FTD/ALS 7型相关的CHMP2B Thr104Asn突变使神经元过程伸长变钝,并通过敲低高尔基应激调节因子Arf4来恢复。

IF 3.2 Q2 CLINICAL NEUROLOGY Neurology International Pub Date : 2023-08-11 DOI:10.3390/neurolint15030063
Remina Shirai, Mizuka Cho, Mikinori Isogai, Shoya Fukatsu, Miyu Okabe, Maho Okawa, Yuki Miyamoto, Tomohiro Torii, Junji Yamauchi
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引用次数: 0

摘要

额颞叶痴呆和/或肌萎缩侧索硬化症7型(FTD/ALS7)是一种常染色体显性神经退行性疾病,以FTD和/或ALS发病为特征,主要发生在成年期。具有某些类型突变的患者,包括带电多泡体蛋白2B (CHMP2B)的Thr104Asn (T104N)突变,主要具有ALS表型,而具有其他突变的患者主要具有FTD表型。一些突变导致患者具有两种表型大致相同;然而,表型不同的原因取决于突变的位置是未知的。CHMP2B包括细胞质中运输所需的内体分选复合物(ESCRT)的一部分,特别是ESCRT- iii。我们首次在N1E-115细胞系(一种经历神经元分化的模型细胞系)中描述了具有T104N突变的CHMP2B抑制神经元过程伸长。这种抑制表型伴随着标记蛋白表达的变化。值得注意的是,具有T104N突变的CHMP2B,而不是野生型,优先在高尔基体中积累。在目前已知的四种主要高尔基应激信号通路中,通过小GTPase Arf4的通路在表达CHMP2B的T104N突变细胞中特异性上调。相反,用同源的小干扰(si)RNA敲低Arf4可以恢复被T104N突变抑制的神经元过程伸长。这些结果表明,CHMP2B的T104N突变通过触发高尔基应激信号抑制形态分化,揭示了恢复FTD/ als潜在分子和细胞表型的可能的治疗分子靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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FTD/ALS Type 7-Associated Thr104Asn Mutation of CHMP2B Blunts Neuronal Process Elongation, and Is Recovered by Knockdown of Arf4, the Golgi Stress Regulator.

Frontotemporal dementia and/or amyotrophic lateral sclerosis type 7 (FTD/ALS7) is an autosomal dominant neurodegenerative disorder characterized by the onset of FTD and/or ALS, mainly in adulthood. Patients with some types of mutations, including the Thr104Asn (T104N) mutation of charged multivesicular body protein 2B (CHMP2B), have predominantly ALS phenotypes, whereas patients with other mutations have predominantly FTD phenotypes. A few mutations result in patients having both phenotypes approximately equally; however, the reason why phenotypes differ depending on the position of the mutation is unknown. CHMP2B comprises one part of the endosomal sorting complexes required for transport (ESCRT), specifically ESCRT-III, in the cytoplasm. We describe here, for the first time, that CHMP2B with the T104N mutation inhibits neuronal process elongation in the N1E-115 cell line, a model line undergoing neuronal differentiation. This inhibitory phenotype was accompanied by changes in marker protein expression. Of note, CHMP2B with the T104N mutation, but not the wild-type form, was preferentially accumulated in the Golgi body. Of the four major Golgi stress signaling pathways currently known, the pathway through Arf4, the small GTPase, was specifically upregulated in cells expressing CHMP2B with the T104N mutation. Conversely, knockdown of Arf4 with the cognate small interfering (si)RNA recovered the neuronal process elongation inhibited by the T104N mutation. These results suggest that the T104N mutation of CHMP2B inhibits morphological differentiation by triggering Golgi stress signaling, revealing a possible therapeutic molecular target for recovering potential molecular and cellular phenotypes underlying FTD/ALS7.

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来源期刊
Neurology International
Neurology International CLINICAL NEUROLOGY-
CiteScore
3.70
自引率
3.30%
发文量
69
审稿时长
11 weeks
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