Calcium-sensitive potassium channel inhibitors antagonize genistein- and daidzein-induced arterial relaxation in vitro

Estradiol-17 beta relaxes rabbit coronary artery rings via large conductance Ca2+-activated K+-channels (K-Ca). Genistein and daidzein are plant-derived estrogen-like compounds. The aim of the present study was to investigate whether potassium channels participate in the genistein- and daidzein- induced arterial relaxation like they do in the case of estradiol-17 beta. Endothelium-denuded superior mesenteric arterial rings from non-pregnant Wistar female rats were used. At a concentration of 10 muM, estradiol-17 beta, genistein and daidzein relaxed noradrenaline precontracted arterial rings, (58 +/- 4%, 45 +/- 5% and 31 +/- 3%, respectively; (n=6-8)). Genistein- and daidzein-induced relaxations were inhibited both by iberiotoxin (1-10 nM) and charybdotoxin (30 nM), the antagonists of large conductance Ca2+-activated K+-channels (K-Ca). Estradiol-17 beta -induced relaxation was reduced by iberiotoxin (30 nM). Estradiol-17 alpha- and daidzein-induced relaxations were also decreased by apamin (0.1-0.3 muM), an antagonist of small conductance Ca2+-activated K+-channels. The antagonists of voltage-dependent K+-channels (K-V) (4-aminopyridine), ATP-sensitive K+-channels (K-ATP) (glibenclamide), or inward rectifier K+-channels (K-IR) (barium) had no effect on the relaxation responses of any of the compounds studied. Estrogen receptor antagonist tamoxifen did not inhibit the relaxations. In conclusion, in the noradrenaline precontracted rat mesenteric arteries, the relaxations caused by estradiol-17 beta, genistein and daidzein were antagonized by large and small conductance K-Ca-channel inhibitors, suggesting the role of these channels as one of the relaxation mechanisms. (C) 2001 Elsevier Science Inc. All rights reserved.