Differential effects of serotonergic and peptidergic cardioexcitatory neurons on the heart activity in the pteropod mollusc, Clione limacina.

A group of four cardioexcitatory neurons has been identified in the intestinal ganglia of the mollusc Clione limacina. Relatively weak stimulation of the intestinal neurons induced auricle contractions only, while strong stimulation produced initial auricle contractions followed by full-cycle auricle-ventricle contractions. Intestinal cardioexcitatory neurons probably utilized as their transmitter a peptide similar to Tritonia pedal peptide--they showed pedal peptide-like immunoreactivity, and their effects were mimicked by application of the exogenous pedal peptide. The pedal cardioexcitatory neuron was found to produce strong excitatory effects only on the ventricle contractions. Its stimulation induced ventricle contractions in the quiescent heart or significantly accelerated the rate of ventricle contractions in the rhythmically active heart. The pedal cardioexcitatory neuron apparently utilized serotonin as a neurotransmitter, based upon serotonin immunoreactivity, blocking effect of serotonin antagonists mianserin and methysergide, and the observation that exogenous serotonin mimicked its effect. A dense network of pedal peptide-like immunoreactivity was found both in the auricle and ventricle tissue. Serotonin immunoreactivity was densely present in the ventricle, while the auricle contained only a separate serotonin-immunoreactive unbranched axon. Thus, there are two separate groups of central cardioexcitatory neurons with different effects on heart activity, which together might provide a complex cardio-regulatory function in Clione.