期刊
CIRCULATION RESEARCH
卷 98, 期 11, 页码 1422-1430出版社
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1161/01.RES.0000225862.14314.49
关键词
pacemaker activity; T-type calcium channel; sinoatrial node; conduction; knockout mice
The generation of the mammalian heartbeat is a complex and vital function requiring multiple and coordinated ionic channel activities. The functional role of low-voltage activated (LVA) T-type calcium channels in the pacemaker activity of the sinoatrial node (SAN) is, to date, unresolved. Here we show that disruption of the gene coding for Ca(v)3.1/alpha(1G) T-type calcium channels (cacna1g) abolishes T-type calcium current (I-Ca,I-T) in isolated cells from the SAN and the atrioventricular node without affecting the L-type Ca2+ current (I-Ca,I-L). By using telemetric electrocardiograms on unrestrained mice and intracardiac recordings, we find that cacna1g inactivation causes bradycardia and delays atrioventricular conduction without affecting the excitability of the right atrium. Consistently, no I-Ca,I-T was detected in right atrium myocytes in both wild- type and Ca(v)3.1(-/-) mice. Furthermore, inactivation of cacna1g significantly slowed the intrinsic in vivo heart rate, prolonged the SAN recovery time, and slowed pacemaker activity of individual SAN cells through a reduction of the slope of the diastolic depolarization. Our results demonstrate that Ca(v)3.1/T-type Ca2(+) channels contribute to SAN pacemaker activity and atrioventricular conduction.
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