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在家族性肌萎缩侧索硬化症小鼠模型中,脊髓运动神经元中Akt3的特异性诱导具有神经保护作用。

Specific induction of Akt3 in spinal cord motor neurons is neuroprotective in a mouse model of familial amyotrophic lateral sclerosis.

作者信息

Peviani Marco, Tortarolo Massimo, Battaglia Elisa, Piva Roberto, Bendotti Caterina

机构信息

Laboratory of Molecular Neurobiology, IRCCS-Istituto di Ricerche Farmacologiche Mario Negri, via La Masa 19, 20156, Milan, Italy.

出版信息

Mol Neurobiol. 2014 Feb;49(1):136-48. doi: 10.1007/s12035-013-8507-6. Epub 2013 Jul 20.

DOI:10.1007/s12035-013-8507-6
PMID:23873136
Abstract

Evidence is accumulating that an imbalance between pathways for degeneration or survival in motor neurons may play a central role in mechanisms that lead to neurodegeneration in amyotrophic lateral sclerosis (ALS). We and other groups have observed that downregulation, or lack of induction, of the PI3K/Akt prosurvival pathway may be responsible for defective response of motor neurons to injury and their consequent cellular demise. Some of the neuroprotective effects mediated by growth factors may involve activation of Akt, but a proof of concept of Akt as a target for therapy is lacking. We demonstrate that specific expression of constitutively activated Akt3 in motor neurons through the use of the promoter of homeobox gene Hb9 prevents neuronal loss induced by SOD1.G93A both in vitro (in mixed neuron/astrocyte cocultures) and in vivo (in a mouse model of ALS). Inhibition of ASK1 and GSK3beta was involved in the neuroprotective effects of activated Akt3, further supporting the hypothesis that induction of Akt3 may be a key step in activation of pathways for survival in the attempt to counteract motor neuronal degeneration in ALS.

摘要

越来越多的证据表明,运动神经元中导致退化或存活的信号通路之间的失衡,可能在肌萎缩侧索硬化症(ALS)导致神经退行性变的机制中起核心作用。我们和其他研究小组观察到,PI3K/Akt促存活信号通路的下调或诱导缺失,可能是运动神经元对损伤反应缺陷及其随后细胞死亡的原因。生长因子介导的一些神经保护作用可能涉及Akt的激活,但缺乏将Akt作为治疗靶点的概念验证。我们证明,通过使用同源盒基因Hb9的启动子,在运动神经元中特异性表达组成型激活的Akt3,可在体外(混合神经元/星形胶质细胞共培养)和体内(ALS小鼠模型)防止由SOD1.G93A诱导的神经元损失。ASK1和GSK3β的抑制参与了激活的Akt3的神经保护作用,进一步支持了这样的假设,即诱导Akt3可能是激活存活信号通路的关键步骤,以试图对抗ALS中运动神经元的退化。

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