Effect of 5-Hydroxytryptamine on Sodium Transport across Bullfrog Skin

Abstract

5-hydroxytryptamine, when present in the solution bathing the inside surface of bullfrog skin at concentrations of 0.25–25.0 mM, reduced both electrical potential difference and short-circuit current across the skin. The magnitude of reduction in potential difference and short-circuit current was dependent on 5 HT concentration. Reduction in sodium influx entirely accounted for the reduction in short-circuit current. Preliminary evidence suggested a competition between 5 HT and vasopressin in the production of their effects on sodium transport across the skin, while high Ca++ concentrations and 5 HT seemed to act independently of each other.