Objectives: Ranolazine improves vascular function in animal models. We evaluate the effects of ranolazine on vascular function and adrenergic response in human saphenous vein.
Methods: Rings from 53 patients undergoing coronary artery bypass grafting were mounted in organ baths. Concentration-response curves to ranolazine were constructed in rings precontracted with phenylephrine, endothelin-1, vasopressin, KCl and the thromboxane A2 analogue U-46619. In rings precontracted with phenylephrine, relaxation to ranolazine was tested in the absence and presence of endothelial factors inhibitors, K+ channel blockers and verapamil. The effects of ranolazine on frequency-response and concentration-response curves to phenylephrine were performed in the absence and presence of endothelial factors inhibitors and K+ channel blockers. Endothelial nitric oxide synthase, α1 adrenergic receptor and large conductance Ca2+-activated K+ channel protein expressions were measured by Western blotting.
Results: Ranolazine (10-9-10-4 M) produced a concentration-dependent relaxation only in rings precontracted with phenylephrine that was reduced by endothelial denudation, NG-nitro-l-arginine methyl ester (10-4 M), charybdotoxin (10-7 M) and verapamil (10-6 M). Ranolazine diminished adrenergic contractions induced by electrical field stimulation (2-4 Hz) and phenylephrine (10-9-10-5 M) that were prevented by tetraethylammonium (10-3 M) and charybdotoxin (10-7 M). Ranolazine significantly decreased α1 adrenergic receptor and increased large conductance Ca2+-activated K+ channel protein expression in the saphenous vein.
Conclusions: Ranolazine diminishes the adrenergic vasoconstriction, acting as α1 antagonist, and by increasing large conductance Ca2+-activated K+ channel involvement. The relaxant effects of ranolazine are partially mediated by endothelial nitric oxide, large conductance Ca2+-activated K+ channels and the blockade of voltage-dependent Ca2+ channels.
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http://dx.doi.org/10.1093/ejcts/ezaa034 | DOI Listing |
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