Generation of Functional Murine Cardiac Myocytes From Induced Pluripotent Stem Cells

Author:

Mauritz Christina1,Schwanke Kristin1,Reppel Michael1,Neef Stefan1,Katsirntaki Katherina1,Maier Lars S.1,Nguemo Filomain1,Menke Sandra1,Haustein Moritz1,Hescheler Juergen1,Hasenfuss Gerd1,Martin Ulrich1

Affiliation:

1. From the Leibniz Research Laboratories for Biotechnology and Artificial Organs, Department of Cardiac, Thoracic, Transplantation, and Vascular Surgery, REBIRTH Cluster of Excellence, Hannover Medical School, Hannover, Germany (C.M., K.S., K.K., S.M., U.M.); Institute of Neurophysiology, University of Cologne, Cologne, Germany (M.R., F.N., M.H., J.H.); Department of Cardiology, University of Luebeck, Luebeck, Germany (M.R.); and Department of Cardiology and Pneumology, University Medical Center...

Abstract

Background— The recent breakthrough in the generation of induced pluripotent stem (iPS) cells, which are almost indistinguishable from embryonic stem (ES) cells, facilitates the generation of murine disease– and human patient–specific stem cell lines. The aim of this study was to characterize the cardiac differentiation potential of a murine iPS cell clone in comparison to a well-established murine ES cell line. Methods and Results— With the use of a standard embryoid body–based differentiation protocol for ES cells, iPS cells as well as ES cells were differentiated for 24 days. Although the analyzed iPS cell clone showed a delayed and less efficient formation of beating embryoid bodies compared with the ES cell line, the differentiation resulted in an average of 55% of spontaneously contracting iPS cell embryoid bodies. Analyses on molecular, structural, and functional levels demonstrated that iPS cell–derived cardiomyocytes show typical features of ES cell–derived cardiomyocytes. Reverse transcription polymerase chain reaction analyses demonstrated expression of marker genes typical for mesoderm, cardiac mesoderm, and cardiomyocytes including Brachyury, mesoderm posterior factor 1 (Mesp1), friend of GATA2 (FOG-2), GATA-binding protein 4 (GATA4), NK2 transcription factor related, locus 5 (Nkx2.5), T-box 5 (Tbx5), T-box 20 (Tbx20), atrial natriuretic factor (ANF), myosin light chain 2 atrial transcripts (MLC2a), myosin light chain 2 ventricular transcripts (MLC2v), α-myosin heavy chain (α-MHC), and cardiac troponin T in differentiation cultures of iPS cells. Immunocytology confirmed expression of cardiomyocyte-typical proteins including sarcomeric α-actinin, titin, cardiac troponin T, MLC2v, and connexin 43. iPS cell cardiomyocytes displayed spontaneous rhythmic intracellular Ca 2+ fluctuations with amplitudes of Ca 2+ transients comparable to ES cell cardiomyocytes. Simultaneous Ca 2+ release within clusters of iPS cell–derived cardiomyocytes indicated functional coupling of the cells. Electrophysiological studies with multielectrode arrays demonstrated functionality and presence of the β-adrenergic and muscarinic signaling cascade in these cells. Conclusions— iPS cells differentiate into functional cardiomyocytes. In contrast to ES cells, iPS cells allow derivation of autologous functional cardiomyocytes for cellular cardiomyoplasty and myocardial tissue engineering.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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