Lipid interaction of alpha-synuclein during the metal-catalyzed oxidation in the presence of Cu2+ and H2O2.

Alpha-synuclein co-exists with lipids in the Lewy bodies, a pathological hallmark of Parkinson's disease. Molecular interaction between alpha-synuclein and lipids has been examined by observing lipid-induced protein self-oligomerization in the presence of a chemical coupling reagent of N-(ethoxycarbonyl)-2-ethoxy-1,2-dihydroquinoline. Lipids such as phosphatidic acid, phosphatidylinositol, phosphatidylserine, phosphatidylethanolamine, and even arachidonic acid induced the self-oligomerization whereas phosphatidylcholine did not affect the protein. Because the oligomerizations occurred from critical micelle concentrations of the lipids, the self interaction of alpha-synuclein was shown to be a lipid-surface dependent phenomenon with head group specificity. By employing beta-synuclein and a C-terminally truncated alpha-synuclein (alpha-syn97), the head-group dependent self-oligomerization was demonstrated to occur preferentially at the N-terminal region while the fatty acid interaction leading to the protein self-association required the presence of the acidic C-terminus of alpha-synuclein. In the presence of Cu2+ and H2O2, phosphatidylinositol (PI), along with other acidic lipids, actually enhanced the metal-catalyzed oxidative self-oligomerization of alpha-synuclein. The dityrosine crosslink formation responsible for the PI-enhanced covalent self-oligomerization was more sensitive to variation of copper concentrations than that of H2O2 during the metal-catalyzed oxidation. The enhancement by PI was shown to be due to facilitation of copper localization to the protein because actual binding affinity between copper and alpha-synuclein increased from Kd of 44.7 microm to 5.9 microm in the presence of the lipid. Taken together, PI not only affects alpha-synuclein to be more self-interactive by providing the lipid surface, but also enhances the metal-catalyzed oxidative protein self-oligomerization by facilitating copper localization to the protein when the metal and H2O2 are provided. This observation therefore could be implicated in the formation of Lewy bodies as lipids and metal-catalyzed oxidative stress have been considered to be a part of pathological causes leading to the neurodegeneration.