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肌萎缩侧索硬化症-融合基因(ALS-FUS)小鼠认知缺陷模型中线粒体功能、蛋白稳态、无义介导的衰变和脑连接功能障碍。

Dysfunction in nonsense-mediated decay, protein homeostasis, mitochondrial function, and brain connectivity in ALS-FUS mice with cognitive deficits.

机构信息

Department of Physiology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, 117549, Singapore.

Department of Medicine, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, Singapore.

出版信息

Acta Neuropathol Commun. 2021 Jan 6;9(1):9. doi: 10.1186/s40478-020-01111-4.

DOI:10.1186/s40478-020-01111-4
PMID:33407930
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7789430/
Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) represent two ends of the same disease spectrum of adult-onset neurodegenerative diseases that affect the motor and cognitive functions, respectively. Multiple common genetic loci such as fused in sarcoma (FUS) have been identified to play a role in ALS and FTD etiology. Current studies indicate that FUS mutations incur gain-of-toxic functions to drive ALS pathogenesis. However, how the disease-linked mutations of FUS affect cognition remains elusive. Using a mouse model expressing an ALS-linked human FUS mutation (R514G-FUS) that mimics endogenous expression patterns, we found that FUS proteins showed an age-dependent accumulation of FUS proteins despite the downregulation of mouse FUS mRNA by the R514G-FUS protein during aging. Furthermore, these mice developed cognitive deficits accompanied by a reduction in spine density and long-term potentiation (LTP) within the hippocampus. At the physiological expression level, mutant FUS is distributed in the nucleus and cytosol without apparent FUS aggregates or nuclear envelope defects. Unbiased transcriptomic analysis revealed a deregulation of genes that cluster in pathways involved in nonsense-mediated decay, protein homeostasis, and mitochondrial functions. Furthermore, the use of in vivo functional imaging demonstrated widespread reduction in cortical volumes but enhanced functional connectivity between hippocampus, basal ganglia and neocortex in R514G-FUS mice. Hence, our findings suggest that disease-linked mutation in FUS may lead to changes in proteostasis and mitochondrial dysfunction that in turn affect brain structure and connectivity resulting in cognitive deficits.

摘要

肌萎缩侧索硬化症(ALS)和额颞叶痴呆(FTD)分别代表成年起病的神经退行性疾病谱中的运动和认知功能的两个极端。已经确定了多个常见的遗传位点,如肉瘤融合(FUS),在 ALS 和 FTD 的发病机制中发挥作用。目前的研究表明,FUS 突变获得毒性功能,从而驱动 ALS 的发病机制。然而,FUS 的疾病相关突变如何影响认知仍然难以捉摸。使用表达模拟内源性表达模式的 ALS 相关人类 FUS 突变(R514G-FUS)的小鼠模型,我们发现尽管 R514G-FUS 蛋白下调了小鼠 FUS mRNA,但 FUS 蛋白仍表现出年龄依赖性的积累。此外,这些小鼠在衰老过程中表现出认知缺陷,伴随着海马体中的棘密度和长时程增强(LTP)减少。在生理表达水平下,突变型 FUS 分布在核和细胞质中,没有明显的 FUS 聚集或核膜缺陷。无偏转录组分析显示,参与无义介导的衰变、蛋白质稳态和线粒体功能的途径中的基因失调。此外,体内功能成像的使用表明,R514G-FUS 小鼠的皮质体积广泛减少,但海马体、基底神经节和新皮层之间的功能连接增强。因此,我们的研究结果表明,FUS 中的疾病相关突变可能导致蛋白质稳态和线粒体功能障碍的改变,进而影响大脑结构和连接,导致认知缺陷。

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