老年斑
蛋白质丝
低温电子显微
τ蛋白
纤维
神经纤维缠结
疾病
电子显微镜
螺旋(腹足类)
淀粉样纤维
超微结构
阿尔茨海默病
生物
化学
生物物理学
淀粉样蛋白(真菌学)
神经科学
淀粉样β
解剖
医学
生物化学
物理
病理
光学
无机化学
蜗牛
生态学
作者
Anthony W. P. Fitzpatrick,Benjamin Falcon,Shaoda He,Alexey G. Murzin,Garib N. Murshudov,Holly J. Garringer,R. Anthony Crowther,Bernardino Ghetti,Michel Goedert,Sjors H. W. Scheres
出处
期刊:Nature
[Nature Portfolio]
日期:2017-07-01
卷期号:547 (7662): 185-190
被引量:2131
摘要
Alzheimer’s disease is the most common neurodegenerative disease, and there are no mechanism-based therapies. The disease is defined by the presence of abundant neurofibrillary lesions and neuritic plaques in the cerebral cortex. Neurofibrillary lesions comprise paired helical and straight tau filaments, whereas tau filaments with different morphologies characterize other neurodegenerative diseases. No high-resolution structures of tau filaments are available. Here we present cryo-electron microscopy (cryo-EM) maps at 3.4–3.5 Å resolution and corresponding atomic models of paired helical and straight filaments from the brain of an individual with Alzheimer’s disease. Filament cores are made of two identical protofilaments comprising residues 306–378 of tau protein, which adopt a combined cross-β/β-helix structure and define the seed for tau aggregation. Paired helical and straight filaments differ in their inter-protofilament packing, showing that they are ultrastructural polymorphs. These findings demonstrate that cryo-EM allows atomic characterization of amyloid filaments from patient-derived material, and pave the way for investigation of a range of neurodegenerative diseases. High-resolution structures of tau filaments shed light on the ultrastructure of neurofibrillary lesions in Alzheimer’s disease. Alzheimer's disease is defined by the presence of abundant neurofibrillary lesions and neuritic plaques in the cerebral cortex. The lesions are made of paired helical and straight tau filaments (PHFs and SFs, respectively). Different tau filaments characterize other neurodegenerative diseases, suggesting that molecular conformers of aggregated tau underlie human tauopathies. No high-resolution structures of tau filaments are currently available. Here, Sjors Scheres and colleagues present cryo-electron microscopy (cryo-EM) maps at 3.5 Å resolution and corresponding atomic models of PHFs and SFs from the brain of an individual with Alzheimer's disease. Their results show that cryo-EM enables atomic characterization of amyloid filaments from patient-derived material and could be used to study a range of neurodegenerative diseases.
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