RT Journal Article
SR Electronic
T1 Diverse modes of synaptic signaling, regulation, and plasticity distinguish two classes of <em>C. elegans</em> glutamatergic neurons
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 175836
DO 10.1101/175836
A1 Donovan Ventimiglia
A1 Cornelia I. Bargmann
YR 2017
UL http://biorxiv.org/content/early/2017/08/13/175836.abstract
AB Synaptic vesicle release properties vary between neuronal cell types, but in most cases the molecular basis of this heterogeneity is unknown. Here, we compare in vivo synaptic properties of two neuronal classes in the C. elegans central nervous system, using VGLUT-pHluorin to monitor synaptic vesicle exocytosis and retrieval in intact animals. We show that the glutamatergic sensory neurons AWCON and ASH have distinct synaptic dynamics associated with tonic and phasic synaptic properties, respectively. Exocytosis in ASH and AWCON is differentially affected by SNARE-complex regulators that are present in both neurons: phasic ASH release is strongly dependent on UNC-13, whereas tonic AWCON release relies upon UNC-18 and on the protein kinase C homolog PKC-1. Exocytosis and retrieval each have two timescales in AWCON but one major timescale in ASH. Strong stimuli that elicit high calcium levels also increase exocytosis and retrieval rates in AWCON, generating distinct tonic and evoked synaptic modes. These results highlight the differential deployment of shared presynaptic proteins in neuronal cell type-specific functions.