瞬时受体电位通道蛋白4(TRPM4)非选择性阳离子通道影响兔浦肯野纤维中的动作电位。
TRPM4 non-selective cation channels influence action potentials in rabbit Purkinje fibres.
作者信息
Hof Thomas, Sallé Laurent, Coulbault Laurent, Richer Romain, Alexandre Joachim, Rouet René, Manrique Alain, Guinamard Romain
机构信息
Groupe Signalisation, Electrophysiologie et Imagerie des Lésions d'Ischémie-Reperfusion Myocardique, Unicaen, Normandie Université, EA 4650, Caen, France.
出版信息
J Physiol. 2016 Jan 15;594(2):295-306. doi: 10.1113/JP271347. Epub 2015 Dec 14.
KEY POINTS
The transient receptor potential melastatin 4 (TRPM4) inhibitor 9-phenanthrol reduces action potential duration in rabbit Purkinje fibres but not in ventricle. TRPM4-like single channel activity is observed in isolated rabbit Purkinje cells but not in ventricular cells. The TRPM4-like current develops during the notch and early repolarization phases of the action potential in Purkinje cells.
ABSTRACT
Transient receptor potential melastatin 4 (TRPM4) Ca(2+)-activated non-selective cation channel activity has been recorded in cardiomyocytes and sinus node cells from mammals. In addition, TRPM4 gene mutations are associated with human diseases of cardiac conduction, suggesting that TRPM4 plays a role in this aspect of cardiac function. Here we evaluate the TRPM4 contribution to cardiac electrophysiology of Purkinje fibres. Ventricular strips with Purkinje fibres were isolated from rabbit hearts. Intracellular microelectrodes recorded Purkinje fibre activity and the TRPM4 inhibitor 9-phenanthrol was applied to unmask potential TRPM4 contributions to the action potential. 9-Phenanthrol reduced action potential duration measured at the point of 50 and 90% repolarization with an EC50 of 32.8 and 36.1×10(-6) mol l(-1), respectively, but did not modulate ventricular action potentials. Inside-out patch-clamp recordings were used to monitor TRPM4 activity in isolated Purkinje cells. TRPM4-like single channel activity (conductance = 23.8 pS; equal permeability for Na(+) and K(+); sensitivity to voltage, Ca(2+) and 9-phenanthrol) was observed in 43% of patches from Purkinje cells but not from ventricular cells (0/16). Action potential clamp experiments performed in the whole-cell configuration revealed a transient inward 9-phenanthrol-sensitive current (peak density = -0.65 ± 0.15 pA pF(-1); n = 5) during the plateau phases of the Purkinje fibre action potential. These results show that TRPM4 influences action potential characteristics in rabbit Purkinje fibres and thus could modulate cardiac conduction and be involved in triggering arrhythmias.
关键点
瞬时受体电位褪黑素4(TRPM4)抑制剂9-菲咯啉可缩短兔浦肯野纤维的动作电位时程,但对心室肌无此作用。在分离的兔浦肯野细胞中可观察到类似TRPM4的单通道活性,而在心室细胞中未观察到。在浦肯野细胞动作电位的切迹期和早期复极化期会产生类似TRPM4的电流。
摘要
在哺乳动物的心肌细胞和窦房结细胞中已记录到瞬时受体电位褪黑素4(TRPM4)钙激活非选择性阳离子通道活性。此外,TRPM4基因突变与人类心脏传导疾病有关,这表明TRPM4在心脏功能的这一方面发挥作用。在此,我们评估TRPM4对浦肯野纤维心脏电生理的作用。从兔心脏分离出带有浦肯野纤维的心室条。用细胞内微电极记录浦肯野纤维的活性,并应用TRPM4抑制剂9-菲咯啉来揭示TRPM4对动作电位可能的作用。9-菲咯啉可缩短在复极化50%和90%时测量的动作电位时程,其半数有效浓度(EC50)分别为32.8和36.1×10⁻⁶ mol·l⁻¹,但对心室动作电位无调节作用。采用内面向外式膜片钳记录来监测分离的浦肯野细胞中的TRPM4活性。在43%的浦肯野细胞膜片中观察到类似TRPM4的单通道活性(电导 = 23.8 pS;对Na⁺和K⁺的通透性相同;对电压、Ca²⁺和9-菲咯啉敏感),而在心室细胞膜片中未观察到(0/16)。在全细胞模式下进行的动作电位钳实验显示,在浦肯野纤维动作电位的平台期有一个短暂的内向9-菲咯啉敏感电流(峰值密度 = -0.65 ± 0.15 pA·pF⁻¹;n = 5)。这些结果表明,TRPM4影响兔浦肯野纤维的动作电位特征,因此可能调节心脏传导并参与心律失常的触发。
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