Endogenous polyamines modulate Ca²⁺ channel activity in guinea-pig intestinal smooth muscle

Abstract.

The polyamines spermine and spermidine inhibit L-type Ca²⁺ channels in whole-cell recordings from guinea-pig ileum cells (Gomez and Hellstrand, Pflügers Arch, 430:501–507, 1995 [4]). To study whether they modulate channel activity under physiological conditions, we further investigated their actions on Ca²⁺ channels and the effects of altered cellular polyamine contents. In inside-out patches, spermine (0.1–1 mM) inhibited channel activity without affecting the amplitude of unitary currents. In cell-attached recordings, addition of spermine to the bath did not influence channel activity in the patch, indicating that its extracellular action is direct and not mediated via passage of the polyamine through the cell membrane. Cellular contents of spermidine and spermine were decreased by about 50% by organ culture of ileum strips for 5 days with the adenosylmethionine decarboxylase inhibitor CGP 48664 (10 µM). This caused enhanced channel activity in cell-attached recordings, suggesting a reduced level of channel block by endogenous polyamines compared with control cells. Whole-cell recordings in the perforated patch mode showed increased current in polyamine-depleted cells, while this was not seen when cells were dialysed with the pipette solution. We conclude that polyamines block Ca²⁺ channels from the inside as well as the outside of the cell membrane, and that endogenous polyamines in smooth muscle modulate Ca²⁺ channel activity.