Adult mouse epicardium modulates myocardial injury by secreting paracrine factors
Bin Zhou, … , Francis X. McGowan, William T. Pu
Bin Zhou, … , Francis X. McGowan, William T. Pu
Published April 18, 2011
Citation Information: J Clin Invest. 2011;121(5):1894-1904. https://doi.org/10.1172/JCI45529.
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Research Article Cardiology

Adult mouse epicardium modulates myocardial injury by secreting paracrine factors

Abstract

The epicardium makes essential cellular and paracrine contributions to the growth of the fetal myocardium and the formation of the coronary vasculature. However, whether the epicardium has similar roles postnatally in the normal and injured heart remains enigmatic. Here, we have investigated this question using genetic fate-mapping approaches in mice. In uninjured postnatal heart, epicardial cells were quiescent. Myocardial infarction increased epicardial cell proliferation and stimulated formation of epicardium-derived cells (EPDCs), which remained in a thickened layer on the surface of the heart. EPDCs did not adopt cardiomyocyte or coronary EC fates, but rather differentiated into mesenchymal cells expressing fibroblast and smooth muscle cell markers. In vitro and in vivo assays demonstrated that EPDCs secreted paracrine factors that strongly promoted angiogenesis. In a myocardial infarction model, EPDC-conditioned medium reduced infarct size and improved heart function. Our findings indicate that epicardium modulates the cardiac injury response by conditioning the subepicardial environment, potentially offering a new therapeutic strategy for cardiac protection.

Authors

Bin Zhou, Leah B. Honor, Huamei He, Qing Ma, Jin-Hee Oh, Catherine Butterfield, Ruei-Zeng Lin, Juan M. Melero-Martin, Elena Dolmatova, Heather S. Duffy, Alexander von Gise, Pingzhu Zhou, Yong Wu Hu, Gang Wang, Bing Zhang, Lianchun Wang, Jennifer L. Hall, Marsha A. Moses, Francis X. McGowan, William T. Pu

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Figure 3

Fate of EPDCs after MI.

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Fate of EPDCs after MI. EPDCs marked by GFP lineage tracer (green) were ...
EPDCs marked by GFP lineage tracer (green) were analyzed for coexpression of differentiation markers (red) after MI. Images are representative of 2 weeks after MI; similar results were observed at 1 week, 4 weeks, and 3 months. (A) EPDC labeling protocol. (B) Whole-mount image of Wt1CreERT2/+;Rosa26mTmG/+ heart after MI. GFP was present in the epicardial region (green arrow), whereas myocardium was mainly GFP (red arrow). A region of epicardium was lifted off of the heart to improve visualization. (C and D) EPDCs did not express cardiomyocyte markers TNNT2 or ACTN2. (E and F) EPDCs (arrowheads, E) did not express endothelial marker PECAM in the epicardial region, but were frequently adjacent to ECs (arrows, E). Within the myocardium, very rare GFP+ cells were observed; these cells expressed PECAM (arrow, F). (GI) A subset of EPDCs expressed smooth muscle markers SM-MHC (G), α-SMA (H), and SM22α (I). (JM) A subset of EPDCs expressed mesenchymal/fibroblast markers FN1 (J), ColIII (K), FSP1 (L), and ProCol (M). Scale bars: 100 μm; 1 mm (B); 10 μm (F, right). Myo, myocardium; Endo, endocardium; Epi, epithelium.