Single-Particle Resolution of Copper-Associated Annular α‑Synuclein Oligomers Reveals Potential Therapeutic Targets of Neurodegeneration
Metal ions stabilize protein−protein interactions and can modulate protein aggregation. Here, using liquid-based atomic force microscopy and molecular dynamics simulations, we study the concentration-dependent effect of Cu2+ ions on the aggregation pathway of α-synuclein (α-Syn) proteins, which play a key role in the pathology of Parkinson’s disease. The full spectrum of α-Syn aggregates in the presence and absence of Cu2+ ions from monomers to mature fibrils was resolved and quantified at the gold−water interface. Raman spectroscopy confirmed the atomic force microscopy (AFM) findings on the heterogeneity in aggregated states of α-Syn. The formation of annular oligomers was exclusively detected upon incubating α-Syn with Cu2+ ions. Our findings emphasize the importance of targeting annular α-Syn protein oligomers for therapeutic intervention and their potential role as biomarkers for early detection and monitoring progression of neurodegeneration.
History
Publication
ACS Chemical Neuroscience 13 (9), pp. 1410–1421Publisher
American Chemical SocietyAlso affiliated with
- Bernal Institute
External identifier
Department or School
- Physics