Wiley, Experimental Physiology, 10(95), p. 994-1007, 2010
DOI: 10.1113/expphysiol.2010.053868
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Loss- and gain-of-function cardiac Na(+) channel (SCN5A) mutations are associated with the Brugada and long QT type 3 syndromes (LQT3), respectively. Both result in ventricular arrhythmias, but have differing atrial effects. We have recently reported decreased incidences of atrial arrhythmias in a murine Scn5a+/Delta cardiac system used to model LQT3. We now explore for atrial arrhythmias in a murine Brugada syndrome model. Programmed electrical stimulation and burst pacing were applied to 10 wild-type (WT) and 10 Scn5a+/- Langendorff-perfused murine hearts. These induced arrhythmias in similar proportions of the Scn5a+/- and WT hearts, in contrast to their decreased incidences previously reported for Scn5a+/Delta. Almost half of the Scn5a+/- hearts displayed spontaneous atrial arrhythmias never observed in WT. Both these WT and Scn5a+/- hearts showed positive critical intervals, given by the difference between action potential durations at 90% recovery (APD(90)) and atrial effective refractory periods, before pharmacological intervention. Both flecainide and quinidine then prevented both induced and spontaneous atrial arrhythmias in all the arrhythmic WT and Scn5a+/- hearts, in contrast to their differing ventricular effects. However, flecainide prolonged APD(90) in WT but not Scn5a+/-, whereas quinidine prolonged APD(90) in both WT and Scn5a+/-. Nevertheless, addition of both agents markedly increased atrial effective refractory periods to values exceeding the corresponding values of APD(90). This resulted in negative critical intervals in both WT and Scn5a+/-. These findings demonstrate a clear-cut relationship between critical interval and atrial arrhythmic tendency for the first time and extend previous reports that had related critical interval to ventricular arrhythmia.