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(Circulation Research. 2001;88:794.)
© 2001 American Heart Association, Inc.

Cellular Biology

ß-Adrenergic Stimulation Synchronizes Intracellular Ca²⁺ Release During Excitation-Contraction Coupling in Cardiac Myocytes

Long-Sheng Song, Shi-Qiang Wang, Rui-Ping Xiao, Harold Spurgeon, Edward G. Lakatta, Heping Cheng

From the Laboratory of Cardiovascular Sciences (L.-S.S., S.-Q.W., R.-P.X., H.S., E.G.L., H.C.), National Institute on Aging, National Institutes of Health, Baltimore, Md; and National Laboratory of Biomembrane and Membrane Biotechnology (H.C.), College of Life Sciences, Peking University, Beijing, China.

Correspondence to Heping Cheng, PhD, Laboratory of Cardiovascular Sciences, National Institute on Aging, NIH, 5600 Nathan Shock Dr, Baltimore, MD 21224. E-mail chengp{at}grc.nia.nih.gov

Abstract—To elucidate microscopic mechanisms underlying the modulation of cardiac excitation-contraction (EC) coupling by ß-adrenergic receptor (ß-AR) stimulation, we examined local Ca²⁺ release function, ie, Ca²⁺ spikes at individual transverse tubule–sarcoplasmic reticulum (T-SR) junctions, using confocal microscopy and our recently developed technique for release flux measurement. ß-AR stimulation by norepinephrine plus an ₁-adrenergic blocker, prazosin, increased the amplitude of SR Ca²⁺ release flux (J_SR), its running integral (J_SR), and L-type Ca²⁺ channel current (I_Ca), and it shifted their bell-shaped voltage dependence leftward by 10 mV, with the relative effects ranking I_Ca> J_SR>J_SR. Confocal imaging revealed that the bell-shaped voltage dependence of SR Ca²⁺ release is attributable to a graded recruitment of T-SR junctions as well as to changes in Ca²⁺ spike amplitudes. ß-AR stimulation increased the fractional T-SR junctions that fired Ca²⁺ spikes and augmented Ca²⁺ spike amplitudes, without altering the SR Ca²⁺ load, suggesting that more release units were activated synchronously among and within T-SR junctions. Moreover, ß-AR stimulation decreased the latency and temporal dispersion of Ca²⁺ spike occurrence at a given voltage, delivering most of the Ca²⁺ at the onset of depolarization rather than spreading it out throughout depolarization. Because the synchrony of Ca²⁺ spikes affects Ca²⁺ delivery per unit of time to contractile myofilaments, and because the myofilaments display a steep Ca²⁺ dependence, our data suggest that synchronization of SR Ca²⁺ release represents a heretofore unappreciated mechanism of ß-AR modulation of cardiac inotropy.

Key Words: excitation-contraction coupling • ß-adrenergic receptor • L-type Ca²⁺ channel current • ryanodine receptors • heart cells

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