Abstract

Significance Certain oligomeric species generated during the self-assembly of specific proteins into ordered fibrillar aggregates are likely to be key players in the initiation and spreading of neurodegenerative diseases. We have purified stable toxic oligomeric species of α-synuclein and defined and minimized their degree of heterogeneity, which has allowed us to identify distinct subgroups of oligomers and determine their structural properties and three-dimensional molecular architectures. All the oligomeric subgroups possess approximately cylindrical architectures with marked similarities to amyloid fibrils, suggesting that these types of oligomers are kinetically trapped during protein self-assembly. The relative stabilities and inherent pathological roles of different amyloid oligomers are likely to result from the multiplicity of pathways of the misfolding process and the remarkably slow rates of structural conversions.