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| Open AccessEndothelin-1 supports clonal derivation and expansion of cardiovascular progenitors derived from human embryonic stem cells
Understanding coronary vessels development provides basis for regenerative strategies. Here, Soh et al. identify endothelin-1 as a key molecule driving long-term expansion of ISL1+bipotent vascular progenitors derived from human embryonic stem cells, and show that these cells can regenerate coronary vessels in mice.
- Boon-Seng Soh
- , Shi-Yan Ng
- & Kenneth R. Chien
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Article
| Open AccessNanoscale visualization of functional adhesion/excitability nodes at the intercalated disc
In myelinated fibres conduction and adhesion proteins aggregate at discrete foci, but it is unclear if this organization is present in other excitable cells. Using nanoscale visualization and in silico techniques, the authors show that adhesion/excitability nodes exist at the intercalated discs of adult cardiac muscle.
- Alejandra Leo-Macias
- , Esperanza Agullo-Pascual
- & Mario Delmar
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Evolutionarily conserved intercalated disc protein Tmem65 regulates cardiac conduction and connexin 43 function
Mechanical and electrical activity in the heart is propagated through unique cardiomyocyte membrane structures, the intercalated discs (ID). Sharma et al.identify a novel ID protein, Tmem65, that controls Ca2+ signalling and electrical coupling by interacting with and functionally regulating the gap junction protein Cx43.
- Parveen Sharma
- , Cynthia Abbasi
- & Anthony O. Gramolini
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Article
| Open AccessPDGFRα demarcates the cardiogenic clonogenic Sca1+ stem/progenitor cell in adult murine myocardium
Adult cardiac progenitor/stem cells (CPSCs) possess valuable potential for heart repair that is limited by the elusiveness of these cells. Here Noseda et al. refine the definition of murine CPSCs producing stem cell antigen 1 (Sca1), mapping the cardiogenic signature and clonogenicity to the subgroup of Sca1+cells expressing PDGFRα.
- Michela Noseda
- , Mutsuo Harada
- & Michael D. Schneider
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Article
| Open AccessComplement C1q-induced activation of β-catenin signalling causes hypertensive arterial remodelling
The role of macrophages in hypertension-induced arterial remodeling is poorly understood. Here, Sumida et al. show that high blood pressure drives the alternatively activated macrophages to secrete complement C1q protein, which in turn elicits proliferative β-catenin signalling in the arterial smooth muscle cells.
- Tomokazu Sumida
- , Atsuhiko T. Naito
- & Issei Komuro