Helical α-Synuclein Forms Highly Conductive Ion Channels

Abstract: Alpha-synuclein (alphaS) is a cytosolic protein involved in the etiology of Parkinson's disease (PD). Disordered in an aqueous environment, alphaS develops a highly helical conformation when bound to membranes having a negatively charged surface and a large curvature. It exhibits a membrane-permeabilizing activity that has been attributed to oligomeric protofibrillar forms. In this study, monomeric wild-type alphaS and two mutants associated with familial PD, E46K and A53T, formed ion channels with well-define… Show more

“…It was reported that at concentrations of 140 -700 nM, ␣-syn could form pores in the planar membranes, but only in the presence of the negatively charged or nonlamellar lipids (49). In our control experiments without VDAC, a pore formation activity of ␣-syn has never been observed in neutral diphytanoyl-phosphatidylcholine membranes used in our experiments and at ␣-syn concentrations up to 300 nM.…”

α-Synuclein Shows High Affinity Interaction with Voltage-dependent Anion Channel, Suggesting Mechanisms of Mitochondrial Regulation and Toxicity in Parkinson Disease

“…It was reported that at concentrations of 140 -700 nM, ␣-syn could form pores in the planar membranes, but only in the presence of the negatively charged or nonlamellar lipids (49). In our control experiments without VDAC, a pore formation activity of ␣-syn has never been observed in neutral diphytanoyl-phosphatidylcholine membranes used in our experiments and at ␣-syn concentrations up to 300 nM.…”

α-Synuclein Shows High Affinity Interaction with Voltage-dependent Anion Channel, Suggesting Mechanisms of Mitochondrial Regulation and Toxicity in Parkinson Disease

“…The ␣-synuclein-mediated increase in DATmediated inward currents can be a consequence of the direct interactions between these two proteins or secondary to formation of conductive pores (67), a result of pathological levels of ␣-synuclein inside the neuron. These membrane pores can influence membrane conductance (35,68), which in turn can impact DAT properties. The data presented in this study cannot exclude these possibilities.…”

α-Synuclein Stimulates a Dopamine Transporter-dependent Chloride Current and Modulates the Activity of the Transporter

“…The binding of ␣-Syn to membranes might induce the permeabilization of lipid bilayers via pore or conductive ion channel formation (22)(23)(24)(25). Alternatively, ␣-Syn has been suggested to induce membrane remodeling events, such as the nascent budding and tubulation of vesicles (26 -28).…”

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