Membrane Association and Functional Mechanism of Synaptotagmin-1 in Triggering Vesicle Fusion

Abstract

AbstractUpon Ca2+ influx, synaptic vesicles fuse with the presynaptic plasma membrane (PM) to release neurotransmitters. Membrane fusion is triggered by synaptotagmin-1, a transmembrane protein in the vesicle membrane (VM), but the mechanism is under debate. Synaptotagmin-1 contains a single transmembrane helix (TM) and two tandem C2-domains (C2A and C2B). The present study aimed to use molecular dynamics simulations to elucidate how Ca2+-bound synaptotagmin-1, by simultaneously associating with VM and PM, brings them together for fusion. While C2A stably associates with VM via two Ca2+-binding loops, C2B has a propensity to partially dissociate. Importantly, an acidic motif in the TM-C2A linker competes with VM for interacting with C2B, thereby flipping its orientation to face PM. Subsequently C2B can readily associate with PM via a polybasic cluster and a Ca2+-binding loop. These results delineate the functional process of fusion triggered by synaptotagmin-1.