• P Bowman, H Haikala, and R J Paul.
• Molecular and Cellular Physiology, University of Cincinnati, Ohio, USA.
• J. Pharmacol. Exp. Ther. 1999 Jan 1;288(1):316-25.

AbstractLevosimendan is a pyridazinone-dinitrile derivative belonging to a new class of cardiac inotropic drugs, Ca++ sensitizers. Levosimendan is also a vasodilator both in vitro and in vivo, but its mechanism is not well understood. The cardiac target protein of levosimendan, troponin C, is a Ca++-binding EF-hand protein. This raises the possibility that levosimendan may also interact with smooth muscle EF-hand proteins, such as, calmodulin, the regulatory myosin light chains, or S100 proteins. We investigated the effects of levosimendan on [Ca++]i, and force in porcine coronary arteries, with receptor-mediated (U46619) or KCl stimulation. At high levels of stimulation, levosimendan decreased force without changing or increasing [Ca++]i, measured with the Ca++-sensitive fluorescent probe fura-2 in the intact artery. With lower levels of U46619, levosimendan (1 microM) lowered force by 70% and reduced [Ca++]i by 38%. The relationship between force and [Ca++]i for KCl stimulation are significantly rightward shifted, indicating Ca++ desensitization by levosimendan. In contrast, the phosphodiesterase III inhibitor, milrinone, does not shift the force-Ca++ relations but elicits relaxation via lowering [Ca++]i. There was little change in pHi, indicating that the Ca++ desensitization by levosimendan was not attributable to decreasing pHi. Levosimendan relaxes coronary arteries and lowers [Ca++]i by mechanisms different than milrinone. Our results indicate a lowering of [Ca++]i by levosimendan consistent with opening of potassium channels and a relaxation that is independent of [Ca++]i. Our evidence points to a novel mechanism that might involve the direct effect of levosimendan on the smooth muscle contractile or regulatory proteins themselves.

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