Department of Cardiology and Angiology, University Hospital Münster, Münster, Germany.
Heart Rhythm. 2010 Dec;7(12):1862-9. doi: 10.1016/j.hrthm.2010.08.016. Epub 2010 Aug 19.
Patients with long QT syndrome (LQTS) are at increased risk not only for ventricular arrhythmias but also for atrial pathology including atrial fibrillation (AF). Some patients with "lone" AF carry Na(+)-channel mutations.
The purpose of this study was to determine the mechanisms underlying atrial pathology in LQTS.
In mice with a heterozygous knock-in long QT syndrome type 3 (LQT3) mutant of the cardiac Na(+) channel (ΔKPQ-SCN5A) and wild-type (WT) littermates, atrial size, function, and electrophysiologic parameters were measured in intact Langendorff-perfused hearts, and histologic analysis was performed.
Atrial action potential duration, effective refractory period, cycle length, and PQ interval were prolonged in ΔKPQ-SCN5A hearts (all P < .05). Flecainide (1 μM) reversed atrial action potential duration prolongation and induced postrepolarization refractoriness (P < .05). Arrhythmias were infrequent during regular rapid atrial rate in both WT and ΔKPQ-SCN5A but were inducible in 15 (38%) of 40 ΔKPQ-SCN5A and 8 (29%) of 28 WT mice upon extrastimulation. Pacing protocols generating rapid alterations in rate provoked atrial extrasystoles and arrhythmias in 6 (66%) of 9 ΔKPQ-SCN5A but in 0 (0%) of 6 WT mice (P < .05). Atrial diameter was increased by nearly 10% in ΔKPQ-SCN5A mice > 5 months old without increase in fibrotic tissue.
Murine hearts bearing an LQT3 mutation show abnormalities in atrial electrophysiology and subtle changes in atrial dimension, including an atrial arrhythmogenic phenotype on provocation. These results support clinical data suggesting that LQTS mutations can cause atrial pathology and arrhythmogenesis and indicate that murine sodium channel LQTS models may be useful for exploring underlying mechanisms.
长 QT 综合征(LQTS)患者不仅存在室性心律失常风险,还存在心房病变,包括心房颤动(AF)。一些患有“孤立性”AF 的患者携带有钠通道突变。
本研究旨在确定 LQTS 中心房病变的发生机制。
在心脏钠通道(ΔKPQ-SCN5A)杂合敲入 LQT3 突变的小鼠(ΔKPQ-SCN5A)和野生型(WT)同窝仔鼠的完整 Langendorff 灌流心脏中,测量心房大小、功能和电生理参数,并进行组织学分析。
ΔKPQ-SCN5A 心脏的心房动作电位时程、有效不应期、心动周期和 PQ 间期延长(均 P<0.05)。氟卡尼(1 μM)逆转了心房动作电位时程的延长并诱导了后除极不应性(P<0.05)。在 WT 和 ΔKPQ-SCN5A 中,在正常快速心房率期间心律失常并不常见,但在 40 只ΔKPQ-SCN5A 中有 15 只(38%)和 28 只 WT 中有 8 只(29%)可以通过额外刺激诱导。在 6 只(66%)ΔKPQ-SCN5A 中,起搏方案引起的快速率变化可引发心房期外收缩和心律失常,但在 6 只 WT 中没有(0%)(P<0.05)。在超过 5 个月大的ΔKPQ-SCN5A 小鼠中,心房直径增加了近 10%,而纤维化组织没有增加。
携带 LQT3 突变的小鼠心脏表现出心房电生理异常和心房尺寸的细微变化,包括在刺激下出现心房致心律失常表型。这些结果支持了临床数据表明 LQTS 突变可导致心房病变和心律失常发生,并表明小鼠钠通道 LQTS 模型可能有助于探索潜在机制。
