Neuroethology of Melibe leonina Swimming Behavior

The nudibranch Melibe leonina swims by rhythmically flexingits body from side to side at a frequency of 1 cycle every 2–5sec. Melibe swim spontaneously, when they are dislodged fromthe substrate, or when they come in contact with predatory seastars,such as Pycnopodia helianthoides. Intracellular recordings obtainedfrom semi-intact swimming Melibe reveal a population of 15 swimmotoneurons (SMNs) in each pedal ganglion. In general, SMNsin one pedal ganglion fire out-of-phase with SMNs in the oppositepedal ganglion, resulting in rhythmic side-to-side bending movements.In isolated brains, recordings from SMNs yield similar results,indicating the existence of a swim central pattern generator(CPG). There is no evidence for synaptic interactions betweenSMNs and either inhibiting or exciting SMNs has no impact onthe swim pattern. The SMNs are driven by a CPG consisting of4 interneurons; 2 in the cerebropleural ganglia and 1 in eachpedal ganglion. Appropriate bursting activity in the swim interneuronsis necessary for swimming to occur. Either hyperpolarizationor depolarization of any of the 4 CPG interneurons disruptsthe normal swim pattern. Swimming behavior, and the fictiveswim motor program expressed by the isolated brain, are inhibitedby light and nitric oxide donors. NADPH-diaphorase stainingand nitric oxide synthase (NOS) immunocytochemistry of Melibebrains suggests the source of nitric oxide might be a pair ofbilaterally symmetrical cells located in the cerebropleuralganglia.