Authors
Sato, Y., Kawasaki, M., Moriya, T., Senda, M., Masuda-Suzukake, M., Ando, K., Hisanaga, S.-i., Hasegawa, M., Senda, T., Nonaka, T.
Abstract
Cryo-electron microscopy (cryo-EM) has revealed disease-specific tau filament folds, yet the local sequence elements that determine them remain poorly understood. Here we focused on the 329HHK331 motif near an inter-protofilament interface in Alzheimer's disease (AD)-type tau filaments, and analyzed recombinant dGAE filaments of wild-type (WT) and mutants in this motif. All mutants formed amyloid-like filaments in vitro, but their morphologies differed. In cultured cells, WT filaments efficiently seeded WT tau aggregation. Filaments with three-residue changes (deletion or Ala substitution) showed almost no seeding activity, whereas two-residue deletions retained partial activity. Cryo-EM showed that WT dGAE filaments form a quadruple helical filament of two protofilament dimers. Each dimer comprises two C-shaped protofilaments, centered on a 333GGG335-mediated inter-protofilament interaction and supported by flanking 329HHK331-336QVE338 contacts. Three-residue alterations abolished interactions with the QVE motif at the protofilament interface, thereby displacing 333GGG335 and forming non-C-shaped protofilament structures that are intrinsically poor templates for tau seeding. By contrast, two-residue deletions maintained the C-shaped protofilament structure because the remaining residue formed alternative inter-protofilament interactions. These findings suggest that the 329HHK331 region is a key determinant of the AD-like C-shaped protofilament fold and link this motif to tau seeding, providing insight into disease-specific tau filament formation.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 05 Jul 2026.
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