双亮氨酸拉链激酶调控小鼠神经细胞轴突引导基因的表达。

IF 4 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY Neural Development Pub Date : 2016-07-28 DOI:10.1186/s13064-016-0068-8
Andréanne Blondeau, Jean-François Lucier, Dominick Matteau, Lauralyne Dumont, Sébastien Rodrigue, Pierre-Étienne Jacques, Richard Blouin
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引用次数: 4

摘要

背景:最近在果蝇、秀丽隐杆线虫和小鼠等模式生物中的遗传学研究强调了双亮氨酸拉链激酶(dual leucine zipper kinase, DLK)在神经发育和轴突损伤反应中的关键作用。然而,DLK究竟如何实现这些功能仍有待确定。使用RNA-seq分析,我们评估了分化的神经-2a神经母细胞瘤细胞中shrna介导的内源性DLK敲低引起的基因表达的全局变化。结果:我们的分析鉴定出了许多上调和下调的基因,其中根据基因本体(GO)和京都基因与基因组百科全书(KEGG)途径分析,发现了一些与系统发育和轴突引导相关的基因。由于它们在发育和成年期轴突生长、修剪和再生中的重要性,我们随后通过定量RT-PCR检测了已鉴定的轴突引导基因在dlk -缺失细胞中的mRNA表达水平。与RNA-seq数据一致,我们的结果证实DLK的缺失改变了编码神经肽1 (Nrp1)、丛蛋白A4 (Plxna4)、Eph受体A7 (Epha7)、Rho家族GTPase 1 (Rnd1)和信号蛋白6B (Sema6b)的基因的表达。有趣的是,DLK在神经2a细胞中对Nrp1和Plxna4 mRNA表达的调节也反映在蛋白水平上,暗示DLK参与了这些轴突引导分子功能的调节。综上所述,这些结果首次证明轴突引导基因是DLK信号通路的下游靶点,并通过其调控可能调节神经元细胞的发育、结构和功能。
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Dual leucine zipper kinase regulates expression of axon guidance genes in mouse neuronal cells.

Background: Recent genetic studies in model organisms, such as Drosophila, C. elegans and mice, have highlighted a critical role for dual leucine zipper kinase (DLK) in neural development and axonal responses to injury. However, exactly how DLK fulfills these functions remains to be determined. Using RNA-seq profiling, we evaluated the global changes in gene expression that are caused by shRNA-mediated knockdown of endogenous DLK in differentiated Neuro-2a neuroblastoma cells.

Results: Our analysis led to the identification of numerous up- and down-regulated genes, among which several were found to be associated with system development and axon guidance according to gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses, respectively. Because of their importance in axonal growth, pruning and regeneration during development and adult life, we then examined by quantitative RT-PCR the mRNA expression levels of the identified axon guidance genes in DLK-depleted cells. Consistent with the RNA-seq data, our results confirmed that loss of DLK altered expression of the genes encoding neuropilin 1 (Nrp1), plexin A4 (Plxna4), Eph receptor A7 (Epha7), Rho family GTPase 1 (Rnd1) and semaphorin 6B (Sema6b). Interestingly, this regulation of Nrp1 and Plxna4 mRNA expression by DLK in Neuro-2a cells was also reflected at the protein level, implicating DLK in the modulation of the function of these axon guidance molecules.

Conclusions: Collectively, these results provide the first evidence that axon guidance genes are downstream targets of the DLK signaling pathway, which through their regulation probably modulates neuronal cell development, structure and function.

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来源期刊
Neural Development
Neural Development 生物-发育生物学
CiteScore
6.60
自引率
0.00%
发文量
11
审稿时长
>12 weeks
期刊介绍: Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.
期刊最新文献
Correction: Embryonic development of a centralised brain in coleoid cephalopods. Terminal differentiation precedes functional circuit integration in the peduncle neurons in regenerating Hydra vulgaris. Mapping the cellular expression patterns of vascular endothelial growth factor aa and bb genes and their receptors in the adult zebrafish brain during constitutive and regenerative neurogenesis LRRK2 kinase activity is necessary for development and regeneration in Nematostella vectensis. Correction: scMultiome analysis identifies a single caudal hindbrain compartment in the developing zebrafish nervous system
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