Membrane Binding of α-Synuclein Stimulates Expansion of SNARE-Dependent Fusion Pore

SNARE-dependent membrane fusion is essential for neurotransmitter release at the synapse. Recently, alpha-synuclein has emerged as an important regulator for membrane fusion. Misfolded alpha-synuclein oligomers are potent fusion inhibitors. However, the function of normal alpha-synuclein has been elusive. Here, we use the single vesicle-to-supported bilayer fusion assay to dissect the role of alpha-synuclein in membrane fusion. The assay employs 10 kD Rhodamine B-dextran as the content probe that can detect fusion pores larger than similar to 6 nm. We find that the SNARE complex alone is inefficient at dilating fusion pores. However, alpha-synuclein dramatically increases the probability as well as the duration of large pores. When the SNARE-interacting C-terminal region of alpha-synuclein was truncated, the mutant behaves the same as the wild-type. However, the double proline mutants compromising membrane-binding show significantly reduced effects on fusion pore expansion. Thus, our results suggest that alpha-synuclein stimulates fusion pore expansion specifically through its membrane binding.

Automated summary

Alpha-synuclein plays a crucial role in promoting the expansion of fusion pores by increasing the probability and duration of large pores, specifically through its interaction with the membrane. This finding contributes to a better understanding of neurotransmitter release mechanisms.