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Aβ Oligomer Dissociation Is Catalyzed by Fibril Surfaces

Alexander J. Dear, Dev Thacker, Stefan Wennmalm, Lei Ortigosa-Pascual, Ewa Andrzejewska, Georg Meisl, Sara Linse, Tuomas P. J. Knowles

2024ACS Chemical Neuroscience13 citationsDOIOpen Access PDF

Abstract

Oligomeric assemblies consisting of only a few protein subunits are key species in the cytotoxicity of neurodegenerative disorders, such as Alzheimer's and Parkinson's diseases. Their lifetime in solution and abundance, governed by the balance of their sources and sinks, are thus important determinants of disease. While significant advances have been made in elucidating the processes that govern oligomer production, the mechanisms behind their dissociation are still poorly understood. Here, we use chemical kinetic modeling to determine the fate of oligomers formed in vitro and discuss the implications for their abundance in vivo. We discover that oligomeric species formed predominantly on fibril surfaces, a broad class which includes the bulk of oligomers formed by the key Alzheimer's disease-associated Aβ peptides, also dissociate overwhelmingly on fibril surfaces, not in solution as had previously been assumed. We monitor this "secondary nucleation in reverse" by measuring the dissociation of Aβ42 oligomers in the presence and absence of fibrils via two distinct experimental methods. Our findings imply that drugs that bind fibril surfaces to inhibit oligomer formation may also inhibit their dissociation, with important implications for rational design of therapeutic strategies for Alzheimer's and other amyloid diseases.

Topics & Concepts

OligomerFibrilDissociation (chemistry)ChemistryBiophysicsCytotoxicityAmyloid fibrilNucleationIn vitroAmyloid βBiochemistryDiseaseBiologyOrganic chemistryPathologyMedicineAlzheimer's disease research and treatmentsSupramolecular Self-Assembly in MaterialsProtein Structure and Dynamics
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