Role of endothelium in magnesium-induced relaxation of rat aorta

Abstract

The role of endothelium in the relaxation of rat aortic smooth muscle to raised extracellular magnesium concentration (Mg²⁺)o has been examined. Following contractile responses to norepinephrine (NE) or high-K⁺ in Mg²⁺-free media, cumulative increases in (Mg²⁺)o caused concentration-dependent relaxations in intact (+ E) as well as endothelium-denuded (− E) strips. In NE-stimulated strips, Mg²⁺-induced relaxation was significantly greater in + E strips, whereas the reverse was the case in K⁺-stimulated strips. Bay K8644, a Ca²⁺ channel agonist, did not modify Mg²⁺-induced relaxation in NE-stimulated strips, but significantly attenuated the relaxation in K⁺-stimulated strips in the order: − E > + E. The results suggest that Mg²⁺-induced relaxation of rat aorta is associated, at least in part, with the release of an endothelium-derived relaxant factor in receptor-mediated, but not in depolarisation-dependent contractions.