用转基因和基因靶向方法模拟运动神经元疾病

P. Wong, D. Borchelt, Michael K. Lee, C. Pardo, S. Sisodia, D. Cleveland, V. Koliatsos, D. Price
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引用次数: 2

摘要

运动神经元疾病(MND)是一种病因异质性的疾病,其特征是虚弱和肌肉萎缩。这些临床症状可归因于下部运动神经元受累;痉挛和反射亢进的出现表明上运动神经元的参与。根据疾病过程的特点,脆弱的细胞在经历细胞死亡之前会出现包涵体、细胞骨架的改变等。在过去的几年中,在了解其中一些疾病的遗传学方面取得了重大进展,包括家族性肌萎缩侧索硬化症(FALS)、脊髓性肌萎缩症(SMA)和脊髓性球性肌萎缩症(SBMA)。例如,一些常染色体显性FALS病例与超氧化物歧化酶1 (SOD1)基因突变有关。几个研究小组已经将这些SOD1突变引入转基因小鼠,这些动物产生了人类疾病的特征。其他研究人员使用转基因策略过度表达野生型(wt)或突变型神经丝(NF)基因,其中一些小鼠显示出与散发性肌萎缩性侧索硬化症(ALS)相似的神经元细胞骨架异常。最后,为了确定营养对这些细胞的影响,研究人员使用基因靶向策略来去除编码这些因子或其受体的基因,并评估零状态对行为和细胞表型的影响。本文概述了通过引入突变SOD1转基因或过表达wt或突变NF基因来模拟运动神经元疾病的一些进展,以及利用基因靶向策略定义运动神经元营养依赖性的最新进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transgenic and gene-targeting approaches to model disorders of motor neurons
Abstract The motor neuron diseases (MND) are an etiologically heterogeneous group of disorders characterized by weakness and muscle atrophy. These clinical signs are attributable to the involvement of lower motor neurons; the presence of spasticity and hyperreflexia indicates involvement of upper motor neurons. Depending on the characteristics of the disease process, vulnerable cells develop inclusions, alterations in the cytoskeleton, etc., before undergoing cell death. Over the past several years, significant progress has been made in understanding the genetics of some of these disorders, including familial amyotrophic lateral sclerosis (FALS), spinal muscular atrophy (SMA), and spinal bulbar muscular atrophy (SBMA). For example, some of the autosomal dominant cases of FALS are linked to mutations in the superoxide dismutase 1 (SOD1) gene. Several groups have introduced these SOD1 mutations into transgenic mice, and these animals develop features of the human disease. Other investigators have used transgenic strategies to overexpress wild-type (wt) or mutant neurofilament (NF) genes, and some of these mice show abnormalities of the neuronal cytoskeleton that resemble those occurring in sporadic amyotrophic lateral sclerosis (ALS). Finally, in efforts to define trophic influences on these cells, investigators have used gene-targeting strategies to ablate genes coding for these factors or their receptors and to assess the consequences of the null state on behavior and cell phenotype. This review outlines some of the progress that has been made in modeling disorders of motor neurons, either by introducing mutant SOD1 transgenes or by overexpressing wt or mutant NF genes, and the recent advances made using gene-targeting strategies to define trophic dependencies of motor neurons.
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