BACKGROUND AND PURPOSE: Activation of the persistent sodium current in ischaemic myocardium results in calcium overload which is toxic for the cardiomyocyte. Thus, the activity of 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5 benzoxathiepine bromhydrate (F 15845), a new selective persistent sodium current blocker, in protecting against the effects of cardiac ischaemia was examined, in both in vitro and in vivo models. EXPERIMENTAL APPROACH: Electrophysiological studies using patch-clamp and conventional microlelectrode techniques, isolated perfused hearts and models of angina in anaesthetized animals were used to assess the protection afforded by F 15845 against ischaemia-induced changes. KEY RESULTS: F 15845 reduced the persistent sodium current activated by veratridine (IC(50) 1.58 x 10(-6) mol.L(-1)). F 15845 blocked voltage-gated human cardiac sodium channels in a novel, voltage-dependent manner, selectively affecting steady-state inactivation. F 15845 did not affect action potential shape and basal function of guinea pig isolated perfused hearts but did reduce ischaemia-induced diastolic contracture in this model (IC(50) 0.64 x 10(-6) mol.L(-1)). In rabbits, F 15845 given i.v. (ED(50) 0.05 mg.kg(-1)) or orally (ED(50) 0.13 mg.kg(-1)) dose-dependently and powerfully inhibited regional myocardial ischaemia-induced ST segment elevation in the absence of haemodynamic effects, implying direct cardiac activity. In dogs, F 15845 dose-dependently inhibited epicardial ST segment changes (70 +/- 8% at 0.63 mg.kg(-1)) in an experimental angina model of demand ischaemia, again without haemodynamic effects, confirming a direct anti-anginal activity. CONCLUSIONS AND IMPLICATIONS: F 15845 is a selective, potent blocker of the persistent sodium current, generated by the human Na(v)1.5 channel isoforms, and prevents cardiac angina in animal models.
BACKGROUND AND PURPOSE: Activation of the persistent sodium current in ischaemic myocardium results in calcium overload which is toxic for the cardiomyocyte. Thus, the activity of 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5 benzoxathiepine bromhydrate (F 15845), a new selective persistent sodium current blocker, in protecting against the effects of cardiac ischaemia was examined, in both in vitro and in vivo models. EXPERIMENTAL APPROACH: Electrophysiological studies using patch-clamp and conventional microlelectrode techniques, isolated perfused hearts and models of angina in anaesthetized animals were used to assess the protection afforded by F 15845 against ischaemia-induced changes. KEY RESULTS: F 15845 reduced the persistent sodium current activated by veratridine (IC(50) 1.58 x 10(-6) mol.L(-1)). F 15845 blocked voltage-gated human cardiac sodium channels in a novel, voltage-dependent manner, selectively affecting steady-state inactivation. F 15845 did not affect action potential shape and basal function of guinea pig isolated perfused hearts but did reduce ischaemia-induced diastolic contracture in this model (IC(50) 0.64 x 10(-6) mol.L(-1)). In rabbits, F 15845 given i.v. (ED(50) 0.05 mg.kg(-1)) or orally (ED(50) 0.13 mg.kg(-1)) dose-dependently and powerfully inhibited regional myocardial ischaemia-induced ST segment elevation in the absence of haemodynamic effects, implying direct cardiac activity. In dogs, F 15845 dose-dependently inhibited epicardial ST segment changes (70 +/- 8% at 0.63 mg.kg(-1)) in an experimental angina model of demand ischaemia, again without haemodynamic effects, confirming a direct anti-anginal activity. CONCLUSIONS AND IMPLICATIONS: F 15845 is a selective, potent blocker of the persistent sodium current, generated by the humanNa(v)1.5 channel isoforms, and prevents cardiac angina in animal models.
Authors: Carmen R Valdivia; William W Chu; Jielin Pu; Jason D Foell; Robert A Haworth; Mathew R Wolff; Timothy J Kamp; Jonathan C Makielski Journal: J Mol Cell Cardiol Date: 2005-03 Impact factor: 5.000
Authors: C Pignier; J-S Rougier; B Vié; C Culié; Y Verscheure; B Vacher; H Abriel; B Le Grand Journal: Br J Pharmacol Date: 2010-09 Impact factor: 8.739