SNARE protein tomosyn regulates dense core vesicle composition but not exocytosis in mammalian neurons

Abstract

AbstractTomosyn is a large, non-canonical SNARE protein proposed to act as a competitive inhibitor of SNARE complex formation in vesicle exocytosis. In the brain, tomosyn inhibits fusion of synaptic vesicles (SVs), whereas its role in the fusion of neuropeptide-containing dense core vesicles (DCVs) is unknown. Here, we addressed this question using a new mouse model allowing conditional deletion of tomosyn (Stxbp5) and its paralogue tomosyn-2 (Stxbp5l), and an assay that detects DCV exocytosis with single vesicle resolution in primary hippocampal neurons. Surprisingly, loss of both tomosyns did not affect DCV exocytosis but resulted in a strong reduction of intracellular levels of many DCV cargos, most prominently brain-derived neurotrophic factor (BDNF), granin VGF and prohormone convertase PCSK1. Reduced levels of DCV cargos were paralleled by decreased DCV size and impaired mRNA expression of the corresponding genes. We conclude that tomosyns regulate neuropeptide and neurotrophin secretion via control of DCV cargo production, and not at the step of cargo release. Our findings suggest a differential effect of tomosyn on the two main secretory pathways in mammalian neurons and argues against a conserved role of tomosyn as competitive inhibitor of SNARE complex formation.