半胱氨酸残基影响小鼠突变型SOD1的构象状态和神经毒性：与肌萎缩侧索硬化症发病机制的相关性。

A cysteine residue affects the conformational state and neuronal toxicity of mutant SOD1 in mice: relevance to the pathogenesis of ALS.

作者信息

Nagano Seiichi, Takahashi Yoko, Yamamoto Kazuhiro, Masutani Hiroshi, Fujiwara Noriko, Urushitani Makoto, Araki Toshiyuki

机构信息

Department of Peripheral Nervous System Research.

Division of Laboratory Animals Resources, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Kodaira, Tokyo 187-8502, Japan.

出版信息

Hum Mol Genet. 2015 Jun 15;24(12):3427-39. doi: 10.1093/hmg/ddv093. Epub 2015 Mar 11.

DOI:10.1093/hmg/ddv093

PMID:25762155

Abstract

We previously showed by in vitro experiments that the cysteine residue (Cys111) near the dimer interface is critical for monomerization and resultant aggregate formation of mutant Cu, Zn-superoxide dismutase (SOD1) protein, which is toxic to motor neurons in familial amyotrophic lateral sclerosis (ALS). To verify the importance of Cys111 in the mutant SOD1-associated ALS pathogenesis in vivo, we analyzed the disease phenotype of SOD1 transgenic mice harboring H46R mutation alone (H46R mice) or H46R/C111S double mutations (H46R/C111S mice). Behavioral, histological and biochemical analyses of the spinal cord showed that the onset and progression of the disease phenotype were delayed in H46R/C111S mice compared with H46R mice. We found that peroxidized Cys111 of H46R SOD1 plays a role in promoting formation of high molecular weight insoluble SOD1 species that is correlated with the progression of the motor neuron disease phenotype. These results support that Cys111 is a critical residue for the neuronal toxicity of mutant SOD1 in vivo, and the blockage of peroxidation of this residue in mutant SOD1 may constitute a future target for developing ALS treatment.

摘要

我们之前通过体外实验表明，二聚体界面附近的半胱氨酸残基（Cys111）对于突变型铜锌超氧化物歧化酶（SOD1）蛋白的单体化及由此产生的聚集体形成至关重要，而这种蛋白对家族性肌萎缩侧索硬化症（ALS）中的运动神经元有毒性。为了在体内验证Cys111在突变型SOD1相关的ALS发病机制中的重要性，我们分析了仅携带H46R突变的SOD1转基因小鼠（H46R小鼠）或H46R/C111S双突变小鼠（H46R/C111S小鼠）的疾病表型。对脊髓进行的行为学、组织学和生化分析表明，与H46R小鼠相比，H46R/C111S小鼠疾病表型的发病和进展有所延迟。我们发现，H46R SOD1的过氧化Cys111在促进高分子量不溶性SOD1物种的形成中起作用，而这与运动神经元疾病表型的进展相关。这些结果支持Cys111是体内突变型SOD1神经元毒性的关键残基，并且阻断突变型SOD1中该残基的过氧化可能构成未来开发ALS治疗方法的一个靶点。

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半胱氨酸残基影响小鼠突变型SOD1的构象状态和神经毒性：与肌萎缩侧索硬化症发病机制的相关性。

A cysteine residue affects the conformational state and neuronal toxicity of mutant SOD1 in mice: relevance to the pathogenesis of ALS.

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