Notch signaling has been shown to regulate various aspects of vascular development. However, a specific role of the ligand Delta-like 1 (DLL1) has not been shown thus far. Here, we demonstrate that during fetal development, DLL1 is an essential Notch ligand in the vascular endothelium of large arteries to activate Notch1 and maintain arterial identity. DLL1 was detected in fetal arterial endothelial cells beginning at embryonic day 13.5. While DLL4-mediated activation has been shown to suppress vascular endothelial growth factor (VEGF) pathway components in growing capillary beds, DLL1-Notch signaling was required for VEGF receptor expression in fetal arteries. In the absence of DLL1 function, VEGF receptor 2 (VEGFR2) and its coreceptor, neuropilin-1 (NRP1), were down-regulated in mutant arteries, which was followed by up-regulation of chicken ovalbumin upstream promoter-transcription factor II (COUP- TFII
IntroductionA functional cardiovascular system with precisely formed and connected arteries and veins is established early during mammalian embryogenesis and is essential for subsequent development and survival. First, endothelial precursors, the angioblasts, differentiate into endothelial cells and form a primitive vascular network in a process called vasculogenesis. These first vessels are simple tubes composed entirely of endothelial cells. Subsequently, the simple vascular network is remodeled into a hierarchical network of veins, arteries and capillaries in a process called angiogenesis. 1 Angiogenesis is a precisely orchestrated multistep process that involves localized cell proliferation and migration, the extension of endothelial sprouts and their conversion into patent tubules, as well as the selective pruning of some vessel connections. During angiogenesis, the division into morphologically, functionally, and molecularly unique arteries and veins is established and supporting cell types, such as smooth muscle cells and pericytes, are recruited to form mature and fully functional vessels. 2 Vascular endothelial growth factor (VEGF) signaling is essential for establishment of the embryonic vasculature as is indicated by absence or severe malformations of vessels in embryos lacking VEGF or its receptors (reviewed in Rossant and Howard 3 ). Early during angiogenesis, ie, before development of a functional circulation, the distinction between arteries and veins is established in a process termed arteriovenous differentiation. Accordingly, certain markers and signaling molecules, such as the transmembrane protein ephrinB2 (EFNB2), are specifically expressed in the endothelium of developing arteries. Conversely, the expression of the receptor tyrosine kinase EPHB4, an interaction partner of ephrinB2, and other gene products are confined to the venous endothelium. Loss of either EphrinB2 or EPHB4 leads to very similar defects in vascular remodeling, suggesting that they mediate bidirectional signaling essential for angiogenesis and the establishment of boundaries between venous and arterial domains. [4][5][6...
