Pharmacology of cardiac potassium channels

doi:10.1016/j.cardiores.2003.12.026

Cardiovascular Research 2004 62(1):9-33; doi:10.1016/j.cardiores.2003.12.026
© 2004 by European Society of Cardiology

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Pharmacology of cardiac potassium channels

Juan Tamargo^*, Ricardo Caballero, Ricardo Gómez, Carmen Valenzuela and Eva Delpón

Department of Pharmacology, School of Medicine, Universidad Complutense, 28040 Madrid, Spain

^* Corresponding author. Tel.: +34-91-3941472; fax: +34-91-3941470. Email address: jtamargo{at}med.ucm.es

Cardiac K⁺ channels are membrane-spanning proteins that allowthe passive movement of K⁺ ions across the cell membrane alongits electrochemical gradient. They regulate the resting membranepotential, the frequency of pacemaker cells and the shape andduration of the cardiac action potential. Additionally, theyhave been recognized as potential targets for the actions ofneurotransmitters and hormones and class III antiarrhythmicdrugs that prolong the action potential duration (APD) and refractorinessand have been found effective to prevent/suppress cardiac arrhythmias.In the human heart, K⁺ channels include voltage-gated channels,such as the rapidly activating and inactivating transient outwardcurrent (I_to1), the ultrarapid (I_Kur), rapid (I_Kr) and slow(I_Ks) components of the delayed rectifier current and the inwardrectifier current (I_K1), the ligand-gated channels, includingthe adenosine triphosphate-sensitive (I_KATP) and the acetylcholine-activated(I_KAch) currents and the leak channels. Changes in the expressionof K⁺ channels explain the regional variations in the morphologyand duration of the cardiac action potential among differentcardiac regions and are influenced by heart rate, intracellularsignalling pathways, drugs and cardiovascular disorders. A progressivenumber of cardiac and noncardiac drugs block cardiac K⁺ channelsand can cause a marked prolongation of the action potentialduration (i.e. an acquired long QT syndrome, LQTS) and a distinctpolymorphic ventricular tachycardia termed torsades de pointes.In addition, mutations in the genes encoding I_Kr (KCNH2/KCNE2)and I_Ks (KCNQ1/KCNE1) channels have been identified in sometypes of the congenital long QT syndrome. This review concentrateson the function, molecular determinants, regulation and, particularly,on the mechanism of action of drugs modulating the K⁺ channelspresent in the sarcolemma of human cardiac myocytes that contributeto the different phases of the cardiac action potential underphysiological and pathological conditions.

KEYWORDS K⁺ channels; Cardiomyocytes; Pharmacology; Cardiac arrhythmias; Antiarrhythmic agents; Torsades de pointes

Time for primary review 26 days

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