淀粉样蛋白-β通过扭曲初级纤毛结构来中断典型的Sonic hedgehog信号传导。

Q2 Biochemistry, Genetics and Molecular Biology Cilia Pub Date : 2018-08-17 eCollection Date: 2018-01-01 DOI:10.1186/s13630-018-0059-y
Anna G Vorobyeva, Aleister J Saunders
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引用次数: 33

摘要

背景:初级纤毛是在大多数脊椎动物细胞(包括皮质和海马神经元)上表达的小的不可运动的微管和细胞膜突起。这些小细胞器作为感觉结构,对细胞外环境进行采样,并对转录机制进行重新编程,以响应环境变化。初级纤毛由多种受体蛋白修饰,是特定信号级联反应如Sonic hedgehog (Shh)通路所必需的。破坏纤毛结构或功能导致一系列疾病,统称为纤毛病。人类纤毛病常见的症状是认知障碍,阿尔茨海默病(AD)也有这种症状。阿尔茨海默病的一个标志是由神经毒性淀粉样蛋白-β (Aβ)肽组成的老年斑的积累。Aβ肽是由淀粉样前体蛋白(APP)的蛋白水解裂解产生的。我们开始确定Aβ是否影响初级纤毛结构和Shh信号级联。方法:我们利用体外细胞检测结合荧光共聚焦显微镜来实现我们的研究目标。使用小鼠NIH3T3和人HeLa细胞两种不同的细胞系研究了Shh信号传导和纤毛结构。为了研究Aβ水平如何影响这些细胞中的Shh信号传导和纤毛结构,我们利用了自然分泌的Aβ和合成的Aβ。荧光素酶活性评估对Shh信号的影响,荧光显微镜分析纤毛结构。结果:我们报道了APP定位于初级纤毛,而Aβ治疗导致初级纤毛结构扭曲。此外,我们证明了Aβ治疗阻断了典型的Shh信号转导。结论:总的来说,我们的研究表明,Aβ可以改变原发纤毛结构,这表明Aβ水平升高,就像在AD患者中观察到的那样,可能对大脑神经元原发纤毛有类似的影响。此外,我们的研究表明,Aβ损害Shh信号通路。总之,我们的发现揭示了未来阿尔茨海默病治疗的两个新靶点。
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Amyloid-β interrupts canonical Sonic hedgehog signaling by distorting primary cilia structure.

Background: Primary cilia are small non-motile microtubule and cell membrane protrusions expressed on most vertebrate cells, including cortical and hippocampal neurons. These small organelles serve as sensory structures sampling the extracellular environment and reprogramming the transcriptional machinery in response to environmental change. Primary cilia are decorated with a variety of receptor proteins and are necessary for specific signaling cascades such as the Sonic hedgehog (Shh) pathway. Disrupting cilia structure or function results in a spectrum of diseases collectively referred to as ciliopathies. Common to human ciliopathies is cognitive impairment, a symptom also observed in Alzheimer's disease (AD). One hallmark of AD is accumulation of senile plaques composed of neurotoxic Amyloid-β (Aβ) peptide. The Aβ peptide is generated by the proteolytic cleavage of the amyloid precursor protein (APP). We set out to determine if Aβ affects primary cilia structure and the Shh signaling cascade.

Methods: We utilized in vitro cell-based assays in combination with fluorescent confocal microscopy to address our study goals. Shh signaling and cilia structure was studied using two different cell lines, mouse NIH3T3 and human HeLa cells. To investigate how Aβ levels affect Shh signaling and cilia structure in these cells, we utilized naturally secreted Aβ as well as synthetic Aβ. Effects on Shh signaling were assessed by luciferase activity while cilia structure was analyzed by fluorescent microscopy.

Results: Here, we report that APP localizes to primary cilia and Aβ treatment results in distorted primary cilia structure. In addition, we demonstrate that Aβ treatment interrupts canonical Shh signal transduction.

Conclusions: Overall, our study illustrates that Aβ can alter primary cilia structure suggesting that elevated Aβ levels, like those observed in AD patients, could have similar effects on neuronal primary cilia in the brain. Additionally, our study suggests that Aβ impairs the Shh signaling pathway. Together our findings shed light on two novel targets for future AD therapeutics.

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来源期刊
Cilia
Cilia Biochemistry, Genetics and Molecular Biology-Cell Biology
CiteScore
6.40
自引率
0.00%
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0
期刊最新文献
SF-Assemblin genes in Paramecium: phylogeny and phenotypes of RNAi silencing on the ciliary-striated rootlets and surface organization New software for automated cilia detection in cells (ACDC) Glioma cell proliferation is enhanced in the presence of tumor-derived cilia vesicles. Amyloid-β interrupts canonical Sonic hedgehog signaling by distorting primary cilia structure. Evidence of primary cilia in the developing rat heart.
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