Neuropharmacological Analysis of Mechanisms Controlling Larval Behaviour in the Sea Urchin; 1. Effects of carbamylcholine and acetylcholine

The effect of carbamylcholine (carbachol) on the muscular, intestinal, and ciliar activities of the sea urchin pluteus larva ( Psammechinus miliaris ) show a complicated relation between the concentrations used, the length of exposure, and the physiological responses. Two main patterns of stimulated activity emerged upon carbachol treatment. In pattern I there is a reciprocal “antagonism” between swallowing and celomic movements, i.e. stimulation of one type of movement is attended by a decrease of the other type and even its complete paralysis. Paralysis of the celomic movements is attended by intestinal paralysis. In pattern II marked swallowing and celomic activity coexist. The fluctuations in these activities are strong, their maxima as well as their minima coincide, and intestinal cycling occurs. In pattern I low concentrations favour the celomic activity and counteract swallowing. At higher concentrations the initial effects are qualitatively similar but more intense and of short duration. They are quickly followed by the opposite effects (intense swallowing and celomic paralysis) together with intestinal paralysis. The effects are to a great extent quickly reversible after transfer of the larva to sea water. During prolonged or repeated exposure to the agent the system “adapts”, i.e. a pattern II activity may appear. If the concentration is not too high, this may be preceded or admixed by a renewed pattern I activity. The responses described suggest that two main control systems are involved in the regulation of the larval activities. The effects of acetylcholine are similar to those of carbachol but not identical. The question if the control mechanisms are related to regionally separated structures is discussed in a preliminary way.