Abstract
The epicardium, the outermost layer of the heart, is an essential source of cells and signals for the formation of the cardiac fibrous skeleton and the coronary vasculature, and for the maturation of the myocardium during embryonic development. The molecular factors that control epicardial mobilization and differentiation, and direct the epicardial-myocardial cross-talk are, however, insufficiently understood. The T-box transcription factor gene Tbx18 is specifically expressed in the epicardium of vertebrate embryos. Loss of Tbx18 is dispensable for epicardial development, but may influence coronary vessel maturation. In contrast, over-expression of an activator version of TBX18 severely impairs epicardial development by premature differentiation of epicardial cells into SMCs indicating a potential redundancy of Tbx18 with other repressors of the T-box gene family. Here, we show that Tbx2 and Tbx20 are co-expressed with Tbx18 at different stages of epicardial development. Using a conditional gene targeting approach we find that neither the epicardial loss of Tbx2 nor the combined loss of Tbx2 and Tbx18 affects epicardial development. Similarly, we observed that the heterozygous loss of Tbx20 with and without additional loss of Tbx18 does not impact on epicardial integrity and mobilization in mouse embryos. Thus, Tbx18 does not function redundantly with Tbx2 or Tbx20 in epicardial development.
Highlights
The epicardium is an epithelial monolayer that completely covers the outer surface of the heart
This assay revealed the expression of Tbx18, Tbx20, Tbx2 and Tbx5 in undifferentiated epicardial cells whereas Tbx3 and Tbx1 were not detected (Fig 1A)
From E10.5 to E14.5, Tbx18 expression was detected in the epicardium but not in subepicardial cells in the right ventricle. (Due to endogenous expression of Tbx18 in the myocardium of the left ventricle and the interventricular septum [44], we restricted our analysis on the right ventricle)
Summary
The epicardium is an epithelial monolayer that completely covers the outer surface of the heart. It protects the underlying myocardium and allows mobility of the heart within the pericardial cavity. In addition to this structural role in homeostasis, the epicardium has been recognized as an important source of cells and signals directing and modulating myocardial growth and vascularization both in development and under injury conditions (for recent reviews see [1, 2]). Epicardial development in the mouse starts at embryonic day (E) 9.5 with the formation of the proepicardium, a cauliflower-like mesothelial cell aggregate at the venous pole of the heart.
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