Capillary Sprouts Restrict Macromolecular Extravasation during Normal Angiogenesis in the Chick Chorioallantoic Membrane

During angiogenesis in the chorioallantoic membrane (CAM) of the chick, capillary proliferation occurs primarily by intussusceptive growth. Previously, we reported that such growth in the CAM proceeded without substantial macromolecular extravasation. Neovascularization involving capillary sprout formation, on the other hand, has been associated with a concomitant loss of endothelial selectivity. Thus, the present study tested the hypothesis that endothelial selectivity during angiogenesis is dependent on the mode of microvascular growth. Capillary sprout formation occurs in peripheral regions of the CAM, in addition to the more centrally located areas of intussusceptive growth. In this study, angiogenic endothelial permselectivities were evaluated in these respective areas of CAM microvascular growth by intravital fluorescent microscopy of a graded series of FITC-dextrans. In both cases, the angiogenic endothelia restricted extravasation of macromolecules ≥20 kDa. Furthermore, capillary sprout endothelia, like the intussusceptive CAM endothelia, remained tightly sealed at the junctional clefts. Thus, angiogenic endothelial permselectivity in the CAM is not dependent on the mode of microvascular growth. Whether distinct cellular mechanisms are operable in capillary endothelial sprouts of the CAM, relative to those of other proliferating sprout endothelia, remains to be tested.