Differential expression and function of synaptotagmin 1 isoforms in Caenorhabditis elegans

Synaptotagmin 1, encoded by the snt-1 gene in Caenorhabditis elegans, is a major synaptic vesicle protein containing two Ca2+-binding (C2) domains. Alternative splicing gives rise to two synaptotagmin 1 isoforms, designated SNT-1A and SNT-1B, which differ in amino acid sequence in the third, fourth, and fifth β-strands of the second C2 domain (C2B). We report here that expression of either SNT-1 isoform under control of a strong pan-neural promoter fully rescues the snt-1 null phenotype. Furthermore, C-terminal fusions of either isoform with GFP are trafficked properly to synapses and are fully functional, unlike synaptotagmin 1∷GFP fusions in mice. Analysis of isoform expression with genomic GFP reporter constructs revealed that the SNT-1A and-1B isoforms are differentially expressed and localized in the C. elegans nervous system. We also report molecular, behavioral, and immunocytochemical analyses of twenty snt-1 mutations. One of these mutations, md259, specifically disrupts expression of the SNT-1A isoform and has defects in a subset of synaptotagmin 1-mediated behaviors. A second mutation, md220, is an in-frame 9-bp deletion that removes a conserved tri-peptide sequence (VIL) in the second β-strand of the C2B domain and disrupts the proper intracellular trafficking of synaptotagmin. Site-directed mutagenesis of a functional SNT-1∷GFP fusion protein was used to examine the potential role of the VIL sequence in synaptotagmin trafficking. Although our results suggest the VIL sequence is most likely not a specific targeting motif, the use of SNT-1∷GFP fusions has great potential for investigating synaptotagmin trafficking and localization.