Voltage-gated T-type Ca2+ channels and heart failure.

J P Clozel, E A Ertel, S I Ertel
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引用次数: 43

Abstract

In the cardiovascular system, two types of voltage-gated Ca2+ channels are present: the L-type and the T-type. Under normal conditions, T-type Ca2+ channels are involved in the maintenance of vascular tone and cardiac automaticity but, since they are not present in contractile myocardial cells, they do not contribute significantly to myocardial contraction. In experimental models of cardiac hypertrophy, myocardial T-type Ca2+ channels are upregulated, which could contribute to the increased incidence of ventricular arrhythmia. In addition, T-type Ca2+ channels participate in the regulation of cell proliferation and neurohormonal secretion; through these pathways, T-type Ca2+ channels might participate in myocardial remodeling. The pathophysiological role of T-type Ca2+ channels in heart failure has been investigated using mibefradil, a Ca2+ antagonist that is 10-50 times more potent at blocking T-type than L-type Ca2+ channels. In contrast with classic L-type Ca2+ channel antagonists, miberfradil appears beneficial in many animal models of heart failure; in particular, it does not exert negative inotropic effects nor does it stimulate the neurohormonal system. Furthermore, in the Pfeffer rat model, blockade of T-type Ca2+ channels with mibefradil is associated with an improved survival rate. In humans, however, major metabolic drug interactions independent of T-type Ca2+ channel blockade made it impossible to determine the efficacy of mibefradil in treating heart failure; indeed, these interactions led to the withdrawal of the drug from the market.

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电压门控t型Ca2+通道与心力衰竭。
在心血管系统中,存在两种类型的电压门控Ca2+通道:l型和t型。在正常情况下,t型Ca2+通道参与维持血管张力和心脏自动性,但由于它们不存在于收缩性心肌细胞中,因此它们对心肌收缩没有显著贡献。在心肌肥厚的实验模型中,心肌t型Ca2+通道上调,这可能导致室性心律失常的发生率增加。此外,t型Ca2+通道参与调节细胞增殖和神经激素分泌;通过这些途径,t型Ca2+通道可能参与心肌重构。使用mibefradil研究了t型Ca2+通道在心力衰竭中的病理生理作用,这是一种Ca2+拮抗剂,阻断t型Ca2+通道的效力是l型Ca2+通道的10-50倍。与经典的l型Ca2+通道拮抗剂相比,miberfradil在许多心力衰竭动物模型中似乎是有益的;特别是,它不会产生负性肌力作用,也不会刺激神经激素系统。此外,在Pfeffer大鼠模型中,米贝弗拉迪阻断t型Ca2+通道与提高生存率有关。然而,在人类中,独立于t型Ca2+通道阻断的主要代谢药物相互作用使得无法确定米贝替拉治疗心力衰竭的疗效;事实上,这些相互作用导致这种药物从市场上撤出。
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