Referenced in: none

Automatically associated channels: Kir6.2

Title: Dual action of ZD6169, a novel K(+) channel opener, on ATP-sensitive K(+) channels in pig urethral myocytes.

Authors: N Teramoto, T Yunoki, M Takano, Y Yonemitsu, I Masaki, K Sueishi, A F Brading, Y Ito

Journal, date & volume: Br. J. Pharmacol., 2001 May , 133, 154-64

PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/11325805

Abstract
1. The effects of ZD6169, a novel K(+) channel opener, on both membrane and unitary currents in pig urethra were investigated using patch-clamp techniques. Its effect was also examined on currents in inside-out patches of COS7 cells expressing carboxy terminus truncated inwardly rectifying K(+) channel (Kir6.2) subunits (Kir6.2C36) which form ATP-sensitive K(+) channels (K(ATP) channels). 2. In current-clamp mode, ZD6169 (< or = 10 microM) induced a concentration-dependent membrane hyperpolarization. Higher concentrations (> or = 30 microM) caused a transient membrane hyperpolarization, followed by a gradual membrane depolarization. On removal of ZD6169, an after hyperpolarization was observed. 3. In conventional voltage-clamp configuration, at -50 mV in symmetrical 140 mM K(+) conditions, ZD6169 (100 microM) caused a transient inward current which gradually decayed. Removal of ZD6169 evoked a much larger amplitude K(+) current with a similar time course. 4. ZD6169 produced an inward glibenclamide-sensitive K(+) current, demonstrating a bell-shaped concentration-response relationship. 5. In cell-attached configuration in symmetrical 140 mM K(+) conditions, ZD6169 (< or = 30 microM) activated an K(ATP) channel which was reversibly suppressed by application of glibenclamide. In contrast, ZD6169 (100 microM) inhibited the activity of the levcromakalim-induced K(ATP) channels. 6. ZD6169 (100 microM) had no significant effect on the channel activity of Kir6.2C36 in inside-out configuration, although cibenzoline greatly suppressed the channel activity. 7. These results demonstrate that ZD6169 possesses a dual effect on the activity of the K(ATP) channel; activating at low concentration and inhibiting at higher concentration.