Litcius/Paper detail

Amyloid particles facilitate surface-catalyzed cross-seeding by acting as promiscuous nanoparticles

Nadejda Koloteva‐Levine, Liam D. Aubrey, Ricardo Marchante, Tracey J. Purton, Jennifer R. Hiscock, Mick F. Tuite, Wei‐Feng Xue

2021Proceedings of the National Academy of Sciences42 citationsDOIOpen Access PDF

Abstract

Amyloid seeds are nanometer-sized protein particles that accelerate amyloid assembly as well as propagate and transmit the amyloid protein conformation associated with a wide range of protein misfolding diseases. However, seeded amyloid growth through templated elongation at fibril ends cannot explain the full range of molecular behaviors observed during cross-seeded formation of amyloid by heterologous seeds. Here, we demonstrate that amyloid seeds can accelerate amyloid formation via a surface catalysis mechanism without propagating the specific amyloid conformation associated with the seeds. This type of seeding mechanism is demonstrated through quantitative characterization of the cross-seeded assembly reactions involving two nonhomologous and unrelated proteins: the human Aβ42 peptide and the yeast prion-forming protein Sup35NM. Our results demonstrate experimental approaches to differentiate seeding by templated elongation from nontemplated amyloid seeding and rationalize the molecular mechanism of the cross-seeding phenomenon as a manifestation of the aberrant surface activities presented by amyloid seeds as nanoparticles.

Topics & Concepts

SeedingElongationBiophysicsAmyloid (mycology)Amyloid diseaseAmyloid fibrilHeterologousChemistryAmyloid βNanotechnologyBiochemistryMaterials scienceBiologyUltimate tensile strengthDiseaseMedicineMetallurgyPathologyInorganic chemistryGeneAgronomyAlzheimer's disease research and treatmentsPrion Diseases and Protein MisfoldingPickering emulsions and particle stabilization