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The release of inhibition model reproduces kinetics and plasticity of neurotransmitter release in central synapses

Christopher A. Norman, Shyam S. Krishnakumar, Yulia Timofeeva, Kirill E. Volynski

2023Communications Biology18 citationsDOIOpen Access PDF

Abstract

Calcium-evoked release of neurotransmitters from synaptic vesicles (SVs) is catalysed by SNARE proteins. The predominant view is that, at rest, complete assembly of SNARE complexes is inhibited ('clamped') by synaptotagmin and complexin molecules. Calcium binding by synaptotagmins releases this fusion clamp and triggers fast SV exocytosis. However, this model has not been quantitatively tested over physiological timescales. Here we describe an experimentally constrained computational modelling framework to quantitatively assess how the molecular architecture of the fusion clamp affects SV exocytosis. Our results argue that the 'release-of-inhibition' model can indeed account for fast calcium-activated SV fusion, and that dual binding of synaptotagmin-1 and synaptotagmin-7 to the same SNARE complex enables synergistic regulation of the kinetics and plasticity of neurotransmitter release. The developed framework provides a powerful and adaptable tool to link the molecular biochemistry of presynaptic proteins to physiological data and efficiently test the plausibility of calcium-activated neurotransmitter release models.

Topics & Concepts

Synaptotagmin 1ExocytosisNeurotransmitterSNARE complexChemistrySynaptic vesicleBiophysicsActive zoneCalciumVesicle fusionSynaptotagmin ICell biologySynaptic plasticitySTX1ANeuroscienceVesicleBiologyBiochemistrySyntaxinMembraneReceptorOrganic chemistryCellular transport and secretionLipid Membrane Structure and BehaviorNeuroscience and Neuropharmacology Research
The release of inhibition model reproduces kinetics and plasticity of neurotransmitter release in central synapses | Litcius