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骨骼肌特异性表达人 SOD1 导致转基因小鼠运动神经元变性。

Skeletal muscle-restricted expression of human SOD1 causes motor neuron degeneration in transgenic mice.

机构信息

Division of Neuropathology, Department of Pathology, Johns Hopkins University School of Medicine, 558 Ross Building, 720 Rutland Avenue, Baltimore, MD 21205-2196, USA.

出版信息

Hum Mol Genet. 2010 Jun 1;19(11):2284-302. doi: 10.1093/hmg/ddq106. Epub 2010 Mar 10.

DOI:10.1093/hmg/ddq106
PMID:20223753
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2865380/
Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease of motor neurons (MNs) that causes skeletal muscle paralysis. Familial forms of ALS are linked to mutations in the superoxide dismutase-1 (SOD1) gene. The mechanisms of human SOD1 (hSOD1) toxicity to MNs are unknown. We hypothesized that skeletal muscle is a primary site of pathogenesis in ALS that triggers MN degeneration. We created transgenic (tg) mice expressing wild-type-, G37R- and G93A-hSOD1 gene variants only in skeletal muscle. These tg mice developed age-related neurologic and pathologic phenotypes consistent with ALS. Affected mice showed limb weakness and paresis with motor deficits. Skeletal muscles developed severe pathology involving oxidative damage, protein nitration, myofiber cell death and marked neuromuscular junction (NMJ) abnormalities. Spinal MNs developed distal axonopathy and formed ubiquitinated inclusions and degenerated through an apoptotic-like pathway involving capsase-3. Mice expressing wild-type and mutant forms of hSOD1 developed MN pathology. These results demonstrate that human SOD1 in skeletal muscle has a causal role in ALS and identify a new non-autonomous mechanism for MN degeneration explaining their selective vulnerability. The discovery of instigating molecular toxicities or disease progression determinants within skeletal muscle could be very valuable for the development of new effective therapies for the treatment and cure of ALS.

摘要

肌萎缩侧索硬化症(ALS)是一种致命的运动神经元(MN)神经退行性疾病,导致骨骼肌瘫痪。家族性 ALS 与超氧化物歧化酶 1(SOD1)基因突变有关。人类 SOD1(hSOD1)对 MN 的毒性机制尚不清楚。我们假设骨骼肌是 ALS 发病机制的主要部位,可引发 MN 变性。我们创建了仅在骨骼肌中表达野生型、G37R 和 G93A-hSOD1 基因突变体的转基因(tg)小鼠。这些 tg 小鼠表现出与 ALS 一致的年龄相关神经和病理表型。受影响的小鼠表现出肢体无力和瘫痪以及运动缺陷。骨骼肌发生严重的病理改变,涉及氧化损伤、蛋白质硝化、肌纤维细胞死亡和明显的神经肌肉接头(NMJ)异常。脊髓 MN 出现远端轴突病,并形成泛素化包涵体,并通过涉及半胱天冬酶-3 的凋亡样途径退化。表达野生型和突变型 hSOD1 的小鼠均发生 MN 病理改变。这些结果表明,骨骼肌中的人类 SOD1 在 ALS 中起因果作用,并确定了 MN 变性的新非自主机制,解释了它们的选择性易感性。在骨骼肌中发现引发分子毒性或疾病进展决定因素的发现,对于开发治疗 ALS 的新的有效疗法非常有价值。

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