靶向雄性转基因小鼠腹侧海马区的脆弱微电路,挽救类似阿尔茨海默氏症的社交记忆丧失。

IF 16.7 2区 医学 Q1 MEDICINE, GENERAL & INTERNAL
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引用次数: 0

摘要

背景:外显记忆丧失是阿尔茨海默病(AD)的一个突出临床表现,它与tau病理学和海马损害密切相关。由于大脑神经元的异质性,不同大脑神经元对 tau 积累的敏感性及其对类似 AD 的社会记忆丧失的贡献的具体作用仍不清楚。因此,有必要进行进一步研究:我们通过串联质量标记蛋白质组和磷酸化蛋白质组分析、社交行为测试、海马电生理学、免疫荧光染色和体内光纤记录 GCaMP6f 和 iGABASnFR,研究了类似 AD 的 tau 病理学的影响。此外,我们还利用光遗传学并通过口服熊果酸(UA)来研究这些药物对小鼠社会记忆的影响:蛋白质组学和磷酸化蛋白质组学分析结果显示了海马腹侧CA1(vCA1)在生理状态和类AD tau病理状态下的特征。随着tau的逐渐积累,vCA1,尤其是其兴奋性神经元和副缬氨酸(PV)神经元,完全被错位和磷酸化的tau(p-Tau)所充满。而背侧海马CA1(dCA1)却没有发现这一现象。在兴奋性神经元和PV神经元中过表达人tau(hTau)模拟了类似AD的tau积累,显著抑制了神经元的兴奋性,并抑制了vCA1中这些神经元与辨别相关的独特搏动。在特定的节律和时间窗口光激活vCA1中的兴奋性神经元和PV神经元可有效改善tau受损的社会记忆。值得注意的是,服用1个月的UA可通过转录因子EB(TFEB)依赖的自噬方式有效减少tau的积累,并恢复vCA1微循环,从而改善tau受损的社会记忆:这项研究阐明了dCA1和vCA1之间不同的蛋白质和磷蛋白网络,并强调了vCA1微电路对类似于AD的tau积累的易感性。值得注意的是,我们关于 UA 在减少 tau 负荷和靶向 vCA1 微电路方面的疗效的新发现可能会为未来治疗 AD 提供一种前景广阔的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeting vulnerable microcircuits in the ventral hippocampus of male transgenic mice to rescue Alzheimer-like social memory loss.

Background: Episodic memory loss is a prominent clinical manifestation of Alzheimer's disease (AD), which is closely related to tau pathology and hippocampal impairment. Due to the heterogeneity of brain neurons, the specific roles of different brain neurons in terms of their sensitivity to tau accumulation and their contribution to AD-like social memory loss remain unclear. Therefore, further investigation is necessary.

Methods: We investigated the effects of AD-like tau pathology by Tandem mass tag proteomic and phosphoproteomic analysis, social behavioural tests, hippocampal electrophysiology, immunofluorescence staining and in vivo optical fibre recording of GCaMP6f and iGABASnFR. Additionally, we utilized optogenetics and administered ursolic acid (UA) via oral gavage to examine the effects of these agents on social memory in mice.

Results: The results of proteomic and phosphoproteomic analyses revealed the characteristics of ventral hippocampal CA1 (vCA1) under both physiological conditions and AD-like tau pathology. As tau progressively accumulated, vCA1, especially its excitatory and parvalbumin (PV) neurons, were fully filled with mislocated and phosphorylated tau (p-Tau). This finding was not observed for dorsal hippocampal CA1 (dCA1). The overexpression of human tau (hTau) in excitatory and PV neurons mimicked AD-like tau accumulation, significantly inhibited neuronal excitability and suppressed distinct discrimination-associated firings of these neurons within vCA1. Photoactivating excitatory and PV neurons in vCA1 at specific rhythms and time windows efficiently ameliorated tau-impaired social memory. Notably, 1 month of UA administration efficiently decreased tau accumulation via autophagy in a transcription factor EB (TFEB)-dependent manner and restored the vCA1 microcircuit to ameliorate tau-impaired social memory.

Conclusion: This study elucidated distinct protein and phosphoprotein networks between dCA1 and vCA1 and highlighted the susceptibility of the vCA1 microcircuit to AD-like tau accumulation. Notably, our novel findings regarding the efficacy of UA in reducing tau load and targeting the vCA1 microcircuit may provide a promising strategy for treating AD in the future.

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来源期刊
Military Medical Research
Military Medical Research Medicine-General Medicine
CiteScore
38.40
自引率
2.80%
发文量
485
审稿时长
8 weeks
期刊介绍: Military Medical Research is an open-access, peer-reviewed journal that aims to share the most up-to-date evidence and innovative discoveries in a wide range of fields, including basic and clinical sciences, translational research, precision medicine, emerging interdisciplinary subjects, and advanced technologies. Our primary focus is on modern military medicine; however, we also encourage submissions from other related areas. This includes, but is not limited to, basic medical research with the potential for translation into practice, as well as clinical research that could impact medical care both in times of warfare and during peacetime military operations.
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