Thymosin β4 facilitates epicardial neovascularization of the injured adult heart

N Smart, CA Risebro, JE Clark, E Ehler… - Annals of the New …, 2010 - Wiley Online Library
N Smart, CA Risebro, JE Clark, E Ehler, L Miquerol, A Rossdeutsch, MS Marber, PR Riley
Annals of the New York Academy of Sciences, 2010Wiley Online Library
Ischemic heart disease complicated by coronary artery occlusion causes myocardial
infarction (MI), which is the major cause of morbidity and mortality in humans (http://www.
who. int/cardiovascular_diseases/resources/atlas/en/index. html). After MI the human heart
has an impaired capacity to regenerate and, despite the high prevalence of cardiovascular
disease worldwide, there is currently only limited insight into how to stimulate repair of the
injured adult heart from its component parts. Efficient cardiac regeneration requires the …
Ischemic heart disease complicated by coronary artery occlusion causes myocardial infarction (MI), which is the major cause of morbidity and mortality in humans (http://www.who.int/cardiovascular_diseases/resources/atlas/en/index.html). After MI the human heart has an impaired capacity to regenerate and, despite the high prevalence of cardiovascular disease worldwide, there is currently only limited insight into how to stimulate repair of the injured adult heart from its component parts. Efficient cardiac regeneration requires the replacement of lost cardiomyocytes, formation of new coronary blood vessels, and appropriate modulation of inflammation to prevent maladaptive remodeling, fibrosis/scarring, and consequent cardiac dysfunction. Here we show that thymosin β4 (Tβ4) promotes new vasculature in both the intact and injured mammalian heart. We demonstrate that limited EPDC‐derived endothelial‐restricted neovascularization constitutes suboptimal “endogenous repair,” following injury, which is significantly augmented by Tβ4 to increase and stabilize the vascular plexus via collateral vessel growth. As such, we identify Tβ4 as a facilitator of cardiac neovascularization and highlight adult EPDCs as resident progenitors which, when instructed by Tβ4, have the capacity to sustain the myocardium after ischemic damage.
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