Dataset: Modulation of calcium activated potassium channels induces cardiogenesis of pluripotent stem cells and enrichment of pacemaker- like cells
Background: Ion channels are key determinants for the function of excitable cells but little is known about their role and involvement...
Background: Ion channels are key determinants for the function of excitable cells but little is known about their role and involvement during cardiac development. Earlier work identified Ca2+-activated potassium channels of small and intermediate conductance (SKCas) as important regulators of neural stem cell fate. Here, we have investigated their impact on the differentiation of pluripotent cells towards the cardiac lineage. Methods and Results: We have applied the SKCa-activator EBIO on embryonic stem cells and identified this particular ion channel family as a new critical target involved in the generation of cardiac pacemaker-like cells: SKCa-activation led to rapid remodeling of the actin cytoskeleton, inhibition of proliferation, induction of differentiation and diminished teratoma formation. Time-restricted SKCa-activation induced cardiac mesoderm and commitment to the cardiac lineage as shown by gene regulation, protein and functional electrophysiological studies. In addition, the differentiation into cardiomyocytes was modulated in a qualitative fashion, resulting in a strong enrichment of pacemaker-like cells. This was accompanied by induction of the sino-atrial gene program and in parallel by a loss of the chamber-specific myocardium. In addition, SKCa activity induced activation of the Ras-Mek-Erk signaling cascade, a signaling pathway involved in the EBIO-induced effects. Conclusions: SKCa-activation drives the fate of pluripotent cells towards the cardiac lineage and preferentially into pacemaker-like cardiomyocytes. This provides a novel strategy for the enrichment of cardiomyocytes and in particular, the generation of a specific subtype of cardiomyocytes, pacemaker-like cells, without genetic modification. Untreated ES cells in three independent experiments: - Untreated control ES cells sample 1 (Con_1) - Untreated control ES cells sample 2 (Con_2) - Untreated control ES cells sample 3 (Con_3) EBIO-treated ES cells in three independent experiments: - EBIO-treated ES cells sample 1 (EBIO_1) - EBIO-treated ES cells sample 2 (EBIO_2) - EBIO-treated ES cells sample 3 (EBIO_3) Untreated differentiated ES cells in two independent experiments: - Untreated control differentiated ES cells sample 1 (Con_day5+10_1) - Untreated control differentiated ES cells sample 2 (Con_day5+10_2) EBIO-treated differentiated ES cells in two independent experiments: - EBIO-treated differentiated ES cells sample 1 (EBIO_day5+10_1) - EBIO-treated differentiated ES cells sample 2 (EBIO_day5+10_2)
- Species:
- mouse
- Samples:
- 10
- Source:
- E-GEOD-18660
- PubMed:
- 20956206
- Updated:
- Dec.12, 2014
- Registered:
- Nov.11, 2014
Sample | CELL TYPE |
---|---|
GSM463596 | embryonic stem cell (ES cells) |
GSM463596 | embryonic stem cell (ES cells) |
GSM463596 | embryonic stem cell (ES cells) |
GSM463596 | embryonic stem cell (ES cells) |
GSM463596 | embryonic stem cell (ES cells) |
GSM463596 | embryonic stem cell (ES cells) |
GSM549070 | differentiated embryonic stem cell (ES cells) |
GSM549070 | differentiated embryonic stem cell (ES cells) |
GSM549070 | differentiated embryonic stem cell (ES cells) |
GSM549070 | differentiated embryonic stem cell (ES cells) |