Seed structure and phosphorylation in the fuzzy coat impact tau seeding competency

Tau is a pathogenic protein in Alzheimer’s (AD) and other neurodegenerative diseases. The misfolding of tau into β-sheet rich elongated filaments is thought to be a key event in disease pathogenesis, followed by subsequent templated recruitment of monomeric tau into this pathogenic form. Cryo-electron microscopy has revealed that specific tau conformations characterize different diseases. In this study, we explored how tau filament core structure and post-translational modifications in its disordered fuzzy coat influence its seeding capacity in primary neurons and mice. We show that the structure of the seeds affects seeding capacity, but that the AD tau core structure alone is insufficient to capture the full seeding capacity of AD tau. Proteolytic cleavage of AD tau which removes the fuzzy coat causes a loss in seeding capacity, as does removal of phosphorylation from the fuzzy coat by phosphatase treatment. Re-phosphorylation of phosphatase-treated AD tau by kinase treatment partially restores seeding activity. Finally, we find that filaments of recombinant tau with twelve phospho-mimetic residues (PAD12 tau) with the AD fold are able to recapitulate the seeding capacity of AD tau. Combined, these results suggest that the structure of the ordered core, together with phosphorylation in the fuzzy coat, confers the seeding capacity of tau filaments.