Transmural heterogeneity of calcium activity and mechanical function in the canine left ventricle

doi:10.1152/ajpheart.00748.2003

Transmural heterogeneity of calcium activity and mechanical function in the canine left ventricle

Jonathan M. Cordeiro, Lindsey Greene, Cory Heilmann, Daniel Antzelevitch, and Charles Antzelevitch

Masonic Medical Research Laboratory, Utica, New York 13501-1787

Submitted 11 August 2003 ; accepted in final form 10 December 2003

Although electrical heterogeneity within the ventricular myocardiumhas been the focus of numerous studies, little attention hasbeen directed to the mechanical correlates. This study examinesunloaded cell shortening, Ca²⁺ transients, and inward L-typeCa²⁺ current (I_Ca,L) characteristics of epicardial, endocardial,and midmyocardial cells isolated from the canine left ventricle.Unloaded cell shortening was recorded using a video edge detector,Ca²⁺ transients were measured in cells loaded with 15 µMfluo-3 AM and voltage and current-clamp recordings were obtainedusing patch-clamp techniques. Time to peak and latency to onsetof contraction were shortest in epicardial and longest in endocardialcells; midmyocardial cells displayed an intermediate time topeak. When contraction was elicited using uniform voltage-clampsquare waves, epicardial versus endocardial distinctions persistedand midmyocardial cells displayed a time to peak comparableto that of epicardium. The current-voltage relationship forI_Ca,L and fluorescence-voltage relationship were similar inthe three cell types when quantitated using square pulses. However,peak I_Ca,L and total charge were significantly larger when anepicardial versus endocardial action potential waveform wasused to elicit the current under voltage-clamp conditions. Sarcoplasmicreticulum Ca²⁺ content, assessed by rapid application of caffeine,was largest in epicardial cells and contributed to a fastertime to peak. Our data point to important differences in calciumhomeostasis and mechanical function among the three ventricularcell types. These differences serve to synchronize contractionacross the ventricular wall. Although these distinctions areconferred in part by differences in electrical characteristicsof the three cell types, intrinsic differences in excitation-contractioncoupling are evident.

L-type Ca²⁺ current; cell shortening; transients

Address for reprint requests and other correspondence: J. M. Cordeiro (correspondence) and C. Antzelevitch (reprints), Masonic Medical Research Laboratory, 2150 Bleecker St., Utica, NY 13501-1787 (E-mail: jcordeiro{at}mmrl.edu and ca{at}mmrl.edu).

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				Y. L. Protsenko, S. M. Routkevitch, V. Y. Gur'ev, L. B. Katsnelson, O. Solovyova, O. N. Lookin, A. A. Balakin, P. Kohl, and V. S. Markhasin Hybrid duplex: a novel method to study the contractile function of heterogeneous myocardium Am J Physiol Heart Circ Physiol, December 1, 2005; 289(6): H2733 - H2746. [Abstract] [Full Text] [PDF]

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