自噬受体 NDP52 的一个变体能抵消磷酸-TAU 的积累,并成为阿尔茨海默病的一个保护因素。

Anna Mattioni, Claudia Carsetti, Krenare Bruqi, Valerio Caputo, Valentina Cianfanelli, Maria Giulia Bacalini, Mariella Casa, Carlo Gabelli, Emiliano Giardina, Gianluca Cestra, Flavie Strappazzon
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引用次数: 0

摘要

选择性消除早期病理 TAU 物种可能是一种很有前景的治疗策略,可减少导致神经变性和阿尔茨海默病(AD)特征的 TAU 积累。通过对 435 名阿尔茨海默病患者进行基因分析,我们发现自噬受体 NDP52(又称 CALCOCO2)的 NDP52GE 变体(rs550510)是阿尔茨海默病的保护因子。我们提供的证据表明,在TAU诱发AD的体外系统和黑腹果蝇模型中,NDP52通过自噬过程减少了病理形式TAU的积累,并挽救了hTAU毒性诱发的典型神经退行性表型。更重要的是,我们发现 NDP52GE 变体在这方面比 NDP52WT 更有效。从机理上讲,我们发现 NDP52 可直接结合病态磷酸-TAU,而且 NDP52WT 和 NDP52GE 与之结合的效率相当。相反,我们发现 NDP52GE 与自噬机制(LC3C 和 LC3B)的结合效率高于 NDP52WT。我们还首次发现 NDP52 在体外是蛋白磷酸酶 2A (PP2A) 的直接靶标,这为该磷酸酶可能微调 NDP52 在 AD 中的自噬功能提供了可能。最后,我们发现编码 NDP52GE 的等位基因在全球的分布与 AD 的发病率或流行率呈正相关。总之,我们的工作强调了变异体 NDP52GE 是 AD 中的一个恢复因子,它显示了驱动病理 TAU 降解的强大功效。
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A variant of the autophagic receptor NDP52 counteracts phospho-TAU accumulation and emerges as a protective factor for Alzheimer Disease.
Selective elimination of early pathological TAU species may be a promising therapeutic strategy to reduce TAU accumulation that contributes to neurodegeneration and hallmarks Alzheimer disease (AD). By performing a genetic analysis of a cohort of 435 patients with (AD), we defined the NDP52GE variant (rs550510) of the autophagic receptor NDP52 (also known as CALCOCO2) as a protective factor for AD. We provide evidence that in in vitro systems and in a Drosophila melanogaster model of TAU-induced AD, NDP52 reduces the accumulation of pathological forms of TAU through the autophagic process and rescues typical neurodegenerative phenotypes induced by hTAU-toxicity. More importantly, we showed that the NDP52GE variant is much more effective in this respect than NDP52WT. Mechanistically, we showed that NDP52 directly binds pathological phospho-TAU, and that NDP52WT and NDP52GE bind them with comparable efficiency. On the contrary, we showed that NDP52GE binds the autophagic machinery (LC3C and LC3B) more efficiently than NDP52WT. We also showed for the first time that NDP52 is a direct target of protein phosphatase 2A (PP2A) in vitro, opening the way to the possibility that this phosphatase may fine-tune the autophagic function of NDP52 in AD. Finally, we found a positive correlation between the worldwide distribution of the allele encoding NDP52GE and the incidence or prevalence of AD. Overall, our work highlights the variant NDP52GE as a resilience factor in AD that shows a robust effectiveness to drive pathological TAU degradation.
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