat AHPs. Surprisingly, REST knockdown cells enhanced the differentiation of neighboring wild-type AHPs, suggesting that REST may play a non-cell-autonomous role. Gene expression analysis identified Secretogranin II (Scg2) as the major secreted REST target responsible for the non-cell-autonomous phenotype. Loss-of-function of Scg2 inhibited differentiation in vitro, and exogenous SCG2 partially rescued this phenotype. Knockdown of REST in neural progenitors in mice led to precocious maturation into neurons at the expense of mushroom spines in vivo. In summary, we found that, in addition to its cell-autonomous function, REST regulates differentiation and maturation of AHPs non-cell-autonomously via SCG2.

SIGNIFICANCE STATEMENT

Our results reveal that REST regulates differentiation and maturation of neural progenitor cells in vitro by orchestrating both cell-intrinsic and non-cell-autonomous factors and that Scg2 is a major secretory target of REST with a differentiation-enhancing activity in a paracrine manner. In vivo, REST depletion causes accelerated differentiation of newborn neurons at the expense of spine defects, suggesting a potential role for REST in the timing of the maturation of granule neurons.

摘要

未标记

沉默转录因子1(REST)是神经元分化的主要负调控因子,通过阻止神经干细胞的分化来控制神经发生。在此,我们聚焦于REST在成年海马祖细胞(AHP)分化和成熟早期阶段的作用。敲低REST可促进大鼠AHP的分化并影响其成熟。令人惊讶的是,敲低REST的细胞增强了邻近野生型AHP的分化,这表明REST可能发挥非细胞自主性作用。基因表达分析确定分泌粒蛋白II(Scg2)是导致非细胞自主性表型的主要分泌型REST靶点。Scg2功能缺失在体外抑制分化,而外源性SCG2可部分挽救此表型。在小鼠神经祖细胞中敲低REST导致体内过早成熟为神经元,代价是蘑菇状棘突减少。总之,我们发现,除了其细胞自主性功能外,REST还通过Scg2非细胞自主性地调节AHP的分化和成熟。

意义声明

我们的结果表明,REST通过协调细胞内在和非细胞自主性因素在体外调节神经祖细胞的分化和成熟,并且Scg2是REST的主要分泌靶点,具有旁分泌方式的增强分化活性。在体内,REST缺失导致新生神经元加速分化,代价是脊柱缺陷,这表明REST在颗粒神经元成熟时间方面可能发挥潜在作用。

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