In vivo forced expression of myocardin in ventricular myocardium transiently impairs systolic performance in early neonatal pig heart.

The aim of this study was to determine the effects of forced expression of myocd-A in the left ventricular (LV) myocardium on cardiac performance in early neonatal piglets. LV transfection with the gene for homeodomain only protein (hop), an antagonist of myocd-mediated activities, was also performed. Gene delivery was performed in 6-day-old piglets using a low-traumatic, catheter-based, video-assisted procedure developed by us for direct intra-myocardial injections of plasmid DNA into 3-4 target areas of the ventral LV free wall (LVFW). Two isoforms of porcine myocd were identified, cloned and characterized: the exon 11-lacking myocd-A and its larger exon 11-containig variant, myocd-B. In neonatal piglets, myocd-A seems to be a cardio-predominant isoform enriched in the LVFW/septum, whereas the myocd-B isoform is detected not only in the heart but also in various smooth muscle cell-containing tissues. Intramyocardial myocd-A gene delivery resulted in forced transgene expression in the target areas of the LVFW as compared to controls. On day 2 post-delivery, a marked decrease of LV-end systolic pressure values (an accepted marker for impaired LV function) was observed in myocd-A-transfected piglets as compared to hop-transfected and control groups. In addition, forced myocd-A expression in the LVFW caused abnormal ECG. A significant up-regulation of the gene for fetal-predominant muscle light chain 3F myosin was detected in myocd-A-transfected LVFWs harvested on day 2 post-delivery. Extended analysis on day 7 post-delivery revealed a drop decrease in myocd-A transgene expression in target LVFW regions which was correlated with normalization of the LV systolic parameters in experimented piglets.