Inhibition by SK&F96365 of NO‐mediated relaxation induced by Ca2+ ‐ATPase inhibitors in rat thoracic aorta

Abstract

1. We investigated the effect of SK&F96365, a putative inhibitor of receptor-operated Ca2+ entry, on the endothelium-dependent, NO-mediated relaxation and cyclic GMP formation induced by Ca2(+)-ATPase inhibitors in rat thoracic aorta. 2. SK&F96365 inhibited cyclopiazonic acid or thapsigargin-induced relaxation and cyclic GMP formation mediated by a constitutive NO synthase, which is known to be activated by the Ca2+ that enters into the endothelial cells via plasma membrane Ca2+ channels subsequent to depletion of stored Ca2+ by Ca2(+)-ATPase inhibitors. 3. SK&F96365 also inhibited relaxation and cyclic GMP formation induced by acetylcholine, without affecting those induced by nitroprusside and A23187. 4. Ni2+ attenuated relaxation and cyclic GMP formation induced by cyclopiazonic acid and acetylcholine. 5. In contrast, the voltage-dependent Ca2+ channel blocker, nifedipine, did not affect the relaxation caused by Ca2(+)-ATPase inhibitors. 6. These results suggest that endothelium-dependent, NO-mediated relaxation of the arteries induced by Ca2(+)-ATPase inhibitors is triggered by the Ca2+ that enters into endothelial cells via receptor-operated channels (SK&F96365-sensitive channels) subsequent to depletion of stored Ca2+ as a result of inhibition of the Ca2(+)-ATPase (Ca2+ pump) of the stores.