Distinct Conformers of Assembled Tau in Alzheimer's and Pick's Diseases.

Michel Goedert, Benjamin Falcon, Wenjuan Zhang, Bernardino Ghetti, Sjors H W Scheres
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引用次数: 41

Abstract

Tau filaments with distinct morphologies and/or isoform compositions underlie a large number of human neurodegenerative diseases. In conjunction with experimental studies, this has led to the suggestion that conformers of aggregated tau exist. Electron cryo-microscopy can be used to determine high-resolution structures of amyloid filaments from human brain. Paired helical and straight tau filaments of Alzheimer's disease (AD) are ultrastructural polymorphs. Each filament core is composed of two identical protofilaments extending from G273/304-E380 (in the numbering of the 441-amino acid isoform of human tau), which adopt a combined cross-β/β-helix structure. They comprise the ends of the first or second microtubule-binding repeat (R1 or R2), the whole of R3 and R4, and 12 amino acids after R4. In contrast, the core of the narrow filaments of Pick's disease (PiD) consists of a single protofilament extending from K254-F378 of 3R tau, which adopts a cross-β structure. It comprises the last 21 amino acids of R1, all of R3 and R4, and 10 amino acids after R4. Wide tau filaments of PiD, which are in the minority, consist of two narrow filaments packed against each other. The tau filament folds of AD and PiD appear to be conserved between different cases of disease. These findings show that filamentous tau adopts one fold in AD and a different fold in PiD, establishing the existence of distinct conformers.

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阿尔茨海默病和皮克病中组装Tau的不同构象。
具有不同形态和/或同种异构体组成的Tau蛋白细丝是大量人类神经退行性疾病的基础。结合实验研究,这导致了聚集tau的构象存在的建议。电子冷冻显微镜可用于测定人脑淀粉样蛋白细丝的高分辨率结构。阿尔茨海默病(AD)的成对螺旋和直tau纤维是超微结构的多态性。每个丝芯由两个相同的原丝组成,原丝从G273/304-E380(编号为人类tau的441个氨基酸异构体)延伸而来,采用交叉-β/β-螺旋组合结构。它们包括第一或第二微管结合重复序列的末端(R1或R2),整个R3和R4,以及R4之后的12个氨基酸。相比之下,匹克病(Pick’s disease, PiD)的窄丝核心由一条从3R tau蛋白K254-F378延伸而来的单原丝组成,该原丝采用交叉β结构。它由R1的最后21个氨基酸、R3和R4的全部氨基酸以及R4之后的10个氨基酸组成。PiD的宽tau细丝占少数,由两个狭窄的细丝相互堆积而成。AD和PiD的tau丝折叠在不同病例之间似乎是保守的。这些发现表明,丝状tau蛋白在AD中采用一种折叠,在PiD中采用另一种折叠,从而确定了不同构象的存在。
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