Posttranslational Control of a Cardiac Ion Channel Transgene In Vivo : Clarithromycin–hMiRP1-Q9E Interactions

The present study investigates a novel gene therapy approach for atrial arrhythmias, using a clarithromycinresponsive ion channel subunit mutation, hMiRP1-Q9E, cloned into an expression plasmid; wild-type expression plasmids encoding human minK-related protein 1 (hMiRP1) were also used as controls. In a series of pig studies, right atrial myocardium was injected at one site with hMiRP1-Q9E plasmid DNA; a separate site in the same right atrium was injected with wild-type plasmid or was sham injected. Two weeks after transfection intravenous clarithromycin administration resulted in a site-specific, dose-dependent prolongation of the repolarization phase of the right atrial epicardial monophasic action potential (MAP) only at the hMiRPQ9E sites, but not at sham or wild-type sites. MAP recordings before clarithromycin administration did not differ between hMiRP1-Q9E and control sites. These studies show that regional control of atrial myocardial repolarization by site-specific transfection with plasmid DNA encoding an antibiotic-responsive ion channel subunit is feasible and, because hMiRP1-Q9E-transfected sites were affected only if clarithromycin was given, provide proof of concept for a posttranslational, controllable gene therapy strategy for atrial arrhythmias.