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将蛋白水解系统从肌萎缩侧索硬化症小鼠模型的脊髓中的泛素-蛋白酶体系统切换到自噬。

Switching the Proteolytic System from the Ubiquitin-Proteasome System to Autophagy in the Spinal Cord of an Amyotrophic Lateral Sclerosis Mouse Model.

机构信息

Department of Neurology, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University, 2-5-1 Shikata-cho, Kita-Ku, Okayama 700-8558, Japan.

Department of Neurology, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University, 2-5-1 Shikata-cho, Kita-Ku, Okayama 700-8558, Japan.

出版信息

Neuroscience. 2021 Jul 1;466:47-57. doi: 10.1016/j.neuroscience.2021.04.034. Epub 2021 May 8.

DOI:10.1016/j.neuroscience.2021.04.034
PMID:33974963
Abstract

The degradation of damaged proteins takes place via two major proteolytic pathways: the ubiquitin-proteasome system (UPS) and autophagy. However, since it is unclear how these two proteolytic pathways contribute to the pathogenesis of amyotrophic lateral sclerosis (ALS), we investigated the switching mechanism from UPS to autophagy by pharmacologically modifying these pathways by treating the spinal cords of female ALS mouse model bearing G93A human SOD1 (G93A mice) with MG132 or 3-methyladenine (3MA). G93A mice exhibited a progressive increase in the amount of ubiquitin and p62 aggregates, BAG3 expression, and LC3-II/LC3-I ratio in both astroglia and motor neurons. Treatment with MG132 or 3MA significantly increased the clinical hanging wire score and exacerbated α-motor neuron loss at 18 weeks in G93A mice, and increased the amount of ubiquitin, p62 aggregates, and BAG3 expression. This study's results demonstrate that the molecular switch from UPS to autophagy occurred not only in motor neurons but also in astroglia at the end stage (18 weeks) when the autophagic flux was impaired in G93A mice. This finding suggests that the defense system was disrupted against aggregate-prone protein production in ALS.

摘要

受损蛋白质的降解通过两种主要的蛋白水解途径发生

泛素-蛋白酶体系统 (UPS) 和自噬。然而,由于尚不清楚这两种蛋白水解途径如何导致肌萎缩侧索硬化症 (ALS) 的发病机制,因此我们通过用 MG132 或 3-甲基腺嘌呤 (3MA) 对脊髓进行药物修饰来研究从 UPS 到自噬的转换机制,从而研究了该途径。携带 G93A 人类 SOD1 的雌性 ALS 小鼠模型 (G93A 小鼠)。G93A 小鼠在星形胶质细胞和运动神经元中表现出泛素和 p62 聚集体、BAG3 表达和 LC3-II/LC3-I 比值的逐渐增加。用 MG132 或 3MA 治疗可显著增加 G93A 小鼠的临床悬线评分,并在 18 周时加剧α-运动神经元丢失,并增加泛素、p62 聚集体和 BAG3 表达的量。这项研究的结果表明,分子开关从 UPS 到自噬不仅发生在运动神经元中,而且在自噬通量受损的 G93A 小鼠的终末期(18 周)也发生在星形胶质细胞中。这一发现表明,防御系统被破坏,无法应对 ALS 中易于聚集的蛋白质的产生。

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