A wide-acting peptidergic interneurone in the snail Helix pomatia : Graded recruitment and local firing of terminal processes

Abstract

Simultaneous pre- and postsynaptic intracellular recordings were used to study the mechanism of presynaptic terminal recruitment in a multifunction interneurone in the snail Helix pomatia. The interneurone was presynaptic to at least 20 neurones. The synaptic efficiency was correlated with the presence of presynaptic depolarizing after-potentials (DAPs) electrotonically produced by the delayed firing of remote terminal processes. These processes have large swellings filled with neurosecretory vesicles. The terminals were recruited in a graded manner when the interneurone was fired with a prolonged current. The terminal recruitment was enhanced by stimulating various efferent nerves, which presumably activated presynaptic receptors for dopamine. A few animals (three out of 300) had two electrically coupled interneurones. Simultaneous recordings from both cells showed that the terminals could be fired independently of the soma-axon activity. The graded and local firing of the presynaptic terminals was attributed to the electrical load that the large boutons exert on electrotonically spreading presynaptic impulses.