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Identification of transmissible proteotoxic oligomer-like fibrils that expand conformational diversity of amyloid assemblies

Phuong Nguyen, Ximena Zottig, Mathew Sebastiao, Alexandre A. Arnold, Isabelle Marcotte, Steve Bourgault

2021Communications Biology28 citationsDOIOpen Access PDF

Abstract

Protein misfolding and amyloid deposition are associated with numerous diseases. The detailed characterization of the proteospecies mediating cell death remains elusive owing to the (supra)structural polymorphism and transient nature of the assemblies populating the amyloid pathway. Here we describe the identification of toxic amyloid fibrils with oligomer-like characteristics, which were assembled from an islet amyloid polypeptide (IAPP) derivative containing an Asn-to-Gln substitution (N21Q). While N21Q filaments share structural properties with cytocompatible fibrils, including the 4.7 Å inter-strand distance and β-sheet-rich conformation, they concurrently display characteristics of oligomers, such as low thioflavin-T binding, high surface hydrophobicity and recognition by the A11 antibody, leading to high potency to disrupt membranes and cause cellular dysfunction. The toxic oligomer-like conformation of N21Q fibrils, which is preserved upon elongation, is transmissible to naïve IAPP. These stable fibrils expanding the conformational diversity of amyloid assemblies represent an opportunity to elucidate the structural basis of amyloid disorders.

Topics & Concepts

OligomerFibrilThioflavinAmyloid (mycology)BiophysicsChemistryProtein foldingPeptideBiochemistryCell biologyBiologyAlzheimer's diseaseMedicinePathologyInorganic chemistryDiseaseOrganic chemistryAlzheimer's disease research and treatmentsAmyloidosis: Diagnosis, Treatment, OutcomesSupramolecular Self-Assembly in Materials
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