An Electrostatic Energy Barrier for SNARE-Dependent Spontaneous and Evoked Synaptic Transmission

Cell Reports
Marvin RuiterJakob B Sørensen

Abstract

Information transfer across CNS synapses depends on the very low basal vesicle fusion rate and the ability to rapidly upregulate that rate upon Ca2+ influx. We show that local electrostatic repulsion participates in creating an energy barrier, which limits spontaneous synaptic transmission. The barrier amplitude is increased by negative charges and decreased by positive charges on the SNARE-complex surface. Strikingly, the effect of charges on the barrier is additive and this extends to evoked transmission, but with a shallower charge dependence. Action potential-driven synaptic release is equivalent to the abrupt addition of ∼35 positive charges to the fusion machine. Within an electrostatic model for triggering, the Ca2+ sensor synaptotagmin-1 contributes ∼18 charges by binding Ca2+, while also modulating the fusion barrier at rest. Thus, the energy barrier for synaptic vesicle fusion has a large electrostatic component, allowing synaptotagmin-1 to act as an electrostatic switch and modulator to trigger vesicle fusion.

Citations

Dec 4, 2019·Molecular and Cellular Neurosciences·Marvin RuiterJakob B Sørensen
Feb 15, 2020·Neuroscience Letters·Matthew R Bowers, Noreen E Reist
Jun 20, 2020·Neuron·Matthijs Verhage, Jakob B Sørensen

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