Recapitulation of developmental mechanisms to revascularize the ischemic heart
Karina N. Dubé, … , Paul R. Riley, Nicola Smart
Karina N. Dubé, … , Paul R. Riley, Nicola Smart
Published November 16, 2017
Citation Information: JCI Insight. 2017;2(22):e96800. https://doi.org/10.1172/jci.insight.96800.
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Research Article Cardiology

Recapitulation of developmental mechanisms to revascularize the ischemic heart

Abstract

Restoring blood flow after myocardial infarction (MI) is essential for survival of existing and newly regenerated tissue. Endogenous vascular repair processes are deployed following injury but are poorly understood. We sought to determine whether developmental mechanisms of coronary vessel formation are intrinsically reactivated in the adult mouse after MI. Using pulse-chase genetic lineage tracing, we establish that de novo vessel formation constitutes a substantial component of the neovascular response, with apparent cellular contributions from the endocardium and coronary sinus. The adult heart reverts to its former hypertrabeculated state and repeats the process of compaction, which may facilitate endocardium-derived neovascularization. The capacity for angiogenic sprouting of the coronary sinus vein, the adult derivative of the sinus venosus, may also reflect its embryonic origin. The quiescent epicardium is reactivated and, while direct cellular contribution to new vessels is minimal, it supports the directional expansion of the neovessel network toward the infarcted myocardium. Thymosin β4, a peptide with roles in vascular development, was required for endocardial compaction, epicardial vessel expansion, and smooth muscle cell recruitment. Insight into pathways that regulate endogenous vascular repair, drawing on comparisons with development, may reveal novel targets for therapeutically enhancing neovascularization.

Authors

Karina N. Dubé, Tonia M. Thomas, Sonali Munshaw, Mala Rohling, Paul R. Riley, Nicola Smart

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Figure 12

Neovascularization is diminished in the infarct border zone of thymosin β4 KO hearts.

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Neovascularization is diminished in the infarct border zone of thymosin ...
By immunofluorescence, vascular density within the border zone was significantly reduced in Tβ4KO hearts, compared with WT (AD, quantified in E), and vessels appeared less mature (B, compared with A). Fewer vessels acquired smooth muscle support (D, compared with C, quantified in F). By qRT-PCR, endothelial cell markers were not significantly reduced, with the exception of endoglin (G), whereas smooth muscle markers, Acta2, Sm22a and Notch3, were all significantly reduced in Tβ4KO hearts (H). These differences were reflected in quantification of immunofluorescence signal intensity, showing no significant reduction of endothelial markers (I) but a significant reduction of smooth muscle markers (J). Sections are representative of n = 9 hearts per genotype and n = 9 quantified. BZ, border zone; endo, endocardium; epi, epicardium. Scale bars: 500 μm (A and B); 50 μm (C and D). Statistical analyses (E and F): Mann-Whitney test (2-tailed); (GJ) 2-way ANOVA with Bonferroni correction for multiple comparisons; scatter plots: each data point represents a separate animal with mean ± SEM; box-and-whisker plots show mean ± minimum/maximum; *P ≤ 0.05, **P ≤ 0.01.