BACKGROUND AND PURPOSE: The persistent sodium current is involved in myocardial ischaemia and is selectively inhibited by the newly described 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5-benzoxathiepine bromhydrate (F 15845). Here, we describe the pharmacological profile of F 15845 against the effects of hypoxia in femoral arteries in vitro. EXPERIMENTAL APPROACH: Isometric tension measurement of rat isolated femoral arteries was used to characterize the protective effect of F 15845 against contraction of the vessels induced by veratrine (100 microg.mL(-1)) or hypoxia. KEY RESULTS: Rat femoral artery expressed the Na(v)1.5 channel isoform. When exposed to veratrine (100 microg.mL(-1)), vessels developed a rapid and strong contraction that was abolished by both absence of sodium and blockade of the Na(+)/Ca(++) exchanger by KB-R7943 (10 and 32 micromol.L(-1)) or treatment with F 15845. When used before veratrine exposure, the potency of F 15845 depended on the extracellular K(+) concentration (IC(50)= 11 and 0.77 micromol.L(-1) for 5 and 20 mmol.L(-1) KCl, respectively), whereas its potency was unaffected by extracellular K(+) concentration when given after veratrine. F 15845 did not affect either KCl (80 mmol.L(-1)) or phenylephrine-induced femoral artery contraction. Moreover, endothelium disruption did not affect the protective effect of F 15845 against veratrine-induced femoral artery contraction, suggesting a mechanism of action dependent on smooth muscle cells. Finally, F 15845 prevented in a concentration-dependent manner rat femoral artery contraction induced by hypoxia. CONCLUSION AND IMPLICATIONS: F 15845, a selective blocker of the persistent sodium current prevented vascular contraction induced by hypoxic conditions.
BACKGROUND AND PURPOSE: The persistent sodium current is involved in myocardial ischaemia and is selectively inhibited by the newly described 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5-benzoxathiepine bromhydrate (F 15845). Here, we describe the pharmacological profile of F 15845 against the effects of hypoxia in femoral arteries in vitro. EXPERIMENTAL APPROACH: Isometric tension measurement of rat isolated femoral arteries was used to characterize the protective effect of F 15845 against contraction of the vessels induced by veratrine (100 microg.mL(-1)) or hypoxia. KEY RESULTS:Rat femoral artery expressed the Na(v)1.5 channel isoform. When exposed to veratrine (100 microg.mL(-1)), vessels developed a rapid and strong contraction that was abolished by both absence of sodium and blockade of the Na(+)/Ca(++) exchanger by KB-R7943 (10 and 32 micromol.L(-1)) or treatment with F 15845. When used before veratrine exposure, the potency of F 15845 depended on the extracellular K(+) concentration (IC(50)= 11 and 0.77 micromol.L(-1) for 5 and 20 mmol.L(-1) KCl, respectively), whereas its potency was unaffected by extracellular K(+) concentration when given after veratrine. F 15845 did not affect either KCl (80 mmol.L(-1)) or phenylephrine-induced femoral artery contraction. Moreover, endothelium disruption did not affect the protective effect of F 15845 against veratrine-induced femoral artery contraction, suggesting a mechanism of action dependent on smooth muscle cells. Finally, F 15845 prevented in a concentration-dependent manner rat femoral artery contraction induced by hypoxia. CONCLUSION AND IMPLICATIONS: F 15845, a selective blocker of the persistent sodium current prevented vascular contraction induced by hypoxic conditions.