Involvement of the choroid plexus in Alzheimer's disease pathophysiology: findings from mouse and human proteomic studies.

IF 5.9 1区医学 Q1 NEUROSCIENCES

Fluids and Barriers of the CNS Pub Date : 2024-07-18 DOI:10.1186/s12987-024-00555-3

Aurore Delvenne, Charysse Vandendriessche, Johan Gobom, Marlies Burgelman, Pieter Dujardin, Clint De Nolf, Betty M Tijms, Charlotte E Teunissen, Suzanne E Schindler, Frans Verhey, Inez Ramakers, Pablo Martinez-Lage, Mikel Tainta, Rik Vandenberghe, Jolien Schaeverbeke, Sebastiaan Engelborghs, Ellen De Roeck, Julius Popp, Gwendoline Peyratout, Magda Tsolaki, Yvonne Freund-Levi, Simon Lovestone, Johannes Streffer, Lars Bertram, Kaj Blennow, Henrik Zetterberg, Pieter Jelle Visser, Roosmarijn E Vandenbroucke, Stephanie J B Vos

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引用次数: 0

Abstract

Background: Structural and functional changes of the choroid plexus (ChP) have been reported in Alzheimer's disease (AD). Nonetheless, the role of the ChP in the pathogenesis of AD remains largely unknown. We aim to unravel the relation between ChP functioning and core AD pathogenesis using a unique proteomic approach in mice and humans.

Methods: We used an APP knock-in mouse model, APP^NL-G-F, exhibiting amyloid pathology, to study the association between AD brain pathology and protein changes in mouse ChP tissue and CSF using liquid chromatography mass spectrometry. Mouse proteomes were investigated at the age of 7 weeks (n = 5) and 40 weeks (n = 5). Results were compared with previously published human AD CSF proteomic data (n = 496) to identify key proteins and pathways associated with ChP changes in AD.

Results: ChP tissue proteome was dysregulated in APP^NL-G-F mice relative to wild-type mice at both 7 and 40 weeks. At both ages, ChP tissue proteomic changes were associated with epithelial cells, mitochondria, protein modification, extracellular matrix and lipids. Nonetheless, some ChP tissue proteomic changes were different across the disease trajectory; pathways related to lysosomal function, endocytosis, protein formation, actin and complement were uniquely dysregulated at 7 weeks, while pathways associated with nervous system, immune system, protein degradation and vascular system were uniquely dysregulated at 40 weeks. CSF proteomics in both mice and humans showed similar ChP-related dysregulated pathways.

Conclusions: Together, our findings support the hypothesis of ChP dysfunction in AD. These ChP changes were related to amyloid pathology. Therefore, the ChP could become a novel promising therapeutic target for AD.

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脉络丛在阿尔茨海默病病理生理学中的参与：小鼠和人类蛋白质组研究的发现。

背景：阿尔茨海默病（AD）中脉络丛（Choroid plexus，ChP）的结构和功能变化已有报道。然而，脉络丛在阿尔茨海默病发病机制中的作用在很大程度上仍不为人所知。我们的目的是利用一种独特的蛋白质组学方法，在小鼠和人类中揭示 ChP 功能与阿尔茨海默病核心发病机制之间的关系：方法：我们利用APP基因敲入小鼠模型APPNL-G-F（表现出淀粉样病理学），采用液相色谱质谱法研究AD脑部病理学与小鼠ChP组织和CSF中蛋白质变化之间的关系。在小鼠7周大（5只）和40周大（5只）时对其蛋白质组进行了研究。研究结果与之前发表的人类AD CSF蛋白质组数据（n = 496）进行了比较，以确定与AD中ChP变化相关的关键蛋白质和通路：结果：与野生型小鼠相比，APPNL-G-F小鼠的ChP组织蛋白质组在7周和40周时都出现了失调。在这两个年龄段，ChP组织蛋白质组的变化都与上皮细胞、线粒体、蛋白质修饰、细胞外基质和脂质有关。然而，一些 ChP 组织蛋白质组的变化在疾病轨迹上有所不同；与溶酶体功能、内吞、蛋白质形成、肌动蛋白和补体有关的通路在 7 周时出现了独特的失调，而与神经系统、免疫系统、蛋白质降解和血管系统有关的通路在 40 周时出现了独特的失调。小鼠和人类的脑脊液蛋白质组学显示出类似的 ChP 相关失调通路：总之，我们的研究结果支持AD中ChP功能失调的假说。这些 ChP 变化与淀粉样蛋白病理学有关。因此，ChP可能成为治疗AD的新靶点。

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

Fluids and Barriers of the CNS Neuroscience-Developmental Neuroscience

CiteScore

10.70

自引率

8.20%

发文量

审稿时长

14 weeks

期刊介绍： "Fluids and Barriers of the CNS" is a scholarly open access journal that specializes in the intricate world of the central nervous system's fluids and barriers, which are pivotal for the health and well-being of the human body. This journal is a peer-reviewed platform that welcomes research manuscripts exploring the full spectrum of CNS fluids and barriers, with a particular focus on their roles in both health and disease. At the heart of this journal's interest is the cerebrospinal fluid (CSF), a vital fluid that circulates within the brain and spinal cord, playing a multifaceted role in the normal functioning of the brain and in various neurological conditions. The journal delves into the composition, circulation, and absorption of CSF, as well as its relationship with the parenchymal interstitial fluid and the neurovascular unit at the blood-brain barrier (BBB).