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哺乳动物大脑的纵向自噬分析揭示了在整个健康衰老过程中持续存在的线粒体自噬。

Longitudinal autophagy profiling of the mammalian brain reveals sustained mitophagy throughout healthy aging.

作者信息

Rappe Anna, Vihinen Helena A, Suomi Fumi, Hassinen Antti J, Ehsan Homa, Jokitalo Eija S, McWilliams Thomas G

机构信息

Translational Stem Cell Biology and Metabolism Program, Faculty of Medicine, Biomedicum Helsinki, University of Helsinki, Haartmaninkatu 8, Helsinki, 00290, Finland.

Electron Microscopy Unit (EMBI), Institute of Biotechnology, Helsinki Institute of Life Science, University of Helsinki, Viikinkaari 9, Helsinki, 00790, Finland.

出版信息

EMBO J. 2024 Dec;43(23):6199-6231. doi: 10.1038/s44318-024-00241-y. Epub 2024 Oct 4.

DOI:10.1038/s44318-024-00241-y
PMID:39367235
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11612485/
Abstract

Mitophagy neutralizes mitochondrial damage, thereby preventing cellular dysfunction and apoptosis. Defects in mitophagy have been strongly implicated in age-related neurodegenerative disorders such as Parkinson's and Alzheimer's disease. While mitophagy decreases throughout the lifespan of short-lived model organisms, it remains unknown whether such a decline occurs in the aging mammalian brain-a question of fundamental importance for understanding cell type- and region-specific susceptibility to neurodegeneration. Here, we define the longitudinal dynamics of basal mitophagy and macroautophagy across neuronal and non-neuronal cell types within the intact aging mouse brain in vivo. Quantitative profiling of reporter mouse cohorts from young to geriatric ages reveals cell- and tissue-specific alterations in mitophagy and macroautophagy between distinct subregions and cell populations, including dopaminergic neurons, cerebellar Purkinje cells, astrocytes, microglia and interneurons. We also find that healthy aging is hallmarked by the dynamic accumulation of differentially acidified lysosomes in several neural cell subsets. Our findings argue against any widespread age-related decline in mitophagic activity, instead demonstrating dynamic fluctuations in mitophagy across the aging trajectory, with strong implications for ongoing theragnostic development.

摘要

线粒体自噬可中和线粒体损伤,从而预防细胞功能障碍和细胞凋亡。线粒体自噬缺陷与帕金森病和阿尔茨海默病等年龄相关的神经退行性疾病密切相关。虽然在线虫等寿命较短的模式生物的整个生命周期中线粒体自噬都会减少,但衰老的哺乳动物大脑中是否也会出现这种下降尚不清楚——这一问题对于理解细胞类型和区域特异性对神经退行性变的易感性至关重要。在这里,我们定义了完整衰老小鼠大脑内神经元和非神经元细胞类型中基础线粒体自噬和巨自噬的纵向动态变化。对从幼年到老年的报告基因小鼠队列进行定量分析,揭示了不同亚区域和细胞群体(包括多巴胺能神经元、小脑浦肯野细胞、星形胶质细胞、小胶质细胞和中间神经元)之间线粒体自噬和巨自噬的细胞和组织特异性改变。我们还发现,健康衰老的特征是几个神经细胞亚群中差异酸化溶酶体的动态积累。我们的研究结果反对线粒体自噬活性存在任何广泛的与年龄相关的下降,而是表明线粒体自噬在衰老过程中存在动态波动,这对正在进行的治疗诊断学发展具有重要意义。

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