Abstract
BackgroundLong QT syndrome 3 (LQT3) is caused by SCN5A mutations. Late sodium current (late I Na) inhibitors are current-specific to treat patients with LQT3, but the mechanisms underlying mexiletine (MEX) -sensitive (N1325S and R1623Q) and -insensitive (M1652R) mutations remains to be elucidated.MethodsLQT3 patients with causative mutations were treated with oral MEX following i.v. lidocaine. Whole-cell patch-clamp techniques and molecular remodeling were used to determine the mechanisms underlying the sensitivity to MEX.ResultsIntravenous administration of lidocaine followed by MEX orally in LQT patients with N1325S and R1623Q sodium channel mutation shortened QTc interval, abolished arrhythmias, and completely normalized the ECG. In HEK293 cells, the steady-state inactivation curves of the M1652R channels were rightward shifted by 5.6 mV relative to the WT channel. In contrast, the R1623Q mutation caused a leftward shift of the steady-state inactivation curve by 15.2 mV compared with WT channel, and N1325S mutation did not affect steady-state inactivation (n = 5–13, P < 0.05). The extent of the window current was expanded in all three mutant channels compared with WT. All three mutations increased late I Na with the greatest amplitude in the M1652R channel (n = 9–15, P < 0.05). MEX caused a hyperpolarizing shift of the steady-state inactivation and delayed the recovery of all three mutant channels. Furthermore, it suppressed late I Na in N1325S and R1623Q to a greater extent compared to that of M1652R mutant channel. Mutations altered the sensitivity of Nav1.5 to MEX through allosteric mechanisms by changing the conformation of Nav1.5 to become more or less favorable for MEX binding. Late I Na inhibitors suppressed late I Na in N1325S and R1623Q to a greater extent than that in the M1652R mutation (n = 4–7, P < 0.05).ConclusionThe N1325S, R1623Q, and M1652R mutations are associated with a variable augmentation of late I Na, which was reversed by MEX. M1652R mutation changes the conformation of Nav1.5 that disrupt the inactivation of channel affecting MEX binding, corresponding to the poor response to MEX. The lidocaine test, molecular modeling, and drugs screening in cells expressing mutant channels are useful for predicting the effectiveness of late I Na inhibitors.
Highlights
Congenital long QT syndrome (LQTS) is a genetic disorder caused by ion channel mutations disrupting the electrical activity of the heart with a prevalence of approximately 1:2000 (GarciaElias and Benito, 2018) in apparently healthy live births
The patient was preliminarily diagnosed with congenital Long QT syndrome 3 (LQT3) based on the baseline ECG and the response to LID, and was treated with oral MEX alone at 200 mg daily
AN1325S mutation of SCN5A gene, which was previously reported as a LQT3 causative mutation, was confirmed by molecular genetics
Summary
Congenital long QT syndrome (LQTS) is a genetic disorder caused by ion channel mutations disrupting the electrical activity of the heart with a prevalence of approximately 1:2000 (GarciaElias and Benito, 2018) in apparently healthy live births. Increased late INa is documented in patients with LQT types 4, 9, 10, and 12 Both endogenous and enhanced late INa exhibit a frequency-dependent increase resulting in reverse rate dependence in APD (Wu et al, 2011; Yu et al, 2018). This property may explain why cardiac events of LQT3 patients often present at rest or during sleep, which is different from LQT1 and LQT2 patients whose arrhythmic events are associated with increased sympathetic activity and triggered by physical/emotional stress or environmental stimuli. Late sodium current (late INa) inhibitors are current-specific to treat patients with LQT3, but the mechanisms underlying mexiletine (MEX) -sensitive (N1325S and R1623Q) and -insensitive (M1652R) mutations remains to be elucidated
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