VEGF regulates relative allocation of Isl1 + cardiac progenitors to myocardial and endocardial lineages.

A fundamental issue in organogenesis is how dichotomous fate decisions are made securing proper allocation of multipotent progenitors to their respective descendants. Previous lineage tracing analyses showing Isl1+ /VEGFR2+ cardiac progenitors in the second heart field give rise to both endocardium and myocardium suggest VEGF plays a role in this fate decision, conceivably promoting an endocardial fate. Isl1+ multipotent progenitors and lineage-committed descendants thereof were visualized and quantified within their transition zone in the outflow tract. Forced VEGF expression during the critical E8.5-E10.5 interval tilted the balance between myocardial- and endocardial-committed progenitors towards the latter, culminating in generation of surplus endocardium developing at the expense of a much thinner myocardium. Experiments ruled-out that surplus endocardium is due to VEGF-induced endocardial proliferation and that reduced myocardium is due to myocardial apoptosis. Inducing VEGF after most Isl1+ progenitors have been exhausted had no effect on the normal endocardia/myocardial ratio but instead produced an unrelated coronary phenotype. Together, these results uncover a novel role for VEGF in controlling proper allocation of Isl1+ cardiac progenitors to their respective descending lineages.