Aβ(1–42) fibril structure illuminates self-recognition and replication of amyloid in Alzheimer's disease
2015; Nature Portfolio; Volume: 22; Issue: 6 Linguagem: Inglês
10.1038/nsmb.2991
ISSN1545-9993
AutoresYiling Xiao, Buyong Ma, Dan McElheny, Sudhakar Parthasarathy, Fei Long, Minako Hoshi, Ruth Nussinov, Yoshitaka Ishii,
Tópico(s)Advanced NMR Techniques and Applications
ResumoAβ(1–42) is the most pathogenic amyloid-β species in Alzheimer's disease (AD). The solid-state NMR–based atomic model of an Aβ(1–42) fibril elucidates the mechanism of fibril formation and propagation in AD and other amyloid diseases. Increasing evidence has suggested that formation and propagation of misfolded aggregates of 42-residue human amyloid β (Aβ(1–42)), rather than of the more abundant Aβ(1–40), provokes the Alzheimer's disease cascade. However, structural details of misfolded Aβ(1–42) have remained elusive. Here we present the atomic model of an Aβ(1–42) amyloid fibril, from solid-state NMR (ssNMR) data. It displays triple parallel-β-sheet segments that differ from reported structures of Aβ(1–40) fibrils. Remarkably, Aβ(1–40) is incompatible with the triple-β-motif, because seeding with Aβ(1–42) fibrils does not promote conversion of monomeric Aβ(1–40) into fibrils via cross-replication. ssNMR experiments suggest that C-terminal Ala42, absent in Aβ(1–40), forms a salt bridge with Lys28 to create a self-recognition molecular switch that excludes Aβ(1–40). The results provide insight into the Aβ(1–42)-selective self-replicating amyloid-propagation machinery in early-stage Alzheimer's disease.
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