APOE Christchurch enhances a disease-associated microglial response to plaque but suppresses response to tau pathology

IF 14.9 1区医学 Q1 NEUROSCIENCES Molecular Neurodegeneration Pub Date : 2025-01-22 DOI:10.1186/s13024-024-00793-x

Kristine M. Tran, Nellie E. Kwang, Claire A. Butler, Angela Gomez-Arboledas, Shimako Kawauchi, Cassandra Mar, Donna Chao, Rocio A. Barahona, Celia Da Cunha, Kate I. Tsourmas, Zechuan Shi, Shuling Wang, Sherilyn Collins, Amber Walker, Kai-Xuan Shi, Joshua A. Alcantara, Jonathan Neumann, Duc M. Duong, Nicholas T. Seyfried, Andrea J. Tenner, Frank M. LaFerla, Lindsay A. Hohsfield, Vivek Swarup, Grant R. MacGregor, Kim N. Green

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Abstract

Apolipoprotein E ε4 (APOE4) is the strongest genetic risk factor for late-onset Alzheimer’s disease (LOAD). A recent case report identified a rare variant in APOE, APOE3-R136S (Christchurch), proposed to confer resistance to autosomal dominant Alzheimer’s Disease (AD). However, it remains unclear whether and how this variant exerts its protective effects. We introduced the R136S variant into mouse Apoe (ApoeCh) and investigated its effect on the development of AD-related pathology using the 5xFAD model of amyloidosis and the PS19 model of tauopathy. We used immunohistochemical and biochemical analysis along with single-cell spatial omics and bulk proteomics to explore the impact of the ApoeCh variant on AD pathological development and the brain’s response to plaques and tau. In 5xFAD mice, ApoeCh enhances a Disease-Associated Microglia (DAM) phenotype in microglia surrounding plaques, and reduces plaque load, dystrophic neurites, and plasma neurofilament light chain. By contrast, in PS19 mice, ApoeCh suppresses the microglial and astrocytic responses to tau-laden neurons and does not reduce tau accumulation or phosphorylation, but partially rescues tau-induced synaptic and myelin loss. We compared how microglia responses differ between the two mouse models to elucidate the distinct DAM signatures induced by ApoeCh. We identified upregulation of antigen presentation-related genes in the DAM response in a PS19 compared to a 5xFAD background, suggesting a differential response to amyloid versus tau pathology that is modulated by the presence of ApoeCh. Bulk proteomics show upregulated mitochondrial protein abundance with ApoeCh in 5xFAD mice, but reductions in mitochondrial and translation associated proteins in PS19 mice. These findings highlight the ability of the ApoeCh variant to modulate microglial responses based on the type of pathology, enhancing DAM reactivity in amyloid models and dampening neuroinflammation to promote protection in tau models. This suggests that the Christchurch variant's protective effects likely involve multiple mechanisms, including changes in receptor binding and microglial programming.

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APOE 克赖斯特彻奇增强了疾病相关的小胶质细胞对斑块的反应，但抑制了对 tau 病理学的反应

载脂蛋白E ε4 （APOE4）是迟发性阿尔茨海默病（LOAD）最强的遗传危险因子。最近的一份病例报告发现了APOE的一种罕见变异，APOE3-R136S (Christchurch)，被认为可以抵抗常染色体显性阿尔茨海默病（AD）。然而，目前尚不清楚这种变异是否以及如何发挥其保护作用。我们将R136S变异引入小鼠Apoe (ApoeCh)，并利用淀粉样变性的5xFAD模型和牛头病的PS19模型研究其对ad相关病理发展的影响。我们使用免疫组织化学和生化分析以及单细胞空间组学和大量蛋白质组学来探索ApoeCh变异对AD病理发展和大脑对斑块和tau的反应的影响。在5xFAD小鼠中，ApoeCh增强斑块周围小胶质细胞中的疾病相关小胶质细胞（DAM）表型，并减少斑块负荷、营养不良的神经突和血浆神经丝轻链。相比之下，在PS19小鼠中，ApoeCh抑制了小胶质细胞和星形细胞对tau负载神经元的反应，并且不减少tau积累或磷酸化，但部分挽救了tau诱导的突触和髓磷脂损失。我们比较了两种小鼠模型之间小胶质细胞反应的差异，以阐明ApoeCh诱导的不同DAM特征。与5xFAD背景相比，我们在PS19的DAM反应中发现了抗原呈递相关基因的上调，这表明ApoeCh的存在调节了对淀粉样蛋白和tau病理的不同反应。大量蛋白质组学显示，5xFAD小鼠中ApoeCh的线粒体蛋白丰度上调，但PS19小鼠的线粒体和翻译相关蛋白减少。这些发现强调了ApoeCh变体根据病理类型调节小胶质细胞反应的能力，增强淀粉样蛋白模型中的DAM反应性，抑制神经炎症以促进tau模型中的保护作用。这表明克赖斯特彻奇变异的保护作用可能涉及多种机制，包括受体结合和小胶质细胞编程的变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Neurodegeneration 医学-神经科学

CiteScore

23.00

自引率

4.60%

发文量

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.