Posthyperpolarization rebound: Gradualness of intensity and duration effects

Abstract

Rebound was recorded in the latent pacemaker neuron ofLimnaea stagnalis as an off-response to incoming pulses of constant duration (50 msec) and different strengths (0.17–16.1 nA) or of different duration (10 msec-360 sec) and constant strength (5 nA). To pulses of short duration and weak strength this response consists of a single depolarization wave. With an increase in these parameters the wave gradually grows and is followed by a hyperpolarization wave. At an intensity of 10–12 nA or duration of about 200 msec the rebound response becomes spike-shaped, but the spike is completely formed only at 15.2 nA or 4–5 sec. The last stage of its formation is characterized by "constriction" of the depolarization component. A further increase in pulse intensity of the same duration does not change the rebound response. On the other hand, with a further increase in pulse duration in the corresponding series of experiments fresh spikes were continually added to the first, and depending on the choice of durations, this process could be followed step by step. At a duration of about 190 sec the rebound response reached saturation when it consisted of 8 spikes with a total response duration of about 5 sec. These results are used as the basis for a hypothesis of the possible organization of excitation of the somatic membrane of mollusk pacemaker neurons. Some aspects of the possible mechanism of rebound formation are discussed.