High-resolution structure of proIAPP(1-48) fibrils suggests a mechanistic pathway for diabetes-associated IAPP fibril polymorphs.
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RSC Chem Biol - (-) - [2025-10-31; online 2025-10-31]
The human islet amyloid polypeptide (hIAPP) aggregates into amyloid fibrils that contribute to β-cell failure in type 2 diabetes. hIAPP is produced from a 67-residue precursor, proIAPP, but incomplete cleavage by prohormone convertase 2 (PC2) produces the 48-residue intermediate proIAPP(1-48), which accelerates amyloid formation in vivo. Here we show that proIAPP(1-48) assembles almost exclusively into a single fibril polymorph. Using cryo-electron microscopy we solved its structure at 3.5 Å resolution and uncovered a P-shaped, C2-symmetric dimer whose backbone and side-chain packing are nearly identical to the disease-associated TW2 polymorph propagated from pancreatic tissue, although with different helical symmetry. All eleven extra N-terminal residues remain disordered but create a weak density around His29. Based on time-averaged density derived from molecular dynamics (MD) simulations, we identified multiple hydrogen(H)-bonding interactions, which may contribute to stabilising the TW2-like fold and explain the peripheral cryo-EM density. These data establish a structural link between defective proIAPP processing and the polymorphic spectrum of islet amyloid and suggest a seeding pathway by which proIAPP(1-48) templates pathogenic architectures that fully processed hIAPP rarely adopts in vitro.
PubMed 41210656
DOI 10.1039/d5cb00228a
Crossref 10.1039/d5cb00228a
pmc: PMC12590159
pii: d5cb00228a