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一种新的SOD1-肌萎缩侧索硬化症突变区分了突变型SOD1毒性的中枢和外周效应。

A novel SOD1-ALS mutation separates central and peripheral effects of mutant SOD1 toxicity.

作者信息

Joyce Peter I, Mcgoldrick Philip, Saccon Rachele A, Weber William, Fratta Pietro, West Steven J, Zhu Ning, Carter Sarah, Phatak Vinaya, Stewart Michelle, Simon Michelle, Kumar Saumya, Heise Ines, Bros-Facer Virginie, Dick James, Corrochano Silvia, Stanford Macdonnell J, Luong Tu Vinh, Nolan Patrick M, Meyer Timothy, Brandner Sebastian, Bennett David L H, Ozdinler P Hande, Greensmith Linda, Fisher Elizabeth M C, Acevedo-Arozena Abraham

机构信息

MRC Mammalian Genetics Unit, Harwell, Oxfordshire OX11 0RD, UK.

MRC Centre for Neuromuscular Disease, UCL Institute of Neurology, Queen Square, London WC1N 3BG, UK.

出版信息

Hum Mol Genet. 2015 Apr 1;24(7):1883-97. doi: 10.1093/hmg/ddu605. Epub 2014 Dec 2.

DOI:10.1093/hmg/ddu605
PMID:25468678
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4355022/
Abstract

Transgenic mouse models expressing mutant superoxide dismutase 1 (SOD1) have been critical in furthering our understanding of amyotrophic lateral sclerosis (ALS). However, such models generally overexpress the mutant protein, which may give rise to phenotypes not directly relevant to the disorder. Here, we have analysed a novel mouse model that has a point mutation in the endogenous mouse Sod1 gene; this mutation is identical to a pathological change in human familial ALS (fALS) which results in a D83G change in SOD1 protein. Homozgous Sod1(D83G/D83G) mice develop progressive degeneration of lower (LMN) and upper motor neurons, likely due to the same unknown toxic gain of function as occurs in human fALS cases, but intriguingly LMN cell death appears to stop in early adulthood and the mice do not become paralyzed. The D83 residue coordinates zinc binding, and the D83G mutation results in loss of dismutase activity and SOD1 protein instability. As a result, Sod1(D83G/D83G) mice also phenocopy the distal axonopathy and hepatocellular carcinoma found in Sod1 null mice (Sod1(-/-)). These unique mice allow us to further our understanding of ALS by separating the central motor neuron body degeneration and the peripheral effects from a fALS mutation expressed at endogenous levels.

摘要

表达突变型超氧化物歧化酶1(SOD1)的转基因小鼠模型对于深化我们对肌萎缩侧索硬化症(ALS)的理解至关重要。然而,此类模型通常会过度表达突变蛋白,这可能会产生与该疾病并无直接关联的表型。在此,我们分析了一种新型小鼠模型,其在内源性小鼠Sod1基因中存在一个点突变;该突变与人类家族性ALS(fALS)中的一种病理变化相同,会导致SOD1蛋白发生D83G变化。纯合子Sod1(D83G/D83G)小鼠会出现下运动神经元(LMN)和上运动神经元的进行性退化,这可能是由于与人类fALS病例中发生的相同未知毒性功能获得所致,但有趣的是,LMN细胞死亡似乎在成年早期停止,且小鼠不会瘫痪。D83残基负责锌离子结合,D83G突变会导致歧化酶活性丧失和SOD1蛋白不稳定。因此,Sod1(D83G/D83G)小鼠还表现出与Sod1基因敲除小鼠(Sod1(-/-))中发现的远端轴索性神经病和肝细胞癌相似的表型。这些独特的小鼠使我们能够通过将中枢运动神经元体退化和外周效应与以内源性水平表达的fALS突变区分开来,进一步加深对ALS的理解。

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