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阿尔茨海默病小鼠模型中海马齿状回固有兴奋性的可塑性受损改变了尖峰传递。

Impaired plasticity of intrinsic excitability in the dentate gyrus alters spike transfer in a mouse model of Alzheimer's disease.

机构信息

Univ. Bordeaux, CNRS, INSERM, Bordeaux Imaging Center, BIC, UMS 3420, US 4, F-33000 Bordeaux, France.

Univ. Bordeaux, CNRS, INSERM, Bordeaux Imaging Center, BIC, UMS 3420, US 4, F-33000 Bordeaux, France.

出版信息

Neurobiol Dis. 2021 Jul;154:105345. doi: 10.1016/j.nbd.2021.105345. Epub 2021 Mar 22.

DOI:10.1016/j.nbd.2021.105345
PMID:33766653
Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disease characterized by cognitive decline related to deficits in synaptic transmission and plasticity. We report in APP/PS1 mice, a double transgenic mouse model of AD, that females displayed an early burden of Aβ plaques load in the stratum moleculare of the dentate gyrus (DG) together with prominent neuroinflammatory activation of astrocytes and microglia. Robust deficits in hippocampus-dependent memory tasks were observed in APP/PS1 female mice as early as 3 months of age. We then studied the functional properties of the lateral perforant path (LPP) to DG granule cells. Remarkably DG granule cells displayed higher intrinsic excitability in APP/PS1 female mice. We showed that the long term potentiation of population spike amplitude induced by high frequency stimulation (HFS) at LPP-DG granule cells synapse is impaired in APP/PS1 female mice. HFS induced plasticity of intrinsic excitability in DG granule cells without inducing noticeable modification of synaptic strength. Furthermore, the enhanced intrinsic excitability was potentiated to a greater extent in APP/PS1 as compared to control mice following HFS. Our study shows that changes in the intrinsic excitability of DG granule cells in AD contribute to the dysfunctional transfer of information from the entorhinal cortex to the hippocampus.

摘要

阿尔茨海默病(AD)是一种进行性神经退行性疾病,其特征是与突触传递和可塑性缺陷相关的认知能力下降。我们在 APP/PS1 小鼠(AD 的双转基因小鼠模型)中报告称,雌性小鼠在齿状回(DG)分子层中出现 Aβ 斑块负荷的早期负担,同时星形胶质细胞和小胶质细胞的神经炎症激活明显。APP/PS1 雌性小鼠早在 3 个月大时就表现出明显的海马依赖性记忆任务缺陷。然后,我们研究了外侧穿通通路(LPP)到 DG 颗粒细胞的功能特性。值得注意的是,APP/PS1 雌性小鼠的 DG 颗粒细胞表现出更高的内在兴奋性。我们表明,在 LPP-DG 颗粒细胞突触处,高频刺激(HFS)诱导的群体锋电位幅度长时程增强受损在 APP/PS1 雌性小鼠中。HFS 在不引起明显突触强度改变的情况下诱导 DG 颗粒细胞内在兴奋性的可塑性。此外,与对照小鼠相比,HFS 后 APP/PS1 中的增强的内在兴奋性增强幅度更大。我们的研究表明,AD 中 DG 颗粒细胞内在兴奋性的变化导致信息从内侧隔核向海马的功能障碍传递。

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