Extrasynaptic action of vasopressin, oxytocin, and vasotocin neuropeptides on electrically operated ionic channels at the mollusk neuronal membrane

Abstract

Techniques of intracellular dialysis and neuronal perfusion in the visceral ganglion ofLymnaea stagnalis used during voltage-clamping at the neuronal membrane helped to ascertain that a concentration of 1×10−16–1×10−6 M neuroactive peptides (vasopressin, oxytocin, and vasotocin) alter the amplitude of electrically-operated transmembrane ionic currents considerably without affecting the kinetics of current activation and inactivation and surface potential at the membrane. The experimental conditions applying made it possible to record incoming sodium and calcium currents separated from each other as well as outward delayed and transient potassium currents. It was found that electrically-operated cerebral currents could either increase or decline in amplitude under the effects of peptides applied at different concentrations to the membrane of the same unit. Receptors of the peptides investigated in this study are thought to be located within the structure of electrically-operated channels at the neuronal membrane.