Modulation of Ca2+ Release in Cardiac Myocytes by Changes in Repolarization Rate: Role of Phase-1 Action Potential Repolarization in Excitation-Contraction Coupling

doi:10.1161/hh0202.103315

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Circulation Research. 2002;90:165-173
Published online before print December 6, 2001, doi: 10.1161/hh0202.103315

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Electrophysiology

Calcium cycling/excitation-contraction coupling

Cellular Biology

Modulation of Ca²⁺ Release in Cardiac Myocytes by Changes in Repolarization Rate

Role of Phase-1 Action Potential Repolarization in Excitation-Contraction Coupling

Rajan Sah, Rafael J. Ramirez, Peter H. Backx

From the Departments of Physiology and Medicine, Heart and Stroke/Richard Lewar Centre, Division of Cardiology at the University Health Network, University of Toronto, Toronto, Canada.

Correspondence to Dr Peter H. Backx, Toronto General Hospital, CCRW 3-802, 101 College St, Toronto, Ontario M5G 2C4, Canada. E-mail p.backx{at}utoronto.ca

The early rate of action potential (AP) repolarization variesin the mammalian heart regionally, during development, and indisease. We used confocal microscopy to assess the effects ofchanges in repolarization rate on spatially resolved sarcoplasmicreticulum (SR) Ca²⁺ release. The kinetics and peak amplitudeof Ca²⁺ transients were reduced, and the amplitude, frequency,and temporal synchronization of Ca²⁺ spikes decreased as therate of repolarization was slowed. The first latencies and temporaldispersion of Ca²⁺ spikes tracked closely with the time to peakand the width of the L-type Ca²⁺ current (I_Ca,L), suggestingthat the effects of repolarization on excitation-contractioncoupling occur primarily via changes in I_Ca,L. Next, we examinedthe effect of changes in the rapid early repolarization rate(phase 1) of a model human AP on SR Ca²⁺ release by varyingthe amount of transient outward K⁺ current. Slowing of phase-1repolarization also caused a loss of temporal synchrony andrecruitment of Ca²⁺-release events, associated with a reducedamplitude and lengthened time to peak of I_Ca,L. Isoproterenolapplication enhanced and largely resynchronized SR Ca²⁺ release,while it increased the magnitude and shortened the time to peakof I_Ca,L. Our data demonstrate that membrane repolarizationmodulates the recruitment and synchronization of SR Ca²⁺ releasevia I_Ca,L and illustrate a physiological role for the phase-1notch of the AP in optimizing temporal summation and recruitmentof Ca²⁺-release events. The effects of slowing phase-1 repolarizationcan be overcome by ß-adrenergic stimulation.

Key Words: confocal microscopy • electrophysiology • calcium sparks • heart disease

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				B.-G. Kerfant, D. Gidrewicz, H. Sun, G. Y. Oudit, J. M. Penninger, and P. H. Backx Cardiac Sarcoplasmic Reticulum Calcium Release and Load Are Enhanced by Subcellular cAMP Elevations in PI3K{gamma}-Deficient Mice Circ. Res., May 27, 2005; 96(10): 1079 - 1086. [Abstract] [Full Text] [PDF]

				D. M. Harris, G. D. Mills, X. Chen, H. Kubo, R. M. Berretta, V. S. Votaw, L. F. Santana, and S. R. Houser Alterations in Early Action Potential Repolarization Causes Localized Failure of Sarcoplasmic Reticulum Ca2+ Release Circ. Res., March 18, 2005; 96(5): 543 - 550. [Abstract] [Full Text] [PDF]

				T. Volk, P. J. Noble, M. Wagner, D. Noble, and H. Ehmke Ascending aortic stenosis selectively increases action potential-induced Ca2+ influx in epicardial myocytes of the rat left ventricle Exp Physiol, January 1, 2005; 90(1): 111 - 121. [Abstract] [Full Text] [PDF]

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