PROPERTIES OF CA-2+ CURRENTS IN ACUTELY DISSOCIATED NEURONS OF THE CHICK CILIARY GANGLION - INHIBITION BY SOMATOSTATIN-14 AND SOMATOSTATIN-28

Whole-cell voltage-clamp recordings were made from acutely dissociated neurons obtained from the embryonic chick ciliary ganglion. Recording pipettes were filled with salines containing 120 mM CsCl or 120 mM tetraethylammonium-Cl. Application of depolarizing voltage commands evoked L-type Ca2+ currents and, at voltages positive to 0 mV, an unidentified cationic conductance. The unidentified cationic conductances made the Ca2+ currents appear to undergo voltage-dependent inactivation and made a large contribution to tail currents present during repolarizing voltage steps. Ca2+ currents could only be isolated by digital subtraction of currents remaining in Ca2+ -free saline. These Ca2+ currents showed little or no sign of inactivation and did not reverse at voltages up to +60 mV. Application of somatostatin-14 or somatostatin-28 produced a reversible inhibition of Ca2+ currents in virtually all cells, regardless of size. Somatostatin-28 (1-14) was inactive. The effects of somatostatin-14 and somatostatin-28 were attenuated by pretreatment with pertussis toxin, suggesting a role for G-proteins in mediating the response. Somatostatin-14 and somatostatin-28 had no effect on voltage-dependent K+ currents. The results suggest that somatostatin peptides modulate the motor output of the chick ciliary ganglion.