分子网络分析为9号染色体开放阅读框72（C9orf72）在肌萎缩侧索硬化症/额颞叶痴呆中的病理作用提出了一个合理的假设。

Molecular network analysis suggests a logical hypothesis for the pathological role of c9orf72 in amyotrophic lateral sclerosis/frontotemporal dementia.

作者信息

Satoh Jun-Ichi, Yamamoto Yoji, Kitano Shouta, Takitani Mika, Asahina Naohiro, Kino Yoshihiro

机构信息

Department of Bioinformatics and Molecular Neuropathology, Meiji Pharmaceutical University, Kiyose, Tokyo, Japan.

出版信息

J Cent Nerv Syst Dis. 2014 Aug 24;6:69-78. doi: 10.4137/JCNSD.S18103. eCollection 2014.

DOI:10.4137/JCNSD.S18103

PMID:25210488

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4149381/

Abstract

BACKGROUND

Expanded GGGGCC hexanucleotide repeats, ranging from hundreds to thousands in number, located in the noncoding region of the chromosome 9 open reading frame 72 (C9orf72) gene represent the most common genetic abnormality for familial and sporadic amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) (abbreviated as C9ALS). Currently, three pathological mechanisms, such as haplo insufficiency of C9orf72, formation of nuclear RNA foci composed of sense and antisense repeats, and accumulation of unconventionally transcribed dipeptide-repeat (DPR) proteins, are proposed for C9ALS. However, at present, the central mechanism underlying neurodegeneration in C9ALS remains largely unknown.

METHODS

By using three distinct pathway analysis tools of bioinformatics, we studied molecular networks involved in C9ALS pathology by focusing on C9orf72 omics datasets, such as proteome of C9orf72 repeat RNA-binding proteins, transcriptome of induced pluripotent stem cells (iPSC)-derived motor neurons of patients with C9ALS, and transcriptome of purified motor neurons of patients with C9ALS.

RESULTS

We found that C9orf72 repeat RNA-binding proteins play a crucial role in the regulation of post-transcriptional RNA processing. The expression of a wide range of extracellular matrix proteins and matrix metalloproteinases was reduced in iPSC-derived motor neurons of patients with C9ALS. The regulation of RNA processing and cytoskeletal dynamics is disturbed in motor neurons of patients with C9ALS in vivo.

CONCLUSIONS

Bioinformatics data mining approach suggests a logical hypothesis that C9orf72 repeat expansions that deregulate post-transcriptional RNA processing disturb the homeostasis of cytoskeletal dynamics and remodeling of extracellular matrix, leading to degeneration of stress-vulnerable neurons in the brain and spinal cord of patients with C9ALS.

摘要

背景

位于9号染色体开放阅读框72（C9orf72）基因非编码区的扩展型GGGGCC六核苷酸重复序列，数量从数百到数千不等，是家族性和散发性肌萎缩侧索硬化症（ALS）及额颞叶痴呆（FTD）（简称为C9ALS）最常见的遗传异常。目前，针对C9ALS提出了三种病理机制，如C9orf72单倍体不足、由有义和反义重复序列组成的核RNA病灶的形成以及非常规转录的二肽重复（DPR）蛋白的积累。然而，目前C9ALS神经退行性变的核心机制仍 largely未知。

方法

通过使用三种不同的生物信息学通路分析工具，我们聚焦于C9orf72组学数据集，如C9orf72重复RNA结合蛋白的蛋白质组、C9ALS患者诱导多能干细胞（iPSC）衍生运动神经元的转录组以及C9ALS患者纯化运动神经元的转录组，研究了参与C9ALS病理过程的分子网络。

结果

我们发现C9orf72重复RNA结合蛋白在转录后RNA加工的调控中起关键作用。在C9ALS患者的iPSC衍生运动神经元中，多种细胞外基质蛋白和基质金属蛋白酶的表达降低。在体内，C9ALS患者的运动神经元中RNA加工和细胞骨架动力学的调控受到干扰。

结论

生物信息学数据挖掘方法提出了一个合理的假设，即C9orf72重复序列的扩增会破坏转录后RNA加工，进而扰乱细胞骨架动力学的稳态和细胞外基质的重塑，导致C9ALS患者脑和脊髓中应激易损神经元的退化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d07b/4149381/20809298fd4a/jcnsd-6-2014-069f1.jpg

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分子网络分析为9号染色体开放阅读框72（C9orf72）在肌萎缩侧索硬化症/额颞叶痴呆中的病理作用提出了一个合理的假设。

Molecular network analysis suggests a logical hypothesis for the pathological role of c9orf72 in amyotrophic lateral sclerosis/frontotemporal dementia.

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