DOPAC as a modulator of α-Synuclein and E46K interactions with membrane: Insights into binding dynamics

α-Synuclein (Syn) is an intrinsically disordered protein, abundant in presynaptic neurons. It is a constituent of the Lewis Body inclusions as amyloid fibrils, in Parkinson's disease patients. It populates an ensemble of conformations and floats between the free random coil and the membrane-bound α-helical species. E46K is a pathogenic mutant of Syn able to accelerate the formation of fibrils. The lysine in position 46 affects several protein structural properties including its interaction with membranes. We have shown that 3,4-dihydroxyphenylacetic acid (DOPAC), a dopamine metabolite, hampers Syn to form fibrils, interfering with the aggregation process and alters the interaction of the protein and its aggregates with membranes. To understand the mechanism of such alteration, we studied the interplay between Syn and E46K, lipid membranes and DOPAC. The ability of DOPAC to displace the proteins bound to membrane was also tested. Our findings provided a dynamic model of interaction able to explain the different effects of DOPAC on lipid binding properties of Syn and E46K, shedding light on the conformational changes induced by the catechol, which may destabilize the protein interactions with membranes. Understanding these mechanisms could have implications for therapeutic strategies targeting Syn aggregation and membrane interactions in neurodegenerative diseases.