Experimental myocardial infarction triggers canonical Wnt signaling and endothelial-to-mesenchymal transition

Despite available therapies, myocardial infarction (MI) remains a leading cause of death worldwide. Better understanding of the molecular and cellular mechanisms that regulate cardiac repair should help to improve the clinical outcome of MI patients. Using the reporter mouse line TOPGAL, we show tha...

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Bibliographic Details
Published in:Disease models & mechanisms 2011-07, Vol.4 (4), p.469-483
Main Authors: Aisagbonhi, Omonigho, Rai, Meena, Ryzhov, Sergey, Atria, Nick, Feoktistov, Igor, Hatzopoulos, Antonis K
Format: Article
Language:English
Subjects:
Actins - metabolism
Angiogenesis
Animals
Apoptosis
Blood vessels
Blood Vessels - metabolism
Blood Vessels - pathology
Cells, Cultured
Coronary vessels
Endothelial Cells - metabolism
Endothelial Cells - pathology
Endothelium - metabolism
Endothelium - pathology
Granulation Tissue - metabolism
Granulation Tissue - pathology
Heart attacks
Heart failure
Heart Valves - metabolism
Heart Valves - pathology
Intercellular Signaling Peptides and Proteins - metabolism
Ligands
Mesoderm - metabolism
Mesoderm - pathology
Mice
Models, Biological
Myocardial Infarction - metabolism
Myocardial Infarction - pathology
Myocardium - metabolism
Myocardium - pathology
Myofibroblasts - metabolism
Myofibroblasts - pathology
Proteins
Signal Transduction
Smooth muscle
Veins & arteries
Wnt Proteins - metabolism
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Summary:Despite available therapies, myocardial infarction (MI) remains a leading cause of death worldwide. Better understanding of the molecular and cellular mechanisms that regulate cardiac repair should help to improve the clinical outcome of MI patients. Using the reporter mouse line TOPGAL, we show that canonical (β-catenin-dependent) Wnt signaling is induced 4 days after experimental MI in subepicardial endothelial cells and perivascular smooth muscle actin (SMA)-positive (SMA(+)) cells. At 1 week after ischemic injury, a large number of canonical-Wnt-positive cells accumulated in the infarct area during granulation tissue formation. Coincidently with canonical Wnt activation, endothelial-to-mesenchymal transition (EndMT) was also triggered after MI. Using cell lineage tracing, we show that a significant portion of the canonical-Wnt-marked SMA(+) mesenchymal cells is derived from endothelial cells. Canonical Wnt signaling induces mesenchymal characteristics in cultured endothelial cells, suggesting a direct role in EndMT. In conclusion, our study demonstrates that canonical Wnt activation and EndMT are molecular and cellular responses to MI and that canonical Wnt signaling activity is a characteristic property of EndMT-derived mesenchymal cells that take part in cardiac tissue repair after MI. These findings could lead to new strategies to improve the course of cardiac repair by temporal and cell-type-specific manipulation of canonical Wnt signaling.
ISSN:1754-8403
1754-8411
DOI:10.1242/dmm.006510