BACKGROUND AND PURPOSE: Reduction of intracellular calcium ([Ca(2+)](i)) in smooth muscle cells (SMCs) is an important mechanism by which nitric oxide (NO) dilates blood vessels. We investigated whether modes of Ca(2+) mobilization during SMC contraction influenced NO efficacy. EXPERIMENTAL APPROACH: Isometric contractions by depolarization (high potassium, K(+)) or alpha-adrenoceptor stimulation (phenylephrine), and relaxations by acetylcholine chloride (ACh), diethylamine NONOate (DEANO) and glyceryl trinitrate (GTN) and SMC [Ca(2+)](i) (Fura-2) were measured in aortic segments from C57Bl6 mice. KEY RESULTS: Phenylephrine-constricted segments were more sensitive to endothelium-derived (ACh) or exogenous (DEANO, GTN) NO than segments contracted by high K(+) solutions. The greater sensitivity of phenylephrine-stimulated segments was independent of the amount of pre-contraction, the source of NO or the resting potential of SMCs. It coincided with a significant decrease of [Ca(2+)](i), which was suppressed by sarcoplasmic reticulum (SR) Ca(2+) ATPase (SERCA) inhibition, but not by soluble guanylyl cylase (sGC) inhibition. Relaxation of K(+)-stimulated segments did not parallel a decline of [Ca(2+)](i). However, stimulation (BAY K8644) of L-type Ca(2+) influx diminished, while inhibition (nifedipine, 1-100 nM) augmented the relaxing capacity of NO. CONCLUSIONS AND IMPLICATIONS: In mouse aorta, NO induced relaxation via two pathways. One mechanism involved a non-cGMP-dependent stimulation of SERCA, causing Ca(2+) re-uptake into the SR and was prominent when intracellular Ca(2+) was mobilized. The other involved sGC-stimulated cGMP formation, causing relaxation without changing [Ca(2+)](i), presumably by desensitizing the contractile apparatus. This pathway seems related to L-type Ca(2+) influx, and L-type Ca(2+) channel blockers increase the vasodilator efficacy of NO.
BACKGROUND AND PURPOSE: Reduction of intracellular calcium ([Ca(2+)](i)) in smooth muscle cells (SMCs) is an important mechanism by which nitric oxide (NO) dilates blood vessels. We investigated whether modes of Ca(2+) mobilization during SMC contraction influenced NO efficacy. EXPERIMENTAL APPROACH: Isometric contractions by depolarization (high potassium, K(+)) or alpha-adrenoceptor stimulation (phenylephrine), and relaxations by acetylcholine chloride (ACh), diethylamine NONOate (DEANO) and glyceryl trinitrate (GTN) and SMC [Ca(2+)](i) (Fura-2) were measured in aortic segments from C57Bl6 mice. KEY RESULTS:Phenylephrine-constricted segments were more sensitive to endothelium-derived (ACh) or exogenous (DEANO, GTN) NO than segments contracted by high K(+) solutions. The greater sensitivity of phenylephrine-stimulated segments was independent of the amount of pre-contraction, the source of NO or the resting potential of SMCs. It coincided with a significant decrease of [Ca(2+)](i), which was suppressed by sarcoplasmic reticulum (SR) Ca(2+) ATPase (SERCA) inhibition, but not by soluble guanylyl cylase (sGC) inhibition. Relaxation of K(+)-stimulated segments did not parallel a decline of [Ca(2+)](i). However, stimulation (BAY K8644) of L-type Ca(2+) influx diminished, while inhibition (nifedipine, 1-100 nM) augmented the relaxing capacity of NO. CONCLUSIONS AND IMPLICATIONS: In mouse aorta, NO induced relaxation via two pathways. One mechanism involved a non-cGMP-dependent stimulation of SERCA, causing Ca(2+) re-uptake into the SR and was prominent when intracellular Ca(2+) was mobilized. The other involved sGC-stimulated cGMP formation, causing relaxation without changing [Ca(2+)](i), presumably by desensitizing the contractile apparatus. This pathway seems related to L-type Ca(2+) influx, and L-type Ca(2+) channel blockers increase the vasodilator efficacy of NO.
Authors: Mordecai P Blaustein; Vera A Golovina; Hong Song; Jacqueline Choate; Lubomira Lencesova; Shawn W Robinson; W Gil Wier Journal: Novartis Found Symp Date: 2002
Authors: Paul Fransen; Cor E Van Hove; Arthur J A Leloup; Dorien M Schrijvers; Guido R Y De Meyer; Gilles W De Keulenaer Journal: Pflugers Arch Date: 2015-10-03 Impact factor: 3.657
Authors: Bess M Flashner; Sheryl L Rifas-Shiman; Emily Oken; Carlos A Camargo; Thomas J Platts-Mills; Lisa Workman; Augusto A Litonjua; Diane R Gold; Mary B Rice Journal: Pediatr Pulmonol Date: 2019-12-05
Authors: Paul Fransen; Cor E Van Hove; Johanna van Langen; Dorien M Schrijvers; Wim Martinet; Guido R Y De Meyer; Hidde Bult Journal: BMC Physiol Date: 2012-09-03