VanderBrink B A, Sellitto C, Saba S, Link M S, Zhu W, Homoud M K, Estes N A, Paul D L, Wang P J
Cardiac Arrhythmia Service, New England Medical Center, Boston, Massachusetts 02111, USA.
J Cardiovasc Electrophysiol. 2000 Nov;11(11):1270-6. doi: 10.1046/j.1540-8167.2000.01270.x.
Previous electrophysiologic investigations have described AV conduction disturbances in connexin40 (Cx40)-deficient mice. Because expression of Cx40 occurs predominantly in the atria and His-Purkinje system of the mouse heart, the AV conduction disturbances were thought to be secondary to disruption in His-Purkinje function. However, the lack of a His-bundle electrogram recording in the mouse has limited further investigation of the importance of Cx40. Using a novel technique to record His-bundle recordings in Cx40-deficient mice, we define the physiologic importance of deficiencies in Cx40.
Ten Cx40-/- mice and 11 Cx40+/+ controls underwent a blinded, in vivo, closed chest electrophysiology study at 9 to 12 weeks of age. In the Cx40-/- mice, the PR interval was significantly longer compared with Cx40+/+ mice (44.6+/-6.4 msec vs 36.0+/-4.1 msec, P = 0.002). Not only the HV interval (14.0+/-3.0 msec vs 10.4+/-1.2 msec, P = 0.003) but also the AH interval (33.2+/-4.8 msec vs 27.1+/-3.7 msec, P = 0.006), AV Wenckebach cycle lengths, and AV nodal effective and functional refractory periods were prolonged in Cx40-/- compared with Cx40+/+ mice.
Cx40-deficient mice exhibit significant delay not only in infra-Hisian conduction, as would be expected from the expression of Cx40 in the His-Purkinje system but also in the electrophysiologic parameters that reflect AV nodal conduction. Our data suggest a significant role of Cx40 in atrionodal conduction and/or in proximal His-bundle conduction.
先前的电生理研究已描述了连接蛋白40(Cx40)缺陷小鼠的房室传导障碍。由于Cx40主要在小鼠心脏的心房和希氏-浦肯野系统中表达,因此房室传导障碍被认为是希氏-浦肯野功能破坏的继发结果。然而,小鼠缺乏希氏束电图记录限制了对Cx40重要性的进一步研究。我们使用一种新技术记录Cx40缺陷小鼠的希氏束记录,以确定Cx40缺陷的生理重要性。
10只Cx40基因敲除小鼠和11只Cx40基因野生型对照小鼠在9至12周龄时接受了一项盲法、体内、闭胸电生理研究。与Cx40基因野生型小鼠相比,Cx40基因敲除小鼠的PR间期显著延长(44.6±6.4毫秒对36.0±4.1毫秒,P = 0.002)。与Cx40基因野生型小鼠相比,Cx40基因敲除小鼠不仅HV间期延长(14.0±3.0毫秒对10.4±1.2毫秒,P = 0.003),AH间期也延长(33.2±4.8毫秒对27.1±3.7毫秒,P = 0.006),房室文氏周期长度以及房室结有效不应期和功能不应期均延长。
Cx40缺陷小鼠不仅在希氏束下传导方面表现出显著延迟,这与Cx40在希氏-浦肯野系统中的表达预期一致,而且在反映房室结传导的电生理参数方面也有延迟。我们的数据表明Cx40在房结传导和/或近端希氏束传导中起重要作用。
