Antibiotic-Induced Gut Dysbiosis Modulates Alzheimer's Disease-Associated Gene Expression and Protein Aggregation in 3xTg-AD Mice via the Gut-Brain Axis.

IF 2.7 3区心理学 Q2 BEHAVIORAL SCIENCES

Brain and Behavior Pub Date : 2025-10-01 DOI:10.1002/brb3.70946

Edward Jenner Tettevi, David Larbi Simpong, Mahmoud Maina, Samuel Adjei, Elias Asuming-Brempong, Mike Y Osei-Atweneboana, Augustine Ocloo

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引用次数: 0

Abstract

Introduction: Alzheimer's disease (AD) is a progressive neurodegenerative disorder that poses a major global health challenge due to its increasing prevalence and lack of effective treatments. Emerging evidence suggests the gut-brain axis may play a pivotal role in AD pathogenesis. However, causal links between dysbiosis and late-stage AD pathology remain unclear.

Methods: This study evaluated the effects of antibiotic-induced gut dysbiosis in aged 3xTg-AD mice (46-48 weeks). Female mice were randomly assigned to control or treatment groups and administered a broad-spectrum antibiotic cocktail (ampicillin, vancomycin, and neomycin) for 14 days. Behavioral tests (Y-maze, elevated plus maze) were performed to assess cognitive and anxiety-like behaviors. Gut microbiota composition was assessed via 16S rRNA qPCR. Gene expression of Acetylcholinesterase (AChE), Butyrylcholinesterase (BChE), and Tumor Necrosis Factor-Alpha (TNF-α) was analyzed via qRT-PCR, and cerebral amyloid-β_1-42 and tau protein levels were quantified by ELISA.

Results: Antibiotic treatment induced significant dysbiosis, with > 90% reduction in Firmicutes and Bacteroidetes. Dysbiotic mice displayed impaired spatial working memory, heightened anxiety-like behavior, and reduced locomotor activity. Molecular analyses revealed region-specific dysregulation of cholinergic genes: AChE was upregulated in the hippocampus but downregulated in the cortex, while BChE showed the opposite trend. TNF-α was significantly elevated in both regions, indicating neuroinflammation. Dysbiosis also led to increased brain levels of amyloid-β_1-42 and tau.

Conclusion: Gut microbiome disruption exacerbates late-stage AD pathology, driving cognitive deficits, neuroinflammation, and hallmark protein aggregation. These findings support the gut-brain axis as a critical modulator of AD and highlight the microbiome as a potential therapeutic target.

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抗生素诱导的肠道生态失调通过肠-脑轴调节3xTg-AD小鼠阿尔茨海默病相关基因表达和蛋白质聚集

阿尔茨海默病（AD）是一种进行性神经退行性疾病，由于其日益增加的患病率和缺乏有效的治疗方法，对全球健康构成了重大挑战。新出现的证据表明，肠脑轴可能在阿尔茨海默病的发病机制中起关键作用。然而，生态失调与晚期AD病理之间的因果关系尚不清楚。方法：本研究对3xTg-AD小鼠（46-48周）抗生素诱导的肠道生态失调的影响进行了评价。雌性小鼠被随机分为对照组或治疗组，并给予广谱抗生素鸡尾酒（氨苄西林、万古霉素和新霉素）14天。行为测试（y型迷宫、高架迷宫）用于评估认知和焦虑样行为。通过16S rRNA qPCR评估肠道菌群组成。采用qRT-PCR检测乙酰胆碱酯酶（AChE）、丁基胆碱酯酶（BChE）和肿瘤坏死因子-α (TNF-α)基因表达，ELISA检测脑淀粉样蛋白-β1-42和tau蛋白水平。结果：抗生素治疗引起明显的生态失调，厚壁菌门和拟杆菌门减少90%。生态失调小鼠表现出空间工作记忆受损、焦虑样行为增强和运动活动减少。分子分析显示胆碱能基因的区域特异性失调：AChE在海马中上调，而在皮层中下调，而BChE则相反。TNF-α在两个区域均显著升高，提示神经炎症。生态失调还导致大脑中淀粉样蛋白-β1-42和tau蛋白水平升高。结论：肠道微生物群破坏加剧了晚期AD病理，导致认知缺陷、神经炎症和标志性蛋白聚集。这些发现支持肠脑轴作为AD的关键调节因子，并强调微生物组是潜在的治疗靶点。

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来源期刊

Brain and Behavior BEHAVIORAL SCIENCES-NEUROSCIENCES

CiteScore

5.30

自引率

0.00%

发文量

352

审稿时长

14 weeks

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