SegA-sym, TDP-43低复杂度域段A系统的构象

IF 16.8 1区生物学

Nature Structural &Molecular Biology Pub Date : 2019-06-26 DOI:10.2210/PDB6N37/PDB

Q. Cao, D. Boyer, M. Sawaya, P. Ge, D. Eisenberg

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引用次数: 8

摘要

DNA和RNA加工蛋白TDP-43经历功能性和致病性聚集。功能性TDP-43聚集体形成可逆的、瞬时的物质，如核体、应力颗粒和肌颗粒。致病性的，不可逆的TDP-43聚集体形成肌萎缩性侧索硬化症和其他神经退行性疾病。在这里，我们通过确定被报道为人类TDP-43聚集的致病核心的两个片段的结构，发现了TDP-43原纤维赋予可逆性和不可逆性的特征:SegA(残基311-360)，它形成三个多态，所有具有匕首形折叠;SegB A315E(含有肌萎缩性侧索硬化症遗传突变A315E的残基286-331)，形成r形褶皱。能量分析表明，匕首形多态性代表不可逆的原纤维结构，而SegB多态性可能参与可逆和不可逆的原纤维结构。我们的结构揭示了TDP-43的多态性本质，并提示A315E突变如何将r形多态性转化为不可逆的形式，从而增强病理。

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SegA-sym, conformation of TDP-43 low complexity domain segment A sym

The DNA and RNA processing protein TDP-43 undergoes both functional and pathogenic aggregation. Functional TDP-43 aggregates form reversible, transient species such as nuclear bodies, stress granules, and myo-granules. Pathogenic, irreversible TDP-43 aggregates form in amyotrophic lateral sclerosis and other neurodegenerative conditions. Here we find the features of TDP-43 fibrils that confer both reversibility and irreversibility by determining structures of two segments reported to be the pathogenic cores of human TDP-43 aggregation: SegA (residues 311-360), which forms three polymorphs, all with dagger-shaped folds; and SegB A315E (residues 286-331 containing the amyotrophic lateral sclerosis hereditary mutation A315E), which forms R-shaped folds. Energetic analysis suggests that the dagger-shaped polymorphs represent irreversible fibril structures, whereas the SegB polymorph may participate in both reversible and irreversible fibrils. Our structures reveal the polymorphic nature of TDP-43 and suggest how the A315E mutation converts the R-shaped polymorph to an irreversible form that enhances pathology.

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来源期刊

Nature Structural &Molecular Biology 生物-生化与分子生物学

自引率

1.80%

发文量

160

期刊介绍： Nature Structural & Molecular Biology is a monthly journal that focuses on the functional and mechanistic understanding of how molecular components in a biological process work together. It serves as an integrated forum for structural and molecular studies. The journal places a strong emphasis on the functional and mechanistic understanding of how molecular components in a biological process work together. Some specific areas of interest include the structure and function of proteins, nucleic acids, and other macromolecules, DNA replication, repair and recombination, transcription, regulation of transcription and translation, protein folding, processing and degradation, signal transduction, and intracellular signaling.