David R. Bell, A. Ademola, J. Davy, S. van der Poel, D. Kendall, P.N.R. Usherwood, I.R. Duce, I. R. Mellor and D. de Pomerai. Black Widow spider venom (BWSV) contains latrotoxins that induce catastrophic neurotransmitter release in mammals, and is known to bind with high affinity to three neural proteins in mammals, including latrophilin. We have investigated C. elegans as a model system for studying the function of these proteins, and their role in regulating neurotransmitter release by latrotoxins.. We have shown that latrophilin is required for the lethality of BWSV in C. elegans by RNAi experiments. We now present data on the characterisation of null mutants of the C. elegans latrophilin,
lat-1, illustrating the function of this gene in C. elegans, and show that
lat-1 nulls are resistant to emodepside. The expression of latrophilin-GFP constructs is examined, and compared with the phenotypes seen in null mutants. Genetic interactions between endogenous signaling pathways and the
lat-1 nulls have been examined by the construction of double mutant worms, revealing novel facets of
lat-1 function.