FTD-tau S320F mutation stabilizes local structure and allosterically promotes amyloid motif-dependent aggregation.
Dailu ChenSofia BaliRuhar SinghAleksandra WosztylVishruth MullapudiJaime Vaquer-AliceaParvathy JayanShamiram MelhemHarro SeelaarJohn C van SwietenMarc I DiamondLukasz A JoachimiakPublished in: Nature communications (2023)
Amyloid deposition of the microtubule-associated protein tau is associated with neurodegenerative diseases. In frontotemporal dementia with abnormal tau (FTD-tau), missense mutations in tau enhance its aggregation propensity. Here we describe the structural mechanism for how an FTD-tau S320F mutation drives spontaneous aggregation, integrating data from in vitro, in silico and cellular experiments. We find that S320F stabilizes a local hydrophobic cluster which allosterically exposes the 306 VQIVYK 311 amyloid motif; identify a suppressor mutation that destabilizes S320F-based hydrophobic clustering reversing the phenotype in vitro and in cells; and computationally engineer spontaneously aggregating tau sequences through optimizing nonpolar clusters surrounding the S320 position. We uncover a mechanism for regulating tau aggregation which balances local nonpolar contacts with long-range interactions that sequester amyloid motifs. Understanding this process may permit control of tau aggregation into structural polymorphs to aid the design of reagents targeting disease-specific tau conformations.