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Developmental changes in cardiomyocytes differentiated from human embryonic stem cells: a molecular and electrophysiological approach

Sartiani, Laura
Bettiol, Esther
Stillitano, Francesca
Mugelli, Alessandro
Cerbai, Elisabetta
Jaconi, Marisa
Published in Stem Cells. 2007, vol. 25, no. 5, p. 1136-1144
Abstract Cardiomyocytes derived from human embryonic stem cells constitute a promising cell source for the regeneration of damaged hearts. The assessment of their in vitro functional properties is mandatory to envisage appropriate cardiac cell-based therapies. In this study, we characterized human embryonic stem cell-derived cardiomyocytes over a 3-month period, using patch-clamp or intracellular recordings to assess their functional maturation and reverse transcriptase-polymerase chain reaction to evaluate the expression of ion channel-encoding subunits. I(to1) and I(K1), the transient outward and inward rectifier potassium currents, were present in cardiomyocytes only, whereas the rapid delayed rectifier potassium current (I(Kr)), pacemaker current (I(f)), and L-type calcium current (I(Ca,L)) could be recorded both in undifferentiated human embryonic stem cells and in cardiomyocytes. Most of the currents underwent developmental maturation in cardiomyocytes, as assessed by modifications in current density (I(to1), I(K1), and I(Ca,L)) and properties (I(f)). Ion-channel mRNAs were always present when the current was recorded. Intracellular recordings in spontaneously beating clusters of cardiomyocytes revealed changes in action potential parameters and in response to pharmacological tools according to time of differentiation. In summary, human embryonic stem cell-derived cardiomyocytes mature over time during in vitro differentiation, approaching an adult phenotype. Disclosure of potential conflicts of interest is found at the end of this article.
Keywords AnimalsCalcium Channels, L-Type/metabolismCell DifferentiationCells, CulturedCyclic Nucleotide-Gated Cation ChannelsDiastoleElectrophysiologyEmbryonic Stem Cells/ cytology/ metabolismGene Expression RegulationHumansMiceModels, BiologicalMyocytes, Cardiac/ cytology/ metabolismPotassium Channels/genetics/metabolismPotassium Channels, Inwardly Rectifying/metabolismRNA, Messenger/genetics/metabolismTime Factors
PMID: 17255522
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SARTIANI, Laura et al. Developmental changes in cardiomyocytes differentiated from human embryonic stem cells: a molecular and electrophysiological approach. In: Stem Cells, 2007, vol. 25, n° 5, p. 1136-1144. doi: 10.1634/stemcells.2006-0466 https://archive-ouverte.unige.ch/unige:11568

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Deposited on : 2010-08-27

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