Jostling for position in angiogenic sprouts: continuous rearrangement of cells explained by differential adhesion dynamics

Endothelial sprouting during angiogenesis is a highly coordinated morphogenetic process that involves polarized tip cells leading stalk cells to form new capillaries. While tip and stalk cells previously were thought to be stable and have static phenotypes within the sprout, it is becoming increasingly clear that endothelial cells undergo dynamic rearrangements. A new study using computer simulations, validated by in vitro and in vivo experimental data, now provides an explanation for these rearrangements, showing that sprouting cells are in a continuum of migratory states, regulated by differential cell‐cell adhesions and protrusive activities to drive proper vascular organization.