[
International Worm Meeting,
2013]
Bacterial group behaviors are governed by a process called quorum sensing, in which bacteria produce, secrete, and detect extracellular signal molecules called autoinducers (AIs). Vibrios produce multiple AIs, some enable intra-species communication and others that promote inter-species communication. Vibrio cholerae produces an intra-species AI called CAI-1 that is a 13 carbon long fatty acyl molecule and the interspecies signal called AI-2 that is a boron-containing furanone. The information contained in the AIs is funneled into a shared phosphorelay signaling cascade that controls virulence, biofilm formation, and other traits. The bacteriovorous nematode, Caenorhabditis elegans, also uses small molecules to interpret its environment. A class of C. elegans-derived molecules called ascarosides influence nematode behaviors including attraction, repulsion, and mating. The presence of bacteria stimulates chemotaxis, egg-laying, and feeding in C. elegans, however, the bacteria-produced molecules that the nematode detects to control these phenotypes are largely unknown. We demonstrate that in addition to playing a vital role in quorum-sensing-regulated behaviors in V. cholerae, CAI-1 also influences behavior in C. elegans. C. elegans is more strongly attracted to V. cholerae than to its food source E. coli HB101 and C. elegans prefers V. cholerae that produces CAI-1 over a V. cholerae mutant for CAI-1 production. Consistent with this finding, robust chemoattraction occurs to synthetic CAI-1. CAI-1 is detected by the sensory neuron AWCON. Laser ablation of this cell, but not other amphid sensory neurons, abolished chemoattraction to CAI-1. To define which moieties of CAI-1 are crucial for recognition by C. elegans, we synthesized CAI-1 analogs and tested whether they promote chemoattraction. The fatty-acid chain length as and the precise position of the CAI-1 ketone group are the key features required for mediating CAI-1-directed nematode behavior. Together, these analyses define a bacteria-produced signal and the nematode detection apparatus that permit interkingdom communication.