Effects of arginine vasotocin and vasopressin receptor antagonists
on Na+ and Cl| transport in the isolated skin of two frog species,
Hyla japonica and Rana nigromaculata

Toshiki Yamada, Tomoko Nishio, Yuji Sano, Kazuki Kawago, Kouhei Matsuda, Minoru Uchiyama

Abstract
Physiological function of arginine vasotocin (AVT) and effect of receptor antagonists of vasopressin were electrophysiologically investigated on transepithelial transport of ions in the abdominal skin of Hyla japonica and Rana nigromaculata by means of the Ussing chamber system. Administrations of AVT and forskolin (adenylate cyclase activator) in the serosal side of normal Ringerfs solution significantly increased transepithelial potential difference (PD) and short-circuit current (Isc) accounting for Na+ influx, mucosal to serosal direction, across the skin of H. japonica. In contrast, AVT administrations significantly decreased PD but not Isc on the skin of R. nigromaculata in a concentration-dependent manner ranging from 10|11 to 10|8 M. Administration of 10|5 M forskolin also significantly decreased PD in normal and low Na+ Ringerfs solution and in the presence of amiloride (Na+ channel blocker) on the mucosal side of normal Ringerfs solution. On the other hand, forskolin significantly increased PD and Isc in the Cl| free Ringerfs solution. These results suggested that AVT and forskolin stimulated mainly Cl| influx across the skin of R. nigromaculata. In two frog species, the AVT actions on ion transports were inhibited by pretreatment of OPC-31260 (a vasopressin V2 receptor antagonist) but not OPC-21268 (a vasopressin V1 receptor antagonist). These results suggested that AVT activates adenylate cyclase via V2-like receptor and stimulates actively net Na+ and net Cl| transports in the abdominal skin of H. japonica and R. nigromaculata, respectively.

doi:10.1016/j.ygcen.2008.03.022