Structural Insights into α-Synuclein Fibril Polymorphism: Effects of Parkinson's Disease-Related C-Terminal Truncations

Lewy bodies, hallmarks of Parkinson's disease, contain C-terminally truncated (Delta C) alpha-synuclein (alpha-syn). Here, we report fibril structures of three N-terminally acetylated (Ac) alpha-syn constructs, Ac1-140, Ac1-122, and Ac1-103, solved by cryoelectron microscopy. Both Delta C-alpha-syn variants exhibited faster aggregation kinetics, and Ac1-103 fibrils efficiently seeded the full-length protein, highlighting their importance in pathogenesis. Interestingly, fibril helical twists increased upon the removal of C-terminal residues and can be propagated through cross-seeding. Compared to that of Ac1-140, increased electron densities were seen in the N-terminus of Ac1-103, whereas the C-terminus of Ac1-122 appeared more structured. In accord, the respective termini of Delta C-alpha-syn exhibited increased protease resistance. Despite similar amyloid core residues, distinctive features were seen for both Ac1-122 and Ac1-103. Particularly, Ac1-103 has the tightest packed core with an additional turn, likely attributable to conformational changes in the N-terminal region. These molecular differences offer insights into the effect of C-terminal truncations on alpha-syn fibril polymorphism. Published by Elsevier Ltd.