Tezosentan inhibits both equinatoxin II and endotelin-1 induced contractions of isolated porcine coronary artery in a similar way.

In the present study we examined the endothelium-dependent mechanism in the constriction of the isolated porcine coronary artery induced by Equinatoxin II (EqT II). EqT II is a polypeptide isolated from the sea anemone (Actinia equina, L.). Contractions induced by endothelin-1 (ET-1) were compared with the contractions induced by EqT II. The force of contraction induced by 100 nM EqT II reached only 30% of the force of contraction induced by 100 nM ET-1. EC50 for ET-1 was 5.14 nM, and for EqT II 101.1 nM. The effects of tezosentan, an endothelin ETA/B receptor antagonist, on contractions induced by either ET-1 or EqT II were compared. Tezosentan inhibited both ET-1 and, to a lesser extent, EqT II-induced contractions of isolated porcine coronary artery. Our present results confirm the involvement of endothelium in the EqT II-induced contractions of coronary arteries. The mode of action of tezosentan upon EqT II-induced contractions indicate that besides its pore-forming effect in the membranes, endothelium, and specifically endothelin-dependent mechanisms, are very important components of the toxin constrictory effects.