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鉴定和治疗 C9ORF72 和散发性 ALS 神经元中的自噬体和谷氨酸受体缺陷。

Identification and therapeutic rescue of autophagosome and glutamate receptor defects in C9ORF72 and sporadic ALS neurons.

机构信息

Department of Stem Cell Biology and Regenerative Medicine, Keck School of Medicine, University of Southern California, Los Angeles, California, USA.

Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at USC, Los Angeles, California, USA.

出版信息

JCI Insight. 2019 Jul 16;5(15):127736. doi: 10.1172/jci.insight.127736.

DOI:10.1172/jci.insight.127736
PMID:31310593
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6693831/
Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal motor neuron disease with diverse etiologies. Therefore, the identification of common disease mechanisms and therapeutics targeting these mechanisms could dramatically improve clinical outcomes. To this end, we developed induced motor neuron (iMN) models from C9ORF72 and sporadic ALS (sALS) patients to identify targets that are effective against these types of cases, which together comprise ~90% of patients. We find that iMNs from C9ORF72 and several sporadic ALS patients share two common defects - impaired autophagosome formation and the aberrant accumulation of glutamate receptors. Moreover, we show that an anticoagulation-deficient form of activated protein C, 3K3A-APC, rescues these defects in both C9ORF72 and sporadic ALS iMNs. As a result, 3K3A-APC treatment lowers C9ORF72 dipeptide repeat protein (DPR) levels, restores nuclear TDP-43 localization, and rescues the survival of both C9ORF72 and sporadic ALS iMNs. Importantly, 3K3A-APC also lowers glutamate receptor levels and rescues proteostasis in vivo in C9ORF72 gain- and loss-of-function mouse models. Thus, motor neurons from C9ORF72 and at least a subset of sporadic ALS patients share common, early defects in autophagosome formation and glutamate receptor homeostasis and a single therapeutic approach may be efficacious against these disease processes.

摘要

肌萎缩侧索硬化症(ALS)是一种致命的运动神经元疾病,具有多种病因。因此,鉴定共同的疾病机制和针对这些机制的治疗方法可能会显著改善临床结果。为此,我们从 C9ORF72 和散发性 ALS(sALS)患者中开发了诱导运动神经元(iMN)模型,以鉴定针对这些病例有效的靶点,这些病例共同构成了约 90%的患者。我们发现,来自 C9ORF72 和几位散发性 ALS 患者的 iMN 存在两个共同缺陷-自噬体形成受损和谷氨酸受体异常积累。此外,我们表明,活化蛋白 C 的一种抗凝缺陷形式,3K3A-APC,可挽救 C9ORF72 和散发性 ALS iMN 中的这些缺陷。结果,3K3A-APC 治疗降低了 C9ORF72 二肽重复蛋白(DPR)水平,恢复了核 TDP-43 定位,并挽救了 C9ORF72 和散发性 ALS iMN 的存活。重要的是,3K3A-APC 还降低了谷氨酸受体水平,并在 C9ORF72 获得和丧失功能的小鼠模型中挽救了体内的蛋白质稳态。因此,来自 C9ORF72 和至少一部分散发性 ALS 患者的运动神经元共享自噬体形成和谷氨酸受体稳态的共同早期缺陷,单一治疗方法可能对这些疾病过程有效。

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