Rabphilin-3A negatively regulates neuropeptide release, through its SNAP25 interaction

Adlin Abramian, Rein I. Hoogstraaten, Fiona H. Murphy, Kathryn F. McDaniel, Ruud F. Toonen, Matthijs Verhage

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Neuropeptides and neurotrophins are stored in and released from dense core vesicles (DCVs). While DCVs and synaptic vesicles (SVs) share fundamental SNARE/SM proteins for exocytosis, a detailed understanding of DCV exocytosis remains elusive. We recently identified the RAB3-RIM1 pathway to be essential for DCV, but not SV exocytosis, highlighting a significant distinction between the SV and DCV secretory pathways. Whether RIM1 is the only RAB3 effector that is essential for DCV exocytosis is currently unknown. In this study, we show that rabphilin-3A (RPH3A), a known downstream effector of RAB3A, is a negative regulator of DCV exocytosis. Using live-cell imaging at single-vesicle resolution with RPH3A deficient hippocampal mouse neurons, we show that DCV exocytosis increased threefold in the absence of RPH3A. RAB3A-binding deficient RPH3A lost its punctate distribution, but still restored DCV exocytosis to WT levels when re-expressed. SNAP25-binding deficient RPH3A did not rescue DCV exocytosis. In addition, we show that RPH3A did not travel with DCVs, but remained stationary at presynapses. RPH3A null neurons also had longer neurites, which was partly restored when ablating all regulated secretion with tetanus neurotoxin. Taken together, these results show that RPH3A negatively regulates DCV exocytosis, potentially also affecting neuron size. Furthermore, RAB3A interaction is required for the synaptic enrichment of RPH3A, but not for limiting DCV exocytosis. Instead, the interaction of RPH3A with SNAP25 is relevant for inhibiting DCV exocytosis.

Original languageEnglish
Pages (from-to)1-22
Number of pages22
JournaleLife
Volume13
Early online date16 Oct 2024
DOIs
Publication statusPublished - 2024

Bibliographical note

Publisher Copyright:
© 2024, Abramian, Hoogstraaten et al.

Keywords

  • dense core vesicles
  • hippocampal mouse neurons
  • mouse
  • neuropeptide release
  • neuroscience
  • rabphilin-3A
  • SNAP25

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