Add to ORKGEndothelial sprouting and proliferation are tightly coordinated processes mediating the formation of new blood vessels during physiological and pathological angiogenesis. Endothelial tip cells lead sprouts and are thought to suppress tip-like behaviour in adjacent stalk endothelial cells by activating Notch. Here, we show with genetic experiments in postnatal mice that the level of active Notch signalling is more important than the direct Dll4-mediated cell-cell communication between endothelial cells. We identify endothelial expression of VEGF-A and of the chemokine receptor CXCR4 as key processes controlling Notch-dependent vessel growth. Surprisingly, genetic experiments targeting endothelial tip cells in vivo reveal that they retain the...
Recent evidence indicates that growing blood-vessel sprouts consist of endothelial cells with distin...
The Delta-Notch pathway is a signal exchanger between adjacent cells to regulate numerous differenti...
Notch1-Delta-like 4 (Dll4) signaling controls vascular development by regulating endothelial cell (E...
In sprouting angiogenesis, specialized endothelial tip cells lead the outgrowth of blood-vessel spro...
ECs (endothelial cells) in the developing vasculature are heterogeneous in morphology, function and ...
Rationale: In developing blood vessels, single endothelial cells (ECs) specialize into tip cells tha...
ECs (endothelial cells) in the developing vasculature are heterogeneous in morphology, function and ...
SummaryThe Notch pathway is a highly conserved signaling system that controls a diversity of growth,...
Blood vessels and nerves are structurally similar, complex branched networks that require guidance t...
SummaryThe Notch pathway is a highly conserved signaling system that controls a diversity of growth,...
Formation of a regularly branched blood vessel network is crucial in development and physiology. Her...
Developing tissues and growing tumours produce vascular endothelial growth factors (VEGFs), leading ...
Notch receptors are important mediators of cell fate during embryogenesis, but their role in adult p...
Notch receptors are important mediators of cell fate during embryogenesis, but their role in adult p...
Vascular patterning involves sprouting of blood vessels, which is governed by orchestrated communica...
Recent evidence indicates that growing blood-vessel sprouts consist of endothelial cells with distin...
The Delta-Notch pathway is a signal exchanger between adjacent cells to regulate numerous differenti...
Notch1-Delta-like 4 (Dll4) signaling controls vascular development by regulating endothelial cell (E...
In sprouting angiogenesis, specialized endothelial tip cells lead the outgrowth of blood-vessel spro...
ECs (endothelial cells) in the developing vasculature are heterogeneous in morphology, function and ...
Rationale: In developing blood vessels, single endothelial cells (ECs) specialize into tip cells tha...
ECs (endothelial cells) in the developing vasculature are heterogeneous in morphology, function and ...
SummaryThe Notch pathway is a highly conserved signaling system that controls a diversity of growth,...
Blood vessels and nerves are structurally similar, complex branched networks that require guidance t...
SummaryThe Notch pathway is a highly conserved signaling system that controls a diversity of growth,...
Formation of a regularly branched blood vessel network is crucial in development and physiology. Her...
Developing tissues and growing tumours produce vascular endothelial growth factors (VEGFs), leading ...
Notch receptors are important mediators of cell fate during embryogenesis, but their role in adult p...
Notch receptors are important mediators of cell fate during embryogenesis, but their role in adult p...
Vascular patterning involves sprouting of blood vessels, which is governed by orchestrated communica...
Recent evidence indicates that growing blood-vessel sprouts consist of endothelial cells with distin...
The Delta-Notch pathway is a signal exchanger between adjacent cells to regulate numerous differenti...
Notch1-Delta-like 4 (Dll4) signaling controls vascular development by regulating endothelial cell (E...