阿尔辛/小G蛋白Rac1信号通路控制脊髓运动神经元的存活和生长。

Alsin/Rac1 signaling controls survival and growth of spinal motoneurons.

作者信息

Jacquier Arnaud, Buhler Emmanuelle, Schäfer Michael K E, Bohl Delphine, Blanchard Stephane, Beclin Christophe, Haase Georg

机构信息

Institut National de la Sante et de la Recherche Médicale, Marseille, France.

出版信息

Ann Neurol. 2006 Jul;60(1):105-17. doi: 10.1002/ana.20886.

DOI:10.1002/ana.20886

PMID:16802292

Abstract

OBJECTIVE

Recessive mutations in alsin, a guanine-nucleotide exchange factor for the GTPases Rab5 and Rac1, cause juvenile amyotrophic lateral sclerosis (ALS2) and related motoneuron disorders. Alsin function in motoneurons remained unclear because alsin knock-out mice do not develop overt signs of motoneuron degeneration.

METHODS

To generate an alsin loss-of-function model in an ALS-relevant cell type, we developed a new small interfering RNA electroporation technique that allows efficient knock down of alsin in embryonic rat spinal motoneurons.

RESULTS

After small interfering RNA-mediated alsin knockdown, cultured motoneurons displayed a reduced apparent size of EEA1-labeled early endosomes and an increased intracellular accumulation of transferrin and L1CAM. Alsin knockdown induced cell death in 32 to 48% of motoneurons and significantly inhibited axon growth in the surviving neurons. Both cellular phenotypes were mimicked by expression of a dominant-negative Rac1 mutant and were completely blocked by expression of a constitutively active Rac1 mutant. Expression of dominant-negative or constitutively active forms of Rab5 had no such effects.

INTERPRETATION

Our data demonstrate that alsin controls the growth and survival of motoneurons in a Rac1-dependant manner. The strategy reported here illustrates how small interfering RNA electroporation can be used to generate cellular models of neurodegenerative disease involving a loss-of-function mechanism.

摘要

目的

AlsIn是一种针对GTP酶Rab5和Rac1的鸟嘌呤核苷酸交换因子，其隐性突变会导致青少年肌萎缩侧索硬化症（ALS2）及相关运动神经元疾病。由于AlsIn基因敲除小鼠未出现明显的运动神经元退化迹象，其在运动神经元中的功能仍不明确。

方法

为了在与ALS相关的细胞类型中构建AlsIn功能缺失模型，我们开发了一种新的小干扰RNA电穿孔技术，该技术可有效敲低胚胎大鼠脊髓运动神经元中的AlsIn。

结果

在小干扰RNA介导的AlsIn敲低后，培养的运动神经元中，EEA1标记的早期内体的表观大小减小，转铁蛋白和L1细胞粘附分子的细胞内积累增加。AlsIn敲低导致32%至48%的运动神经元死亡，并显著抑制存活神经元的轴突生长。这两种细胞表型都可通过显性负性Rac1突变体的表达来模拟，并被组成型活性Rac1突变体的表达完全阻断。显性负性或组成型活性形式的Rab5的表达没有这种作用。

解读

我们的数据表明，AlsIn以Rac1依赖的方式控制运动神经元的生长和存活。本文报道的策略说明了如何使用小干扰RNA电穿孔来生成涉及功能丧失机制的神经退行性疾病的细胞模型。

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阿尔辛/小G蛋白Rac1信号通路控制脊髓运动神经元的存活和生长。

Alsin/Rac1 signaling controls survival and growth of spinal motoneurons.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

解读

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