协同MAPT突变作为揭示tau发病机制修饰因子的平台。

Miles R Bryan, Michael Almeida, Kyle Pellegrino, Carli Opland, Ethan Paulakonis, Jake McGillion-Moore, Hanna Trzeciakiewicz, Diamond King, Xu Tian, Jui-Heng Tseng, Jonathan Schisler, Nicholas G Brown, Ben Bahr, Todd J Cohen
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引用次数: 0

摘要

天然未折叠的tau蛋白极易溶解,这给阿尔茨海默病(AD)的神经原纤维缠结(NFT)病理建模带来了挑战。为了克服这一障碍,我们将P301L和S320F突变(PL-SF)结合起来,建立了一个快速可靠的平台,以加速发现调节tau聚集的因子。使用该模型,我们评估了热休克蛋白(Hsp),传统上与tau病理相关,但其在AD中的作用仍然是谜和有争议的。在原代神经元中,Hsp70而非Hsc70或Hsp90的表达加剧了tau的聚集。相反,shRNA或伴侣蛋白缺失的tau突变体(PL-SF-4delta)降低Hsp70可减少tau磷酸化并消除tau聚集,这表明Hsp70是tau聚集的关键驱动因素。功能上,成熟的携带聚集体的神经元显示出神经元放电和网络通信的缺陷,而伴侣结合缺陷的tau变体显示出tau病理减少和网络特性恢复。这项研究为加速tau聚集提供了一个强大的细胞内在模型,可以用来识别tau聚集的调节因子作为有希望的治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synergistic MAPT mutations as a platform to uncover modifiers of tau pathogenesis.

The natively unfolded tau (MAPT) protein is extremely soluble, which poses challenges when modeling neurofibrillary tangle (NFT) pathology in Alzheimers disease (AD). To overcome this hurdle, we combined P301L and S320F mutations (PL-SF) to generate a rapid and reliable tau pathology platform to expedite the discovery of factors that modify tau aggregation. Using this model, we evaluated heat-shock proteins (Hsp), which have been linked to tau pathology, but whose role in AD remains enigmatic and controversial. In primary neurons, expression of Hsp70, but not Hsc70 or Hsp90, exacerbated tau aggregation. Conversely, lowering Hsp70 or employing a chaperone-deficient tau mutant (PL-SF-4 delta;) reduced tau phosphorylation and abrogated tau aggregation, highlighting Hsp70 as a key driver of tau aggregation. Hsp70 foci clustered within and surrounding neuritic plaques and NFTs in post-mortem AD brain. Functionally, mature aggregate-bearing neurons showed deficits in neuronal firing and network communication, which were restored by chaperone-binding deficient tau variants that abrogated tau pathology. This study provides a powerful cell-intrinsic model for accelerated tau aggregation, which can be harnessed to identify potent regulators of tau aggregation as promising therapeutic targets.

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