ApoE3 R136S与Tau结合并阻断其繁殖，抑制阿尔茨海默病小鼠的神经变性。

IF 14.7 1区医学 Q1 NEUROSCIENCES

Neuron Pub Date : 2025-01-07 DOI:10.1016/j.neuron.2024.12.015

Guiqin Chen, Mengmeng Wang, Zhentao Zhang, Dae Ki Hong, Eun Hee Ahn, Xia Liu, Seong Su Kang, Keqiang Ye

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引用次数: 0

摘要

APOE3 Christchurch变体（R136S）的PSEN1 E280A载体具有独特的Tau病理学解剖模式，可预防阿尔茨海默病（AD）症状。然而，这种保护作用的分子机制仍然不完全清楚。在这里，我们发现与ApoE3野生型（WT）相比，ApoE3 R136S突变体与Tau蛋白强结合，减少了Tau蛋白对神经元和小胶质细胞的摄取，减少了天冬酰胺内肽酶（AEP）对Tau蛋白的破坏，减少了Tau蛋白预形成原纤维（PFFs）或β-淀粉样蛋白（Aβ）的促炎细胞因子，以及神经毒性。此外，与ApoE3 WT相比，ApoE3 R136S在5xFAD和Tau P301S小鼠大脑中表现出更强的减弱AEP激活和Tau PFF扩散的作用，从而改善认知功能。因此，我们的研究结果支持ApoE3 R136S强烈结合Tau并减少其细胞摄取的观点，从而废除了Tau在AD大脑中的病理传播。

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ApoE3 R136S binds to Tau and blocks its propagation, suppressing neurodegeneration in mice with Alzheimer's disease.

PSEN1 E280A carrier for the APOE3 Christchurch variant (R136S) is protected against Alzheimer's disease (AD) symptoms with a distinct anatomical pattern of Tau pathology. However, the molecular mechanism accounting for this protective effect remains incompletely understood. Here, we show that the ApoE3 R136S mutant strongly binds to Tau and reduces its uptake into neurons and microglia compared with ApoE3 wild type (WT), diminishing Tau fragmentation by asparagine endopeptidase (AEP), proinflammatory cytokines by Tau pre-formed fibrils (PFFs) or β-amyloid (Aβ), and neurotoxicity. Further, ApoE3 R136S demonstrates more robust effects in attenuating AEP activation and Tau PFF spreading in the brains of both 5xFAD and Tau P301S mice than in ApoE3 WT, leading to improved cognitive functions. Thus, our findings support the idea that ApoE3 R136S strongly binds Tau and decreases its cellular uptake, abrogating Tau pathology propagation in AD brains.

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来源期刊

Neuron 医学-神经科学

CiteScore

24.50

自引率

3.10%

发文量

382

审稿时长

1 months

期刊介绍： Established as a highly influential journal in neuroscience, Neuron is widely relied upon in the field. The editors adopt interdisciplinary strategies, integrating biophysical, cellular, developmental, and molecular approaches alongside a systems approach to sensory, motor, and higher-order cognitive functions. Serving as a premier intellectual forum, Neuron holds a prominent position in the entire neuroscience community.