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Integrated transcriptomic and proteomic analysis identifies FBXW7 as a key regulator of tau homeostasis in Alzheimer's disease

免疫沉淀 调节器 生物 发病机制 泛素 蛋白质稳态 MG132型 信号转导 细胞生物学 癌症研究 免疫学 遗传学 基因
作者
Huai Wang,Qianxi Yang,Chuanhua Ge,Jiaqi Liu,Hemant Mistry,Yun‐Fang Jia,Guiqiong He
出处
期刊:Journal of Alzheimer's Disease [IOS Press]
卷期号:107 (2): 542-560
标识
DOI:10.1177/13872877251361042
摘要

BackgroundAlzheimer's disease (AD) is a progressive neurodegenerative disorder driven by complex, incompletely understood genetic and pathogenic factors. E3 ubiquitin ligases (E3s), crucial for protein degradation, are implicated in AD, but their specific contributions to its progression remain to be elucidated.ObjectiveThis study aimed to identify dysregulated E3s in AD and elucidate the role of a hub E3, FBXW7, in its pathogenesis and tau protein regulation.MethodsWe integrated four datasets to identify differentially expressed E3s (DE-E3s) in AD and performed functional enrichment and PPI network analyses. Machine learning identified hub E3s and stratified AD patients into molecular subtypes. Furthermore, we validated the expression and functional role of FBXW7 using western blot, immunoprecipitation-mass spectrometry (IP-MS), and co-immunoprecipitation (Co-IP).ResultsWe identified 42 DE-E3s primarily enriched in protein ubiquitination and Notch signaling pathways. FBXW7 and ENC1 emerged as hub E3s, stratifying patients into two subtypes. Subtype I exhibited enrichment of inflammatory pathways, suggesting immune dysregulation. Conversely, subtype II displayed activation of pathways associated with synaptic dysfunction and neuronal loss, potentially representing distinct primary pathological features. Furthermore, we observed decreased FBXW7 expression in AD models compared to controls. Notably, FBXW7 interacted with Tau protein. Overexpression of FBXW7 reduced the levels of both total Tau and p-Tau Ser262, and this reduction in Tau levels was reversed by MG132 treatment.ConclusionsThis study comprehensively identified E3s associated with AD, with our findings highlighting FBXW7 as a potential key regulator of AD pathogenesis through its modulation of tau protein levels.
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