肽
生物
细胞质
淀粉样蛋白(真菌学)
纤维
突变体
生物物理学
生物化学
肽序列
细胞生物学
神经毒性
P3肽
化学
淀粉样前体蛋白
阿尔茨海默病
病理
医学
植物
基因
有机化学
疾病
毒性
作者
Li Zhu,Meng Xu,Mengxue Yang,Yanlian Yang,Yang Li,Jianwen Deng,Linhao Ruan,Jianghong Liu,Sidan Du,Xuehui Liu,Wei Feng,Kazuo Fushimi,Eileen H. Bigio,Marsel Mesulam,Chen Wang,Jane Y. Wu
摘要
TDP-43 proteinopathies are clinically and genetically heterogeneous diseases that had been considered distinct from classical amyloid diseases. Here, we provide evidence for the structural similarity between TDP-43 peptides and other amyloid proteins. Atomic force microscopy and electron microscopy examination of peptides spanning a previously defined amyloidogenic fragment revealed a minimal core region that forms amyloid fibrils similar to the TDP-43 fibrils detected in FTLD-TDP brain tissues. An ALS-mutant A315E amyloidogenic TDP-43 peptide is capable of cross-seeding other TDP-43 peptides and an amyloid-β peptide. Sequential Nuclear Overhauser Effects and double-quantum-filtered correlation spectroscopy in nuclear magnetic resonance (NMR) analyses of the A315E-mutant TDP-43 peptide indicate that it adopts an anti-parallel β conformation. When added to cell cultures, the amyloidogenic TDP-43 peptides induce TDP-43 redistribution from the nucleus to the cytoplasm. Neuronal cultures in compartmentalized microfluidic-chambers demonstrate that the TDP-43 peptides can be taken up by axons and induce axonotoxicity and neuronal death, thus recapitulating key neuropathological features of TDP-43 proteinopathies. Importantly, a single amino acid change in the amyloidogenic TDP-43 peptide that disrupts fibril formation also eliminates neurotoxicity, supporting that amyloidogenesis is critical for TDP-43 neurotoxicity.
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