Molecular Physiology of Cardiac Repolarization

doi:10.1152/physrev.00002.2005

Molecular Physiology of Cardiac Repolarization

Jeanne M. Nerbonne and Robert S. Kass

Department of Molecular Biology and Pharmacology, Washington University Medical School, St. Louis, Missouri; and Department of Pharmacology, College of Physicians and Surgeons, Columbia University, New York, New York

The heart is a rhythmic electromechanical pump, the functioningof which depends on action potential generation and propagation,followed by relaxation and a period of refractoriness untilthe next impulse is generated. Myocardial action potentialsreflect the sequential activation and inactivation of inward(Na⁺ and Ca²⁺) and outward (K⁺) current carrying ion channels.In different regions of the heart, action potential waveformsare distinct, owing to differences in Na⁺, Ca²⁺, and K⁺ channelexpression, and these differences contribute to the normal,unidirectional propagation of activity and to the generationof normal cardiac rhythms. Changes in channel functioning, resultingfrom inherited or acquired disease, affect action potentialrepolarization and can lead to the generation of life-threateningarrhythmias. There is, therefore, considerable interest in understandingthe mechanisms that control cardiac repolarization and rhythmgeneration. Electrophysiological studies have detailed the propertiesof the Na⁺, Ca²⁺, and K⁺ currents that generate cardiac actionpotentials, and molecular cloning has revealed a large numberof pore forming ( ${alpha}$ ) and accessory ( ${beta}$ , ${delta}$ , and ${gamma}$ ) subunits thoughtto contribute to the formation of these channels. Considerableprogress has been made in defining the functional roles of thevarious channels and in identifying the ${alpha}$ -subunits encoding thesechannels. Much less is known, however, about the functioningof channel accessory subunits and/or posttranslational processingof the channel proteins. It has also become clear that cardiacion channels function as components of macromolecular complexes,comprising the ${alpha}$ -subunits, one or more accessory subunit, anda variety of other regulatory proteins. In addition, these macromolecularchannel protein complexes appear to interact with the actincytoskeleton and/or the extracellular matrix, suggesting importantfunctional links between channel complexes, as well as betweencardiac structure and electrical functioning. Important areasof future research will be the identification of (all of) themolecular components of functional cardiac ion channels anddelineation of the molecular mechanisms involved in regulatingthe expression and the functioning of these channels in thenormal and the diseased myocardium.

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