A unique C2 domain at the C terminus of Munc13 promotes synaptic vesicle priming.
Murugesh PadmanarayanaHaowen LiuFrancesco MichelassiLei LiDaniel BetenskyMatthew J DominguezR Bryan SuttonZhitao HuJeremy S DittmanPublished in: Proceedings of the National Academy of Sciences of the United States of America (2021)
Neurotransmitter release during synaptic transmission comprises a tightly orchestrated sequence of molecular events, and Munc13-1 is a cornerstone of the fusion machinery. A forward genetic screen for defects in neurotransmitter release in Caenorhabditis elegans identified a mutation in the Munc13-1 ortholog UNC-13 that eliminated its unique and deeply conserved C-terminal module (referred to as HC2M) containing a Ca2+-insensitive C2 domain flanked by membrane-binding helices. The HC2M module could be functionally replaced in vivo by protein domains that localize to synaptic vesicles but not to the plasma membrane. HC2M is broadly conserved in other Unc13 family members and is required for efficient synaptic vesicle priming. We propose that the HC2M domain evolved as a vesicle/endosome adaptor and acquired synaptic vesicle specificity in the Unc13ABC protein family.