Circulation Research, Vol 68, 1729-1741, Copyright © 1991 by American Heart Association
ARTICLES |
A subpopulation of cells with unique electrophysiological properties in the deep subepicardium of the canine ventricle. The M cell
S Sicouri and C Antzelevitch
Masonic Medical Research Laboratory, Utica, N.Y. 13504.
Recent studies have shown that canine ventricular epicardium and endocardium differ with respect to electrophysiological characteristics and pharmacological responsiveness and that these differences are in large part due to the presence of a prominent transient outward current Ito and a spike-and-dome morphology of the action potential in epicardium but not endocardium. In attempting to quantitate these differences and assess their gradation across the ventricular wall, we encountered a subpopulation of cells in the deep subepicardial layers with electrophysiological characteristics different from those of either epicardium or endocardium. These cells, which we have termed M cells, display a spike-and-dome morphology typical of epicardium but a maximal rate of rise of the action potential upstroke that is considerably greater than that of either epicardium or endocardium. Using the restitution of the amplitude of phase 1 of the action potential as a marker for the reactivation of Ito, we showed M cells to possess a prominent 4-aminopyridine-sensitive Ito with a reactivation time course characterized by two components with fast and slow time constants. The rate dependence of action potential duration of M cells was considerably more accentuated than that of epicardium or endocardium and more akin to that of Purkinje fibers (not observed histologically in this region). Phase 4 depolarization was never observed in M cells, not even after exposure to catecholamines and/or low [K+]o. In summary, our study presents evidence for the existence of a unique subpopulation of cells in the deep subepicardium of the canine left and right ventricles with electrophysiological features intermediate between those of conducting and myocardial cells. Although their function is unknown, M cells may facilitate conduction in epicardium and are likely to influence or mediate the manifestation of electrocardiographic J waves, T waves, U waves, and long QT intervals and contribute importantly to arrhythmogenesis.
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L. Fananapazir, D. Packer, and E. N. Prystowsky Differential Effects of Changes in Local Myocardial Refractoriness on Atrialand Ventricular Latency Circulation, September 15, 1996; 94(6): 1364 - 1371. [Abstract] [Full Text]
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D. Qin, Z.-H. Zhang, E. B. Caref, M. Boutjdir, P. Jain, and N. El-Sherif Cellular and Ionic Basis of Arrhythmias in Postinfarction Remodeled Ventricular Myocardium Circ. Res., September 1, 1996; 79(3): 461 - 473. [Abstract] [Full Text]
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N. El-Sherif, E. B. Caref, H. Yin, and M. Restivo The Electrophysiological Mechanism of Ventricular Arrhythmias in the Long QT Syndrome: Tridimensional Mapping of Activation and Recovery Patterns Circ. Res., September 1, 1996; 79(3): 474 - 492. [Abstract] [Full Text]
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B. B. Lerman, K. Stein, E. D. Engelstein, D. S. Battleman, N. Lippman, D. Bei, and D. Catanzaro Mechanism of Repetitive Monomorphic Ventricular Tachycardia Circulation, August 1, 1995; 92(3): 421 - 429. [Abstract] [Full Text]
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P. Daleau, E. Lessard, M.-F. Groleau, and J. Turgeon Erythromycin Blocks the Rapid Component of the Delayed Rectifier Potassium Current and Lengthens Repolarization of Guinea Pig Ventricular Myocytes Circulation, June 15, 1995; 91(12): 3010 - 3016. [Abstract] [Full Text]
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D.-W. Liu and C. Antzelevitch Characteristics of the Delayed Rectifier Current (IKr and IKs) in Canine Ventricular Epicardial, Midmyocardial, and Endocardial Myocytes : A Weaker IKs Contributes to the Longer Action Potential of the M Cell Circ. Res., March 1, 1995; 76(3): 351 - 365. [Abstract] [Full Text]
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P. Smetana, V. N. Batchvarov, K. Hnatkova, A. J. Camm, and M. Malik Sex differences in repolarization homogeneity and its circadian pattern Am J Physiol Heart Circ Physiol, May 1, 2002; 282(5): H1889 - H1897. [Abstract] [Full Text] [PDF]
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F. G. Akar, G.-X. Yan, C. Antzelevitch, and D. S. Rosenbaum Unique Topographical Distribution of M Cells Underlies Reentrant Mechanism of Torsade de Pointes in the Long-QT Syndrome Circulation, March 12, 2002; 105(10): 1247 - 1253. [Abstract] [Full Text] [PDF]
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