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N-乙酰半胱氨酸可预防阿尔茨海默病大鼠模型所表现出的空间记忆缺陷及依赖氧化还原的兰尼碱受体2减少。

N-Acetylcysteine Prevents the Spatial Memory Deficits and the Redox-Dependent RyR2 Decrease Displayed by an Alzheimer's Disease Rat Model.

作者信息

More Jamileth, Galusso Nadia, Veloso Pablo, Montecinos Luis, Finkelstein José Pablo, Sanchez Gina, Bull Ricardo, Valdés José Luis, Hidalgo Cecilia, Paula-Lima Andrea

机构信息

Faculty of Medicine, Biomedical Neuroscience Institute, Universidad de Chile, Santiago, Chile.

Department of Neurochemistry, Stockholm University, Stockholm, Sweden.

出版信息

Front Aging Neurosci. 2018 Dec 6;10:399. doi: 10.3389/fnagi.2018.00399. eCollection 2018.

DOI:10.3389/fnagi.2018.00399
PMID:30574085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6291746/
Abstract

We have previously reported that primary hippocampal neurons exposed to synaptotoxic amyloid beta oligomers (AβOs), which are likely causative agents of Alzheimer's disease (AD), exhibit abnormal Ca signals, mitochondrial dysfunction and defective structural plasticity. Additionally, AβOs-exposed neurons exhibit a decrease in the protein content of type-2 ryanodine receptor (RyR2) Ca channels, which exert critical roles in hippocampal synaptic plasticity and spatial memory processes. The antioxidant N-acetylcysteine (NAC) prevents these deleterious effects of AβOs . The main contribution of the present work is to show that AβOs injections directly into the hippocampus, by engaging oxidation-mediated reversible pathways significantly decreased RyR2 protein content but increased single RyR2 channel activation by Ca and caused considerable spatial memory deficits. AβOs injections into the CA3 hippocampal region impaired rat performance in the Oasis maze spatial memory task, decreased hippocampal glutathione levels and overall content of plasticity-related proteins (c-Fos, Arc, and RyR2) and increased ERK1/2 phosphorylation. In contrast, in hippocampus-derived mitochondria-associated membranes (MAM) AβOs injections increased RyR2 levels. Rats fed with NAC for 3-weeks prior to AβOs injections displayed comparable redox potential, RyR2 and Arc protein contents, similar ERK1/2 phosphorylation and RyR2 single channel activation by Ca as saline-injected (control) rats. NAC-fed rats subsequently injected with AβOs displayed the same behavior in the spatial memory task as control rats. Based on the present results, we propose that redox-sensitive neuronal RyR2 channels partake in the mechanism underlying AβOs-induced memory disruption in rodents.

摘要

我们之前曾报道,暴露于突触毒性淀粉样β寡聚体(AβOs)的原代海马神经元会出现异常钙信号、线粒体功能障碍和结构可塑性缺陷,而AβOs可能是阿尔茨海默病(AD)的致病因素。此外,暴露于AβOs的神经元中,2型兰尼碱受体(RyR2)钙通道的蛋白质含量会降低,该通道在海马突触可塑性和空间记忆过程中发挥关键作用。抗氧化剂N-乙酰半胱氨酸(NAC)可预防AβOs的这些有害影响。本研究的主要贡献在于表明,直接向海马体注射AβOs,通过激活氧化介导的可逆途径,显著降低了RyR2蛋白含量,但增加了单个RyR2通道对钙的激活,并导致了明显的空间记忆缺陷。向海马CA3区注射AβOs会损害大鼠在绿洲迷宫空间记忆任务中的表现,降低海马谷胱甘肽水平以及与可塑性相关蛋白质(c-Fos、Arc和RyR2)的总体含量,并增加ERK1/2磷酸化。相比之下,在源自海马体的线粒体相关膜(MAM)中注射AβOs会增加RyR2水平。在注射AβOs前3周喂食NAC的大鼠,其氧化还原电位、RyR2和Arc蛋白含量、ERK1/2磷酸化以及RyR2单通道对钙的激活与注射生理盐水的(对照)大鼠相当。随后注射AβOs的NAC喂养大鼠在空间记忆任务中的行为与对照大鼠相同。基于目前的结果,我们提出,对氧化还原敏感的神经元RyR2通道参与了AβOs诱导的啮齿动物记忆破坏机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ba6c/6291746/6f24951fde60/fnagi-10-00399-g010.jpg
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