Antidiuretic action of cyclic AMP, corpus cardiacum, and ventral ganglia on fluid absorption across locust ileum in vitro

Abstract

Locust ileal fluid transport (3.0–3.5 μL/h per ileum) and tissue volume were nearly constant after the 1st hour of incubation in physiological saline. Inhibition of absorption by KCN + iodoacetic acid and by azide indicated metabolic dependence of fluid transport. Fluid absorption occurred against osmotic concentration differences of up to 600 mosmol (luminal osmolarity > hemocoel osmolarity). Fluid absorption was stimulated by cyclic AMP, by both nervous and glandular lobes of the corpus cardiacum, and by the fifth ventral ganglion in a dose-dependent manner. All stimulants caused ilea to absorb against larger osmotic concentration differences. Stimulants in corpus cardiacum and fifth ventral ganglion extracts increased the osmotic permeability of the ileal wall at low osmotic concentration differences, whereas cyclic AMP had a much smaller effect on osmotic permeability. The absorbate remained hyperosmotic to the luminal saline under all conditions, and stimulants increased absorbate osmolarity.