Real-time imaging of mitochondrial redox reveals increased mitochondrial oxidative stress associated with amyloid β aggregates in vivo in a mouse model of Alzheimer's disease.

IF 14.9 1区 医学 Q1 NEUROSCIENCES Molecular Neurodegeneration Pub Date : 2024-01-18 DOI:10.1186/s13024-024-00702-2
Maria Calvo-Rodriguez, Elizabeth K Kharitonova, Austin C Snyder, Steven S Hou, Maria Virtudes Sanchez-Mico, Sudeshna Das, Zhanyun Fan, Hamid Shirani, K Peter R Nilsson, Alberto Serrano-Pozo, Brian J Bacskai
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Abstract

Background: Reactive oxidative stress is a critical player in the amyloid beta (Aβ) toxicity that contributes to neurodegeneration in Alzheimer's disease (AD). Damaged mitochondria are one of the main sources of reactive oxygen species and accumulate in Aβ plaque-associated dystrophic neurites in the AD brain. Although Aβ causes neuronal mitochondria reactive oxidative stress in vitro, this has never been directly observed in vivo in the living mouse brain. Here, we tested for the first time whether Aβ plaques and soluble Aβ oligomers induce mitochondrial oxidative stress in surrounding neurons in vivo, and whether this neurotoxic effect can be abrogated using mitochondrial-targeted antioxidants.

Methods: We expressed a genetically encoded fluorescent ratiometric mitochondria-targeted reporter of oxidative stress in mouse models of the disease and performed intravital multiphoton microscopy of neuronal mitochondria and Aβ plaques.

Results: For the first time, we demonstrated by direct observation in the living mouse brain exacerbated mitochondrial oxidative stress in neurons after both Aβ plaque deposition and direct application of soluble oligomeric Aβ onto the brain, and determined the most likely pathological sequence of events leading to oxidative stress in vivo. Oxidative stress could be inhibited by both blocking calcium influx into mitochondria and treating with the mitochondria-targeted antioxidant SS31. Remarkably, the latter ameliorated plaque-associated dystrophic neurites without impacting Aβ plaque burden.

Conclusions: Considering these results, combination of mitochondria-targeted compounds with other anti-amyloid beta or anti-tau therapies hold promise as neuroprotective drugs for the prevention and/or treatment of AD.

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线粒体氧化还原的实时成像显示,在阿尔茨海默病小鼠模型中,线粒体氧化应激增加与体内淀粉样β聚集有关。
背景:活性氧化应激是导致阿尔茨海默病(AD)神经变性的淀粉样β(Aβ)毒性的关键因素。受损的线粒体是活性氧的主要来源之一,并在阿尔茨海默病大脑中与 Aβ 斑块相关的萎缩性神经元中积聚。虽然 Aβ 在体外会导致神经元线粒体反应性氧化应激,但从未在活体小鼠脑中直接观察到这一现象。在这里,我们首次检测了 Aβ 斑块和可溶性 Aβ 寡聚体是否会在体内诱导周围神经元的线粒体氧化应激,以及这种神经毒性效应是否可以通过线粒体靶向抗氧化剂来消除:方法:我们在该疾病的小鼠模型中表达了一种基因编码的荧光线粒体靶向氧化应激报告物,并对神经元线粒体和Aβ斑块进行了眼内多光子显微镜观察:我们首次在活体小鼠大脑中直接观察到了Aβ斑块沉积和可溶性低聚Aβ直接作用于大脑后神经元线粒体氧化应激的加剧,并确定了导致体内氧化应激的最可能的病理过程。通过阻止钙离子流入线粒体和使用线粒体靶向抗氧化剂 SS31 可以抑制氧化应激。值得注意的是,后者在不影响Aβ斑块负荷的情况下改善了斑块相关的萎缩性神经元:考虑到这些结果,线粒体靶向化合物与其他抗淀粉样蛋白β或抗tau疗法相结合,有望成为预防和/或治疗AD的神经保护药物。
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来源期刊
Molecular Neurodegeneration
Molecular Neurodegeneration 医学-神经科学
CiteScore
23.00
自引率
4.60%
发文量
78
审稿时长
6-12 weeks
期刊介绍: Molecular Neurodegeneration, an open-access, peer-reviewed journal, comprehensively covers neurodegeneration research at the molecular and cellular levels. Neurodegenerative diseases, such as Alzheimer's, Parkinson's, Huntington's, and prion diseases, fall under its purview. These disorders, often linked to advanced aging and characterized by varying degrees of dementia, pose a significant public health concern with the growing aging population. Recent strides in understanding the molecular and cellular mechanisms of these neurodegenerative disorders offer valuable insights into their pathogenesis.
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