Lineage tracing using Wnt2b‐2A‐CreERT2 knock‐in mice reveals the contributions of Wnt2b‐expressing cells to novel subpopulations of mesothelial/epicardial cell lineages during mouse development

Abstract

AbstractMesothelial and epicardial cells give rise to various types of mesenchymal cells via epithelial (mesothelial)‐to‐mesenchymal transition during development. However, the genes controlling the differentiation and diversification of mesothelial/epicardial cells remain unclear. Here, we examined Wnt2b expression in the embryonic mesothelium and epicardium and performed lineage tracing of Wnt2b‐expressing cells by using novel Wnt2b‐2A‐CreERT2 knock‐in and LacZ‐reporter mice. Wnt2b was expressed in mesothelial cells covering visceral organs, but the expression was restricted in their subpopulations. Wnt2b‐expressing cells labeled at embryonic day (E) 10.5 were distributed to the mesothelium and mesenchyme in the lungs, abdominal wall, stomach, and spleen in Wnt2b2A‐CreERT2/+;R26RLacZ/+ mice at E13.0. Wnt2b was initially expressed in the proepicardial organ (PEO) at E9.5 and then in the epicardium after E10.0. Wnt2b‐expressing PEO cells labeled at E9.5 differentiated into a small fraction of cardiac fibroblasts and preferentially localized at the left side of the postnatal heart. LacZ+ epicardium‐derived cells labeled at E10.5 differentiated into a small fraction of fibroblasts and smooth muscle cells in the postnatal heart. Taken together, our results reveal novel subpopulations of PEO and mesothelial/epicardial cells that are distinguishable by Wnt2b expression and elucidate the unique contribution of Wnt2b‐expressing PEO and epicardial cells to the postnatal heart.