Preexisting endothelial cells mediate cardiac neovascularization after injury
Lingjuan He, … , Jeffery D. Molkentin, Bin Zhou
Lingjuan He, … , Jeffery D. Molkentin, Bin Zhou
Published June 26, 2017
Citation Information: J Clin Invest. 2017;127(8):2968-2981. https://doi.org/10.1172/JCI93868.
View: Text | PDF
Research Article Angiogenesis Vascular biology Article has an altmetric score of 18

Preexisting endothelial cells mediate cardiac neovascularization after injury

Abstract

The mechanisms that promote the generation of new coronary vasculature during cardiac homeostasis and after injury remain a fundamental and clinically important area of study in the cardiovascular field. Recently, it was reported that mesenchymal-to-endothelial transition (MEndoT) contributes to substantial numbers of coronary endothelial cells after myocardial infarction. Therefore, the MEndoT has been proposed as a paradigm mediating neovascularization and is considered a promising therapeutic target in cardiac regeneration. Here, we show that preexisting endothelial cells mainly beget new coronary vessels in the adult mouse heart, with essentially no contribution from other cell sources through cell-lineage transdifferentiation. Genetic-lineage tracing revealed that cardiac fibroblasts expand substantially after injury, but do not contribute to the formation of new coronary blood vessels, indicating no contribution of MEndoT to neovascularization. Moreover, genetic-lineage tracing with a pulse-chase labeling strategy also showed that essentially all new coronary vessels in the injured heart are derived from preexisting endothelial cells, but not from other cell lineages. These data indicate that therapeutic strategies for inducing neovascularization should not be based on targeting presumptive lineage transdifferentiation such as MEndoT. Instead, preexisting endothelial cells appear more likely to be the therapeutic target for promoting neovascularization and driving heart regeneration after injury.

Authors

Lingjuan He, Xiuzhen Huang, Onur Kanisicak, Yi Li, Yue Wang, Yan Li, Wenjuan Pu, Qiaozhen Liu, Hui Zhang, Xueying Tian, Huan Zhao, Xiuxiu Liu, Shaohua Zhang, Yu Nie, Shengshou Hu, Xiang Miao, Qing-Dong Wang, Fengchao Wang, Ting Chen, Qingbo Xu, Kathy O. Lui, Jeffery D. Molkentin, Bin Zhou

×

Figure 4

Cardiac fibroblasts expand after injury without giving rise to endothelial cells.

Options: View larger image (or click on image) Download as PowerPoint
Cardiac fibroblasts expand after injury without giving rise to endotheli...
(A and C) Whole-mount fluorescence view of Sox9-CreER R26R-tdTomato hearts before (A) and after injury (C). Inserts indicate bright-field view of hearts. (B and D) Immunostaining for tdTomato, PDGFRA, and PECAM on heart sections before (B) and after injury (D). XZ and YZ indicate signals from dotted lines on Z-stack images. Yellow arrowheads indicate PDGFRA+tdTomato+ fibroblasts; white arrowheads indicate PECAM+tdTomato endothelial cells. (E) Flow cytometric analysis of percentage of tdTomato+ cells in PDGFRA+ cell population. (F) Flow cytometric analysis of tdTomato+ cells in PECAM+ endothelial cells from heart before or after injury. (G) Immunostaining for tdTomato and EdU or Ki67 on heart sections before or 3 days after injury. Arrowheads indicate proliferating tdTomato+ cells. (H) Quantification of percentage of proliferating tdTomato+ cells. Data are represented as mean ± SEM. n = 4. *P < 0.05, 2-tailed Student’s t test. Scale bars: 1 mm (A, C); 100 μm (B, D, G).