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旋转磁场抑制 Aβ 蛋白聚集并缓解阿尔茨海默病小鼠的认知障碍。

Rotating magnetic field inhibits Aβ protein aggregation and alleviates cognitive impairment in Alzheimer's disease mice.

机构信息

High Magnetic Field Laboratory, CAS Key Laboratory of High Magnetic Field and Ion Beam Physical Biology, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, Anhui 230031, China.

Science Island Branch of Graduate School, University of Science and Technology of China, Hefei, Anhui 230036, China.

出版信息

Zool Res. 2024 Jul 18;45(4):924-936. doi: 10.24272/j.issn.2095-8137.2024.034.

DOI:10.24272/j.issn.2095-8137.2024.034
PMID:39021081
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11298676/
Abstract

Amyloid beta (Aβ) monomers aggregate to form fibrils and amyloid plaques, which are critical mechanisms in the pathogenesis of Alzheimer's disease (AD). Given the important role of Aβ1-42 aggregation in plaque formation, leading to brain lesions and cognitive impairment, numerous studies have aimed to reduce Aβ aggregation and slow AD progression. The diphenylalanine (FF) sequence is critical for amyloid aggregation, and magnetic fields can affect peptide alignment due to the diamagnetic anisotropy of aromatic rings. In this study, we examined the effects of a moderate-intensity rotating magnetic field (RMF) on Aβ aggregation and AD pathogenesis. Results indicated that the RMF directly inhibited Aβ amyloid fibril formation and reduced Aβ-induced cytotoxicity in neural cells . Using the AD mouse model APP/PS1, RMF restored motor abilities to healthy control levels and significantly alleviated cognitive impairments, including exploration and spatial and non-spatial memory abilities. Tissue examinations demonstrated that RMF reduced amyloid plaque accumulation, attenuated microglial activation, and reduced oxidative stress in the APP/PS1 mouse brain. These findings suggest that RMF holds considerable potential as a non-invasive, high-penetration physical approach for AD treatment.

摘要

淀粉样蛋白β(Aβ)单体聚集形成纤维和淀粉样斑块,这是阿尔茨海默病(AD)发病机制中的关键机制。鉴于 Aβ1-42 聚集在斑块形成中的重要作用,导致脑损伤和认知障碍,许多研究旨在减少 Aβ 聚集并减缓 AD 进展。二苯丙氨酸(FF)序列对淀粉样蛋白聚集至关重要,由于芳环的反磁各向异性,磁场会影响肽的排列。在这项研究中,我们研究了中强度旋转磁场(RMF)对 Aβ 聚集和 AD 发病机制的影响。结果表明,RMF 直接抑制 Aβ 淀粉样纤维形成,并降低 Aβ 在神经细胞中的细胞毒性。使用 AD 小鼠模型 APP/PS1,RMF 将运动能力恢复到健康对照组水平,并显著缓解认知障碍,包括探索和空间及非空间记忆能力。组织检查表明,RMF 减少了淀粉样斑块的积累,减轻了 APP/PS1 小鼠大脑中的小胶质细胞激活和氧化应激。这些发现表明,RMF 作为一种非侵入性、高穿透性的 AD 治疗物理方法具有很大的潜力。

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