Title
Reduced Lipid Bilayer Thickness Regulates the Aggregation and Cytotoxicity of Amyloid-β
Author
Kyle J. Korshavn, Cristina Satriano, Yuxi Lin, Rongchun Zhang, Mark Dulchavsky, Anirban Bhunia, Magdalena I. Ivanova, Young-Ho Lee, Carmelo La Rosa, Mi Hee Lim, Ayyalusamy Ramamoorthy
Year
2017
Journal
The Journal of Biological Chemistry
Abstract
The aggregation of amyloid-Aβ (Aβ) on lipid bilayers has been implicated as a mechanism by which Aβ exerts its toxicity in Alzheimer's disease (AD). Lipid bilayer thinning has been observed during both oxidative stress and protein aggregation in AD, but whether these pathological modifications of the bilayer correlate with Aβ misfolding is unclear. Here, we studied peptide-lipid interactions in synthetic bilayers of the short-chain lipid dilauroyl phosphatidylcholine (DLPC) as a simplified model for diseased bilayers to determine their impact on Aβ aggregate, protofibril, and fibril formation. Aβ aggregation and fibril formation in membranes composed of dioleoyl phosphatidylcholine (DOPC) or 1- palmitoyl-2-oleoyl phosphatidylcholine (POPC) mimicking normal bilayers served as controls. Differences in aggregate formation and stability were monitored by a combination of thioflavin-T fluorescence, circular dichroism, AFM, TEM, and NMR. Despite the ability of all three lipid bilayers to catalyze aggregation, DLPC accelerates aggregation at much lower concentrations uniquely ablates the fibrillation of Aβ at low μM concentrations. DLPC stabilized globular, membrane-associated oligomers which could disrupt the bilayer integrity. DLPC bilayers also remodeled preformed amyloid fibrils into a pseudo-unfolded, molten globule state which resembled on-pathway, protofibrillar aggregates. While the stabilized, membrane-associated oligomers were found to be nontoxic, the remodeled species displayed toxicity similar to that of conventionally prepared aggregates. These results provide mechanistic insights into the roles that pathologically thin bilayers may play in Aβ aggregation on neuronal bilayers and pathological lipid oxidation may contribute to Aβ misfolding.
Instrument
J-1500
Keywords
Circular dichroism, Secondary structure, Thermal stability, Vesicle interactions, Thermodynamics, Aggregation, Biochemistry