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导致人类遗传性神经病变的HSPB1突变破坏了运动神经元的非细胞自主保护作用。

HSPB1 mutations causing hereditary neuropathy in humans disrupt non-cell autonomous protection of motor neurons.

作者信息

Heilman Patrick L, Song SungWon, Miranda Carlos J, Meyer Kathrin, Srivastava Amit K, Knapp Amy, Wier Christopher G, Kaspar Brian K, Kolb Stephen J

机构信息

Department of Biological Chemistry & Pharmacology, The Ohio State University Wexner Medical Center, Columbus, OH, United States.

The Research Institute, Nationwide Children's Hospital, Columbus, OH 43205, United States.

出版信息

Exp Neurol. 2017 Nov;297:101-109. doi: 10.1016/j.expneurol.2017.08.002. Epub 2017 Aug 7.

DOI:10.1016/j.expneurol.2017.08.002
PMID:28797631
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5612892/
Abstract

Heat shock protein beta-1 (HSPB1), is a ubiquitously expressed, multifunctional protein chaperone. Mutations in HSPB1 result in the development of a late-onset, distal hereditary motor neuropathy type II (dHMN) and axonal Charcot-Marie Tooth disease with sensory involvement (CMT2F). The functional consequences of HSPB1 mutations associated with hereditary neuropathy are unknown. HSPB1 also displays neuroprotective properties in many neuronal disease models, including the motor neuron disease amyotrophic lateral sclerosis (ALS). HSPB1 is upregulated in SOD1-ALS animal models during disease progression, predominately in glial cells. Glial cells are known to contribute to motor neuron loss in ALS through a non-cell autonomous mechanism. In this study, we examined the non-cell autonomous role of wild type and mutant HSPB1 in an astrocyte-motor neuron co-culture model system of ALS. Astrocyte-specific overexpression of wild type HSPB1 was sufficient to attenuate SOD1(G93A) astrocyte-mediated toxicity in motor neurons, whereas, overexpression of mutHSPB1 failed to ameliorate motor neuron toxicity. Expression of a phosphomimetic HSPB1 mutant in SOD1(G93A) astrocytes also reduced toxicity to motor neurons, suggesting that phosphorylation may contribute to HSPB1 mediated-neuroprotection. These data provide evidence that astrocytic HSPB1 expression may play a central role in motor neuron health and maintenance.

摘要

热休克蛋白β-1(HSPB1)是一种广泛表达的多功能蛋白伴侣。HSPB1突变会导致迟发性II型远端遗传性运动神经病(dHMN)以及伴有感觉障碍的轴索性夏科-马里-图斯病(CMT2F)的发生。与遗传性神经病相关的HSPB1突变的功能后果尚不清楚。在许多神经元疾病模型中,包括运动神经元疾病肌萎缩侧索硬化症(ALS),HSPB1也表现出神经保护特性。在SOD1-ALS动物模型的疾病进展过程中,HSPB1表达上调,主要在胶质细胞中。已知胶质细胞通过非细胞自主机制导致ALS中的运动神经元丧失。在本研究中,我们在ALS的星形胶质细胞-运动神经元共培养模型系统中研究了野生型和突变型HSPB1的非细胞自主作用。野生型HSPB1在星形胶质细胞中的特异性过表达足以减轻SOD1(G93A)星形胶质细胞介导的对运动神经元的毒性,而mutHSPB1的过表达未能改善运动神经元毒性。在SOD1(G93A)星形胶质细胞中表达磷酸化模拟HSPB1突变体也降低了对运动神经元的毒性,这表明磷酸化可能有助于HSPB1介导的神经保护作用。这些数据提供了证据,表明星形胶质细胞HSPB1的表达可能在运动神经元的健康和维持中起核心作用。

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