Human embryonic stem cell-derived cardiomyocytes (hESC-CMs) might provide cells to repopulate injured myocardium. Electrical coupling of these cells to the host myocardium is a prerequisite for improved functionality. The aim of this study was to investigate electrical interaction of hESC-CMs with myocardial tissue and to identify factors challenging functional integration. Beating clusters containing hESC-CMs were cocultured in vitro with viable slices of late-stage embryonic murine ventricles. Field potentials recorded with micro-electrode arrays and video data were analyzed. The effects of heptanol, electrical pacing, beta-adrenergic, and muscarinic stimulation on coupling were studied. Beating clusters integrated morphologically and functionally resulting in a synchronized beating pattern after two to four days of coculture. Heptanol-induced conduction block between transplanted cells and host tissue and immunoreactivity for connexin43 suggested electrical coupling via gap junctions. Beta-adrenergic or muscarinic stimulation induced uncoupling and arrhythmias probably due to genetically determined differences of hormonal modulation of spontaneous beating rates of transplanted cells and host tissue. HESC-CMs can integrate functionally and develop synchronized beating. Interventions unraveling the different electrophysiological properties of transplanted and host tissue induce functional disintegration. Successful cellular replacement has to improve coupling but should also aim to transplant cardiomyocytes with similar electrophysiological properties as the host tissue.
2009 S. Karger AG, Basel.