Circulation Research, Vol 75, 149-155, Copyright © 1994 by American Heart Association
ARTICLES |
T-type Ca2+ channels are abnormal in genetically determined cardiomyopathic hamster hearts
L Sen and TW Smith
Department of Medicine, Brigham and Women's Hospital, Boston, MA 02115.
Although there is substantial evidence of abnormal Ca2+ homeostasis in heart cells of the cardiomyopathic Syrian hamster (Bio 14.6 strain), the mechanism by which these myocytes become Ca(2+)-overloaded is not known. To elucidate the role of voltage-sensitive Ca2+ channels in the pathogenesis of myopathy, whole-cell Ca2+ currents were measured in myopathic and normal control cardiac myocytes. These studies demonstrate the presence of two voltage-sensitive Ca2+ channel types in ventricular myocytes isolated from 200- to 300-day-old cardiomyopathic and age-matched normal hamsters. The two Ca2+ channel types were identified by their unitary conductance properties and pharmacologic sensitivities. Both L-type and T-type Ca2+ channels were present in cardiomyopathic and normal cells. Current density through L-type Ca2+ channels was the same in cardiomyopathic and normal control myocytes. However, the mean current density of T-type Ca2+ channels in cardiomyopathic cells was significantly higher than in normal cells (myopathic, 12.3 +/- 1.8 pA/pF; normal, 5.8 +/- 1.1 pA/pF; n = 8; P < .01). The T-type Ca2+ current in cardiomyopathic myocytes was activated and inactivated at more negative potentials than in cells from normal hamster hearts. These findings demonstrate no abnormality of the dihydropyridine-sensitive voltage-dependent L-type Ca2+ channel. In contrast, the observed abnormalities in T-type Ca2+ channel function in cardiomyopathic hamster myocytes suggest that this alteration may be related to the pathogenesis of Ca2+ overload and the arrhythmias in this genetically determined form of cardiomyopathy.
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