ABSTRACT
Despite the absolute requirement of Delta/Notch signaling to activate lateral inhibition during early blood vessel development, many mechanisms remain unclear. Here, we identify EHD2 and EHBP1 as novel regulators of Notch activation in endothelial cells through controlling endocytosis of Delta-like ligand 4 (Dll4). Knockout of EHBP1 and EHD2 in zebrafish produced a significant increase in ectopic sprouts in zebrafish intersomitic vessels during development and a reduction in downstream Notch signaling. In vitro, EHBP1 and EHD2 localized to plasma membrane-bound Dll4 and actin independently of clathrin. Disruption of caveolin endocytosis resulted in EHBP1 and EHD2 failing to organize around Dll4 as well as loss of Dll4 internalization in endothelial cells. Overall, we demonstrate that EHBP1 and EHD2 regulate Dll4 endocytosis by anchoring caveolar endocytic pits to the actin cytoskeleton.
Competing Interest Statement
The authors have declared no competing interest.