Thymosin β4 induces adult epicardial progenitor mobilization and neovascularization

Smart, Nicola; Risebro, Catherine A.; Melville, Athalie A. D.; Moses, Kelvin A.; Schwartz, Robert J.; Chien, Kenneth R.; Riley, Paul R.

doi:10.1038/nature05383

Cited by 587 publications

(687 citation statements)

References 26 publications

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“…The epicardium has been reported to play an active role during normal cardiomyogenesis 25, while it becomes quiescent after birth 26. Although the mammalian epicardium is activated after MI, the number of the activated cells is insufficient for myocardium repair 27, 28.…”

Section: Discussionmentioning

confidence: 99%

Mesenchymal stem cell‐loaded cardiac patch promotes epicardial activation and repair of the infarcted myocardium

Wang

et al. 2017

J Cellular Molecular Medi

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Cardiac patch is considered a promising strategy for enhancing stem cell therapy of myocardial infarction (MI). However, the underlying mechanisms for cardiac patch repairing infarcted myocardium remain unclear. In this study, we investigated the mechanisms of PCL/gelatin patch loaded with MSCs on activating endogenous cardiac repair. PCL/gelatin patch was fabricated by electrospun. The patch enhanced the survival of the seeded MSCs and their HIF‐1α, Tβ4, VEGF and SDF‐1 expression and decreased CXCL14 expression in hypoxic and serum‐deprived conditions. In murine MI models, the survival and distribution of the engrafted MSCs and the activation of the epicardium were examined, respectively. At 4 weeks after transplantation of the cell patch, the cardiac functions were significantly improved. The engrafted MSCs migrated across the epicardium and into the myocardium. Tendency of HIF‐1α, Tβ4, VEGF, SDF‐1 and CXCL14 expression in the infarcted myocardium was similar with expression in vitro. The epicardium was activated and epicardial‐derived cells (EPDCs) migrated into deep tissue. The EPDCs differentiated into endothelial cells and smooth muscle cells, and some of EPDCs showed to have differentiated into cardiomyocytes. Density of blood and lymphatic capillaries increased significantly. More c‐kit+ cells were recruited into the infarcted myocardium after transplantation of the cell patch. The results suggest that epicardial transplantation of the cell patch promotes repair of the infarcted myocardium and improves cardiac functions by enhancing the survival of the transplanted cells, accelerating locality paracrine, and then activating the epicardium and recruiting endogenous c‐kit+ cells. Epicardial transplantation of the cell patch may be applied as a novel effective MI therapy.

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Section: Discussionmentioning

confidence: 99%

Mesenchymal stem cell‐loaded cardiac patch promotes epicardial activation and repair of the infarcted myocardium

Wang

et al. 2017

J Cellular Molecular Medi

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“…Thus, MRTF-A is located at the crossroads of myocyte and vessel regeneration in hibernating myocardium. T 4, the most abundant G-actin-binding peptide of the cytosol, is capable of inducing vessel growth via endothelial migration and sprouting 21,36 . An essential role of MRTF-A in T 4 angiogenic signalling was established in vitro and in vivo, since MRFT-AshRNA was capable of abrogating endothelial migration and sprouting (Fig.…”

Section: Discussionmentioning

confidence: 99%

MRTF-A controls vessel growth and maturation by increasing the expression of CCN1 and CCN2

et al. 2014

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Gradual occlusion of coronary arteries may result in reversible loss of cardiomyocyte function (hibernating myocardium), which is amenable to therapeutic neovascularization. The role of myocardin-related transcription factors (MRTFs) co-activating serum response factor (SRF) in this process is largely unknown. Here we show that forced MRTF-A expression induces CCN1 and CCN2 to promote capillary proliferation and pericyte recruitment, respectively. We demonstrate that, upon G-actin binding, thymosin 4 (T 4), induces MRTF translocation to the nucleus, SRF-activation and CCN1/2 transcription. In a murine ischaemic hindlimb model, MRTF-A or T 4 promotes neovascularization, whereas loss of MRTF-A/B or CCN1-function abrogates the T 4 effect. We further show that, in ischaemic rabbit hindlimbs, MRTF-A as well as T 4 induce functional neovascularization, and that this process is inhibited by angiopoietin-2, which antagonizes pericyte recruitment. Moreover, MRTF-A improves contractile function of chronic hibernating myocardium of pigs to a level comparable to that of transgenic pigs overexpressing T 4 (T 4tg). We conclude that MRTF-A promotes microvessel growth (via CCN1) and maturation (via CCN2), thereby enabling functional improvement of ischaemic muscle tissue.

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“…In addition to its role in cardiac development, the epicardium also regulates cardiac regeneration after injury in lower vertebrates (9,10). In mammals, the regeneration potential of cardiac tissue is limited, but epicardium is activated and supports formation of new blood vessels by triggering differentiation of EPDCs into fibroblast, smooth muscles, and endothelial cells after myocardial infarction (11).…”

mentioning

confidence: 99%

MicroRNA-processing Enzyme Dicer Is Required in Epicardium for Coronary Vasculature Development

Singh

Lü

Massera

et al. 2011

Journal of Biological Chemistry

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Background: Epicardium-derived cells undergo EMT and differentiate into smooth muscle of the developing coronary vasculature. The role of Dicer in this process is unknown. Results: Dicer mutants displayed impaired epicardial EMT, reduced epicardial cell proliferation, and differentiation into coronary smooth muscle cells. Conclusion: Dicer is essential for epicardium development. Significance: This represents the first evidence for the involvement of Dicer, and by implication miRNAs, in epicardial development.

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Thymosin β4 induces adult epicardial progenitor mobilization and neovascularization

Cited by 587 publications

References 26 publications

Mesenchymal stem cell‐loaded cardiac patch promotes epicardial activation and repair of the infarcted myocardium

Mesenchymal stem cell‐loaded cardiac patch promotes epicardial activation and repair of the infarcted myocardium

MRTF-A controls vessel growth and maturation by increasing the expression of CCN1 and CCN2

MicroRNA-processing Enzyme Dicer Is Required in Epicardium for Coronary Vasculature Development

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