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早期阿尔茨海默病模型小鼠中伴有神经和社交损伤的线粒体缺陷

Mitochondrial Deficits With Neural and Social Damage in Early-Stage Alzheimer's Disease Model Mice.

作者信息

Misrani Afzal, Tabassum Sidra, Huo Qingwei, Tabassum Sumaiya, Jiang Jinxiang, Ahmed Adeel, Chen Xiangmao, Zhou Jianwen, Zhang Jiajia, Liu Sha, Feng Xiaoyi, Long Cheng, Yang Li

机构信息

Precise Genome Engineering Center, School of Life Sciences, Guangzhou University, Guangzhou, China.

School of Life Sciences, South China Normal University, Guangzhou, China.

出版信息

Front Aging Neurosci. 2021 Dec 10;13:748388. doi: 10.3389/fnagi.2021.748388. eCollection 2021.

DOI:10.3389/fnagi.2021.748388
PMID:34955809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8704997/
Abstract

Alzheimer's disease (AD) is the most common neurodegenerative disorder worldwide. Mitochondrial dysfunction is thought to be an early event in the onset and progression of AD; however, the precise underlying mechanisms remain unclear. In this study, we investigated mitochondrial proteins involved in organelle dynamics, morphology and energy production in the medial prefrontal cortex (mPFC) and hippocampus (HIPP) of young (1∼2 months), adult (4∼5 months) and aged (9∼10, 12∼18 months) APP/PS1 mice. We observed increased levels of mitochondrial fission protein, Drp1, and decreased levels of ATP synthase subunit, ATP5A, leading to abnormal mitochondrial morphology, increased oxidative stress, glial activation, apoptosis, and altered neuronal morphology as early as 4∼5 months of age in APP/PS1 mice. Electrophysiological recordings revealed abnormal miniature excitatory postsynaptic current in the mPFC together with a minor connectivity change between the mPFC and HIPP, correlating with social deficits. These results suggest that abnormal mitochondrial dynamics, which worsen with disease progression, could be a biomarker of early-stage AD. Therapeutic interventions that improve mitochondrial function thus represent a promising approach for slowing the progression or delaying the onset of AD.

摘要

阿尔茨海默病(AD)是全球最常见的神经退行性疾病。线粒体功能障碍被认为是AD发病和进展过程中的早期事件;然而,确切的潜在机制仍不清楚。在本研究中,我们调查了年轻(1至2个月)、成年(4至5个月)和老年(9至10个月、12至18个月)APP/PS1小鼠内侧前额叶皮质(mPFC)和海马体(HIPP)中参与细胞器动态、形态和能量产生的线粒体蛋白。我们观察到,早在APP/PS1小鼠4至5个月大时,线粒体分裂蛋白Drp1水平升高,而ATP合酶亚基ATP5A水平降低,导致线粒体形态异常、氧化应激增加、神经胶质细胞活化、细胞凋亡以及神经元形态改变。电生理记录显示,mPFC中微小兴奋性突触后电流异常,同时mPFC和HIPP之间的连接性有轻微变化,这与社交缺陷相关。这些结果表明,随着疾病进展而恶化的异常线粒体动态可能是早期AD的生物标志物。因此,改善线粒体功能的治疗干预措施是延缓AD进展或推迟其发病的一种有前景的方法。

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