Recent identification of the neonatal 2nd coronary vascular population (2nd CVP) suggests that a subset of these vessels form de novo and mature in the inner myocardial wall of the postnatal heart. However, the origin of smooth muscle cells (SMCs) in the postnatal 2nd CVP remains undetermined. Using a tamoxifen-inducible Wt1-CreER driver and a Rosa26-RFP reporter line, we traced the lineage of epicardial cells to determine if they contribute to SMCs of the 2nd CVP. Late embryonic and postnatal induction of Wt1-CreER activity demonstrated that at these stages Wt1-labeled epicardium does not significantly migrate into the myocardium to form SMCs. However, following tamoxifen treatment at an early embryonic stage (E10.5), we detected Wt1 descendants (epicardium-derived cells, or EPDCs) in the outer myocardial wall at E17.5. When the 2nd CVP forms and remodels at postnatal stage, these early labeled EDPCs re-migrate deep into the inner myocardial wall and contribute to 2nd CVP-SMCs in the adult heart. Our findings reveal that SMCs in the postnatal 2nd CVP are pre-specified as EPDCs from the earliest wave of epicardial cell migration. Rather than the re-activation and migration of epicardial cells at later stages, these resident EPDCs mobilize and contribute to smooth muscle of the 2nd CVP during postnatal development.
Keywords: 2nd coronary vascular population (2nd CVP); Epicardium; Epicardium-derived cells (EPDCs); Lineage tracing; Smooth muscle.
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