Aging alters the vulnerability pattern to amyloid-beta oligomers in wild-type mice: a behavioral and neurobiological study.

IF 7.6 1区医学 Q1 CLINICAL NEUROLOGY

Alzheimer's Research & Therapy Pub Date : 2026-05-02 DOI:10.1186/s13195-026-02051-2

Ahmad Allouche, Julie Colin, Catherine Birck, Henri Schroeder, Valentin Tallandier, Marion Baldoni, Christophe Muller, Mohamed Afrassi, Nicolas Violle

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Abstract

Background: Aging is the primary risk factor for sporadic Alzheimer's disease (AD). While amyloid-beta oligomers (AβOs) accumulation is a key neuropathological process in AD, their specific effects in aged brains and how aging modulates brain response to AβOs remains poorly understood. We investigated how aging contributes to AβO-induced neurotoxicity and cognitive deficits in mice.

Methods: After biochemical and in vitro characterizations on primary cultures of cortical neurons, AβOs or their vehicle were intracerebrally injected into both 3- and 18-month-old wild-type mice. A broad spectrum of assays including synaptic markers, neuroinflammation, apoptosis and cognitive functions was used to establish a preliminary characterization of the interplay between age and AβOs. In vivo data were analyzed using a multifactorial design (Treatment × Age), with two-way ANOVA or other appropriate statistical models.

Results: Old mice had significantly reduced synaptic proteins SNAP-25 and PSD-95, elevated neuroinflammatory markers, and increased neuronal apoptosis in hippocampus and cortex, despite showing cognitive performances similar to young mice. All brain biomarkers were worsened after AβO injection in both young and old mice. Age and AβO effects either accumulated or interacted to promote neuroinflammation and apoptosis, depending on brain areas, whereas their effects on synaptic proteins were strictly additive. Moreover, AβO injection induced only mild spatial memory deficits in young mice, in contrast with those observed in old mice in both episodic and spatial memory tests.

Discussion: Whereas the young brain showed resilience to maintain memory performances after AβO injection, the coping capacities of the aging brain were exceeded by AβO effects. At the neurobiological level, age and AβO effects were mainly additive, but also acted synergistically in a brain region-dependent vulnerability pattern. This study highlights the value of incorporating aging into preclinical models to improve their translational validity and enhance their relevance for drug testing targeting early stages of sporadic AD.

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衰老改变了野生型小鼠对β淀粉样蛋白低聚物的易感性模式：一项行为和神经生物学研究。

背景：衰老是散发性阿尔茨海默病（AD）的主要危险因素。虽然淀粉样蛋白- β低聚物（a - β o）的积累是AD的关键神经病理过程，但它们在老年大脑中的特异性作用以及衰老如何调节大脑对a - β o的反应仍知之甚少。我们研究了衰老如何导致a β o诱导的小鼠神经毒性和认知缺陷。方法：对皮质神经元原代培养物进行生化和体外鉴定后，将a β o或其载体注入3月龄和18月龄野生型小鼠脑内。广泛的测试包括突触标记物，神经炎症，细胞凋亡和认知功能，用于建立年龄和Aβ o之间相互作用的初步表征。体内数据采用多因子设计（治疗×年龄），采用双向方差分析或其他适当的统计模型进行分析。结果：老年小鼠的认知表现与年轻小鼠相似，但突触蛋白SNAP-25和PSD-95显著降低，神经炎症标志物升高，海马和皮层神经元凋亡增加。注射AβO后，所有脑生物标志物均恶化。年龄和AβO效应要么累积，要么相互作用，促进神经炎症和细胞凋亡，这取决于大脑区域，而它们对突触蛋白的影响是严格加性的。此外，AβO注射在年轻小鼠中仅引起轻微的空间记忆缺陷，与在情景和空间记忆测试中观察到的老年小鼠形成对比。讨论：注射AβO后，年轻的大脑表现出维持记忆性能的弹性，而AβO的作用超过了衰老的大脑的应对能力。在神经生物学水平上，年龄和a β o效应主要是相加的，但在脑区域依赖性脆弱性模式中也有协同作用。该研究强调了将衰老纳入临床前模型的价值，以提高其翻译有效性，并增强其与针对早期散发性阿尔茨海默病的药物测试的相关性。

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

Alzheimer's Research & Therapy 医学-神经病学

CiteScore

13.10

自引率

3.30%

发文量

172

审稿时长

>12 weeks

期刊介绍： Alzheimer's Research & Therapy is an international peer-reviewed journal that focuses on translational research into Alzheimer's disease and other neurodegenerative diseases. It publishes open-access basic research, clinical trials, drug discovery and development studies, and epidemiologic studies. The journal also includes reviews, viewpoints, commentaries, debates, and reports. All articles published in Alzheimer's Research & Therapy are included in several reputable databases such as CAS, Current contents, DOAJ, Embase, Journal Citation Reports/Science Edition, MEDLINE, PubMed, PubMed Central, Science Citation Index Expanded (Web of Science) and Scopus.