Abstract
We have examined the role of membrane hyperpolarization in mediating vascular hyporeactivity induced by bacterial lipopolysaccharide (LPS) in endothelial-denuded strips of rat thoracic aorta ex vivo. The injection of rats with LPS caused a significant fall of blood pressure and a severe vascular hyporeactivity to norepinephrine. The membrane potential recording showed that endotoxemia caused a hyperpolarization when compared to the control. This hyperpolarization was fully restored by methylene blue (MB; 10 μM) and partially reversed by N ω-nitro-L-arginine methyl ester (L-NAME; 0.3 mM), 1 H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ; 1 μM), tetraethylammonium (TEA; 10 mM), charybdotoxin (CTX; 0.1 μM), or glibenclamide (GB; 10 μM), however, this hyperpolarization was not significantly affected by apamin (0.1 μM), 4-aminopyridine (4-AP; 1 mM), or Ba 2+ (50 μM). In addition, the basal tension of the tissues obtained from endotoxemic rats was enhanced by the following order: MB ≥ ODQ > TEA ≥ L-NAME ≥ CTX > GB; whereas apamin, 4-AP or Ba 2+ had no significant effects on these tissues. In contrast, none of these inhibitors had significant effects on the membrane potential or the basal tension in control tissues. Our electrophysiological results further confirmed previous studies showing that in addition to nitric oxide, the large conductance Ca 2+-activated K +-channels and ATP-sensitive K +-channels are, most likely, responsible for endotoxin-mediated hyporeactivity to vasoconstrictor agents in vascular smooth muscle.
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