阿尔茨海默病转分化神经元中的蛋白质稳态和溶酶体修复缺陷

Proteostasis and lysosomal repair deficits in transdifferentiated neurons of Alzheimer's disease.

作者信息

Chou Ching-Chieh, Vest Ryan, Prado Miguel A, Wilson-Grady Joshua, Paulo Joao A, Shibuya Yohei, Moran-Losada Patricia, Lee Ting-Ting, Luo Jian, Gygi Steven P, Kelly Jeffery W, Finley Daniel, Wernig Marius, Wyss-Coray Tony, Frydman Judith

机构信息

Department of Biology, Stanford University, Stanford, California, USA.

Department of Chemical Engineering, Stanford University, Stanford, California, USA.

出版信息

bioRxiv. 2025 Jan 13:2023.03.27.534444. doi: 10.1101/2023.03.27.534444.

DOI:10.1101/2023.03.27.534444

PMID:37034684

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10081252/

Abstract

Aging is the most prominent risk factor for Alzheimer's disease (AD). However, the cellular mechanisms linking neuronal proteostasis decline to the characteristic aberrant protein deposits in AD brains remain elusive. Here, we develop transdifferentiated neurons (tNeurons) from human dermal fibroblasts as a neuronal model that retains aging hallmarks and exhibits AD-linked vulnerabilities. Remarkably, AD tNeurons accumulate proteotoxic deposits, including phospho-Tau and Aβ, resembling those in AD patient and APP mouse brains. Quantitative tNeuron proteomics identify aging and AD-linked deficits in proteostasis and organelle homeostasis, most notably in endosome-lysosomal components. Lysosomal deficits in aged tNeurons, including constitutive lysosomal damage and ESCRT-mediated lysosomal repair defects, are exacerbated in AD tNeurons and linked to inflammatory cytokine secretion and cell death. Supporting lysosomal deficits' centrality in AD, compounds ameliorating lysosomal function reduce Aβ deposits and cytokine secretion. Thus, the tNeuron model system reveals impaired lysosomal homeostasis as an early event of aging and AD.

摘要

衰老是阿尔茨海默病（AD）最显著的风险因素。然而，将神经元蛋白质稳态下降与AD大脑中特征性异常蛋白质沉积联系起来的细胞机制仍不清楚。在这里，我们从人皮肤成纤维细胞中培养出转分化神经元（tNeurons），作为一种保留衰老特征并表现出与AD相关易损性的神经元模型。值得注意的是，AD tNeurons会积累蛋白质毒性沉积物，包括磷酸化tau蛋白和淀粉样β蛋白（Aβ），类似于AD患者和APP小鼠大脑中的沉积物。定量tNeuron蛋白质组学确定了蛋白质稳态和细胞器稳态中与衰老和AD相关的缺陷，最显著的是在内体-溶酶体成分中。衰老tNeurons中的溶酶体缺陷，包括组成性溶酶体损伤和ESCRT介导的溶酶体修复缺陷，在AD tNeurons中会加剧，并与炎性细胞因子分泌和细胞死亡有关。支持溶酶体缺陷在AD中的核心地位，改善溶酶体功能的化合物可减少Aβ沉积物和细胞因子分泌。因此，tNeuron模型系统揭示了溶酶体稳态受损是衰老和AD的早期事件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4acf/11731090/5b2cdb314723/nihpp-2023.03.27.534444v2-f0001.jpg

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阿尔茨海默病转分化神经元中的蛋白质稳态和溶酶体修复缺陷

Proteostasis and lysosomal repair deficits in transdifferentiated neurons of Alzheimer's disease.

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