Interleukin-1β-induced, nitric oxide-dependent and -independent inhibition of vascular smooth muscle contraction

Abstract

Stimulation of vascular smooth muscle by bacterial lipopolysaccharide has been shown to produce interleukin-1β and to induce vasodilation in septic shock. To understand the mechanisms of interleukin-1β-induced relaxation, we examined the effects of interleukin-1β on contractility and cyclic GMP contents of vascular smooth muscle. After treatment of the rat aorta with interleukin-1β (20 ng/ml) for 6 h, the cyclic GMP content increased and the contraction induced by phenylephrine (1 μM) was partially inhibited. An inhibitor of nitric oxide (NO) synthase, N G-monomethyl- l-arginine ( l-NMMA, 100 μM), prevented the inhibitory effect of interleukin-1β. After treatment with interleukin-1β for 24 h, the phenylephrine-induced contraction was inhibited more strongly. Neither l-NMMA (100 μM) nor aminoguanidine (100 μM) reversed the inhibition, whereas methylene blue (10 μM) partially reversed the inhibition. After treatment with interleukin-1β for 12 or 24 h, the cyclic GMP content increased but to a level lower than that obtained with a 6-h treatment. The effects of sodium nitroprusside (1 μM) to inhibit the phenylephrine-induced contraction and to increase the cyclic GMP content were markedly suppressed by the 24-h interleukin-1β treatment. In contrast, the 24-h interleukin-1β treatment did not change the ability of 8-bromo-cGMP to relax the phenylephrine-stimulated aorta. Addition of l-NMMA (1 mM) during the 24 h treatment prevented NO production and preserved the sodium nitroprusside-induced cGMP generation by interleukin-1β. The 24 h interleukin-1β treatment increased the threshold concentration of KCl needed to induce contraction without changing the maximum contraction. In the presence of 25.4 mM KCl or the non-selective K + channel inhibitor, tetraethylammonium, the inhibitory effect of the 24-h interleukin-1β treatment on phenylephrine-induced contraction was restored. These results suggest that interleukin-1β inhibits vascular smooth muscle contraction by a time-dependent, dual mechanism. After a 6-h treatment with interleukin-1β, the NO/cyclic GMP system is activated. After a 24-h interleukin-1β treatment, in contrast, the NO/cyclic GMP system may be desensitized and the contraction of vascular smooth muscle is inhibited by another mechanism, possibly membrane hyperpolarization.