Expression of the Electrophysiological System During Murine Embryonic Stem Cell Cardiac Differentiation.

Background: Stem cell based replacement therapy is envisioned as a method to repair failing hearts suffering from cardiomyocyte loss. To prevent potentially lethal arrhythmias, the donor cellular electrophysiological make-up should match with the acceptor tissue. To engineer the desired electrophysiological phenotype, the underlying molecular regulation of ion channels and gap-junction proteins should be clarified first. Methods: We established the expression of seven main cardiac ion channel α-subunits and four β-subunits using semiquantitive RT-PCR and two major cardiac gap-junction proteins by immunohistochemistry during the differentiation process of murine ES cells into cardiomyocytes. Results: Ion channel mRNA expression profiles display sequential upregulation. Connexin-40 and -43 expression is low in early cardiomyocytes, increased expression rates were found in subsequent differentiation phases. Conclusion: Cardiac differentiation of mouse embryonic stem cells is characterized by a sequential upregulation of the main cardiac ion channels and connexins. [ABSTRACT FROM AUTHOR]