3'UTR 长度依赖性控制 SynGAP 同工型 α2 mRNA 通过 FUS 和 ELAV 样蛋白促进树突棘成熟和认知功能。

3'UTR Length-Dependent Control of SynGAP Isoform α2 mRNA by FUS and ELAV-like Proteins Promotes Dendritic Spine Maturation and Cognitive Function.

机构信息

Department of Neurology, Nagoya University Graduate School of Medicine, Nagoya, Aichi 466-8550, Japan.

Department of Neurology, Nagoya University Graduate School of Medicine, Nagoya, Aichi 466-8550, Japan; Graduate School of Pharmaceutical Sciences, Tohoku University, Sendai, Miyagi 980-8578, Japan.

出版信息

Cell Rep. 2017 Sep 26;20(13):3071-3084. doi: 10.1016/j.celrep.2017.08.100.

DOI:10.1016/j.celrep.2017.08.100

PMID:28954225

Abstract

FUS is an RNA-binding protein associated with frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis (ALS). Previous reports have demonstrated intrinsic roles of FUS in synaptic function. However, the mechanism underlying FUS's regulation of synaptic morphology has remained unclear. We found that reduced mature spines after FUS depletion were associated with the internalization of PSD-95 within the dendritic shaft. Mass spectrometry of PSD-95-interacting proteins identified SynGAP, whose expression decreased after FUS depletion. Moreover, FUS and the ELAV-like proteins ELAVL4 and ELAVL1 control SynGAP mRNA stability in a 3'UTR length-dependent manner, resulting in the stable expression of the alternatively spliced SynGAP isoform α2. Finally, abnormal spine maturation and FTLD-like behavioral deficits in FUS-knockout mice were ameliorated by SynGAP α2. Our findings establish an important link between FUS and ELAVL proteins for mRNA stability control and indicate that this mechanism is crucial for the maintenance of synaptic morphology and cognitive function.

摘要

FUS 是一种与额颞叶变性（FTLD）和肌萎缩侧索硬化症（ALS）相关的 RNA 结合蛋白。先前的报告表明 FUS 在突触功能中有内在作用。然而，FUS 调节突触形态的机制尚不清楚。我们发现 FUS 耗竭后成熟棘突减少与 PSD-95 内在化到树突干有关。PSD-95 相互作用蛋白的质谱分析鉴定出 SynGAP，其表达在 FUS 耗竭后减少。此外，FUS 和 ELAV 样蛋白 ELAVL4 和 ELAVL1 以 3'UTR 长度依赖性方式控制 SynGAP mRNA 的稳定性，导致替代性剪接的 SynGAP 同工型α2 的稳定表达。最后，FUS 敲除小鼠的异常棘突成熟和 FTLD 样行为缺陷通过 SynGAP α2 得到改善。我们的发现建立了 FUS 和 ELAVL 蛋白在 mRNA 稳定性控制方面的重要联系，并表明该机制对于维持突触形态和认知功能至关重要。

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3'UTR 长度依赖性控制 SynGAP 同工型 α2 mRNA 通过 FUS 和 ELAV 样蛋白促进树突棘成熟和认知功能。

3'UTR Length-Dependent Control of SynGAP Isoform α2 mRNA by FUS and ELAV-like Proteins Promotes Dendritic Spine Maturation and Cognitive Function.

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