肌萎缩侧索硬化症中的早期中间神经元功能障碍：来自突变 sod1 斑马鱼模型的见解。

Early interneuron dysfunction in ALS: insights from a mutant sod1 zebrafish model.

机构信息

Department of Neuroscience, Sheffield Institute for Translational Neuroscience, University of Sheffield, Sheffield, United Kingdom.

出版信息

Ann Neurol. 2013 Feb;73(2):246-58. doi: 10.1002/ana.23780. Epub 2012 Dec 31.

DOI:10.1002/ana.23780

PMID:23281025

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3608830/

Abstract

OBJECTIVE

To determine, when, how, and which neurons initiate the onset of pathophysiology in amyotrophic lateral sclerosis (ALS) using a transgenic mutant sod1 zebrafish model and identify neuroprotective drugs.

METHODS

Proteinopathies such as ALS involve mutant proteins that misfold and activate the heat shock stress response (HSR). The HSR is indicative of neuronal stress, and we used a fluorescent hsp70-DsRed reporter in our transgenic zebrafish to track neuronal stress and to measure functional changes in neurons and muscle over the course of the disease.

RESULTS

We show that mutant sod1 fish first exhibited the HSR in glycinergic interneurons at 24 hours postfertilization (hpf). By 96 hpf, we observed a significant reduction in spontaneous glycinergic currents induced in spinal motor neurons. The loss of inhibition was followed by increased stress in the motor neurons of symptomatic adults and concurrent morphological changes at the neuromuscular junction (NMJ) indicative of denervation. Riluzole, the only approved ALS drug and apomorphine, an NRF2 activator, reduced the observed early neuronal stress response.

INTERPRETATION

The earliest event in the pathophysiology of ALS in the mutant sod1 zebrafish model involves neuronal stress in inhibitory interneurons, resulting from mutant Sod1 expression. This is followed by a reduction in inhibitory input to motor neurons. The loss of inhibitory input may contribute to the later development of neuronal stress in motor neurons and concurrent inability to maintain the NMJ. Riluzole, the approved drug for use in ALS, modulates neuronal stress in interneurons, indicating a novel mechanism of riluzole action.

摘要

目的

使用转突变 sod1 斑马鱼模型确定何时、如何以及哪些神经元引发肌萎缩侧索硬化症 (ALS) 的病理生理学，并确定神经保护药物。

方法

蛋白质病变，如 ALS，涉及错误折叠并激活热休克应激反应 (HSR) 的突变蛋白。HSR 是神经元应激的标志，我们在转基因斑马鱼中使用荧光 hsp70-DsRed 报告基因来跟踪神经元应激，并在疾病过程中测量神经元和肌肉的功能变化。

结果

我们表明，突变 sod1 鱼在受精后 24 小时（hpf）首先在甘氨酸能中间神经元中表现出 HSR。到 96 hpf 时，我们观察到脊髓运动神经元中自发甘氨酸能电流显著减少。抑制作用丧失后，症状性成年鱼的运动神经元应激增加，同时神经肌肉接头 (NMJ) 的形态变化表明去神经支配。唯一批准用于 ALS 的药物利鲁唑和 NRF2 激活剂阿朴吗啡降低了观察到的早期神经元应激反应。

解释

突变 sod1 斑马鱼模型中 ALS 病理生理学的最早事件涉及到抑制性中间神经元的神经元应激，这是由突变 Sod1 表达引起的。这之后是运动神经元抑制性输入的减少。抑制性输入的丧失可能导致运动神经元中神经元应激的后期发展和同时无法维持 NMJ。利鲁唑，用于 ALS 的批准药物，调节中间神经元的神经元应激，表明利鲁唑作用的一种新机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/51b9/3652030/0198703ff257/ana0073-0246-f1.jpg

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肌萎缩侧索硬化症中的早期中间神经元功能障碍：来自突变 sod1 斑马鱼模型的见解。

Early interneuron dysfunction in ALS: insights from a mutant sod1 zebrafish model.

机构信息

Department of Neuroscience, Sheffield Institute for Translational Neuroscience, University of Sheffield, Sheffield, United Kingdom.