α-Synuclein Senses Lipid Packing Defects and Induces Lateral Expansion of Lipids Leading to Membrane Remodeling

• Published in: The Journal of biological chemistry Vol. 288; no. 29; pp. 20883 - 20895
• Main Authors: Ouberai, Myriam M., Wang, Juan, Swann, Marcus J., Galvagnion, Celine, Guilliams, Tim, Dobson, Christopher M., Welland, Mark E.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 19.07.2013; American Society for Biochemistry and Molecular Biology
• Subjects: alpha-Synuclein; alpha-Synuclein - chemistry; alpha-Synuclein - metabolism; Atomic Force Microscopy; Dual Polarization Interferometry; Interferometry; Lipid Bilayers - chemistry; Lipid Bilayers - metabolism; Lipid Packing Defects; Melitten - metabolism; Membrane Bilayer; Membrane Biology; Membrane Biophysics; Membrane Lipids - chemistry; Membrane Proteins - metabolism; Membrane Remodeling; Membrane Structure; Models, Molecular; Permeability; Phospholipids - chemistry; Protein Binding; Protein Structure, Secondary; Protein-Lipid Interactions; Tissue Extracts; Unilamellar Liposomes - chemistry; Unilamellar Liposomes - metabolism; Membrane Structure; Dual Polarization Interferometry; Lipid Packing Defects; Membrane Biophysics; Membrane Remodeling; Membrane Bilayer; Protein-Lipid Interactions; Atomic Force Microscopy; alpha-Synuclein
• ISSN: 0021-9258; 1083-351X
• DOI: 10.1074/jbc.M113.478297

There is increasing evidence for the involvement of lipid membranes in both the functional and pathological properties of α-synuclein (α-Syn). Despite many investigations to characterize the binding of α-Syn to membranes, there is still a lack of understanding of the binding mode linking the properties of lipid membranes to α-Syn insertion into these dynamic structures. Using a combination of an optical biosensing technique and in situ atomic force microscopy, we show that the binding strength of α-Syn is related to the specificity of the lipid environment (the lipid chemistry and steric properties within a bilayer structure) and to the ability of the membranes to accommodate and remodel upon the interaction of α-Syn with lipid membranes. We show that this interaction results in the insertion of α-Syn into the region of the headgroups, inducing a lateral expansion of lipid molecules that can progress to further bilayer remodeling, such as membrane thinning and expansion of lipids out of the membrane plane. We provide new insights into the affinity of α-Syn for lipid packing defects found in vesicles of high curvature and in planar membranes with cone-shaped lipids and suggest a comprehensive model of the interaction between α-Syn and lipid bilayers. The ability of α-Syn to sense lipid packing defects and to remodel membrane structure supports its proposed role in vesicle trafficking. Background: α-Synuclein folds into an amphipathic α-helical structure upon membrane interaction. Results: The binding is promoted by lipid packing defects found in vesicles of high curvature and in planar membranes with cone-shaped lipids. Conclusion: The insertion of α-synuclein induces a lateral expansion of lipids that can progress to membrane remodeling. Significance: These findings support the role of α-synuclein in vesicle trafficking.