Primitive nervous systems: Electrical activity in ventral nerve cords of the flatworm,Notoplana acticola

Abstract

Electrical activity evoked in the major cords of the ventral submuscular nerve plexus were measured. Recordings and stimulation utilized suction electrodes attached directly to exposed nerve cords. Four categories have been recorded: (a) short latency spikes which have relatively high thresholds and appear to be single units; (b) short duration fast compound spikes that are made up of a large units; (c) long duration compound potentials that are made up from a large number of smaller units, and (d) small amplitude potentials with long latencies and a characteristic shape. These can be conducted diffesely through the nerve plexus. The first two categories of spikes are called “fast” potentials because of their characteristic rise and fall times and the last categories are known as “diffuse” potentials. The spikelike fast potentials were only recorded from the main trunks (nerves VI), while diffuse potentials could also be recorded from side branches of these nerves. The diffuse potential appears to be concluded throughout the plexus but preferential conducting pathways occur lesions. Both diffuse and fast potentials show facilitation of response to repeated stimulation. Facilitation can be demonstrated in the presence of high Mg²⁺ concentrations. Conductance of the diffuse potential also occurs in the presence of high ambient Mg²⁺. In Ca²⁺ free medium containing 1‐mM EGTA one can also observe facilitatory events. The possibility of Mg²⁺‐insensitive synapses is discussed.