GGrantIndex
← Search

CYTOKINE REGULATION OF EARLY EVENTS IN BLOOD VESSEL FORM

$178,063R01FY2000HLNIH

Medical University Of South Carolina, Charleston SC

Investigators

Linked publications & trials

Abstract

DESCRIPTION (Adapted from Investigator's Abstract): A fundamental process in the formation of blood vessels (vasculogenesis)is the fusion of networks of endothelial tubes to form larger vessels. This process occurs throughout embryonic development and is perhaps best illustrated in the formation of the individual dorsal aortae from networks of endothelial tubes present along the embryonic axis. The mechanism underlying this fusion process is unknown. Exogenously introduced vascular endothelial cell growth factor (VEGF) can promote hyperfusion of networks. Hyperfusion is a process in which microvessels fuse excessively. This along with the finding that VEGF and its receptors are present in vasculogenic regions of the embryo suggest that the bioavailability of VEGF is strictly regulated during vascular development. Experiments are designed to substantiate the role of VEGF as an in vivo regulator of vascular fusion. A major feature of the proposed experiments is that they will be done in vivo, in the context of well characterized vascularizing regions. The role of VEGF will be evaluated by a series of experiments in which antagonists of the VEGF receptor interactions will be used to perturb the normal pattern of vasculogenesis. Results from this work will likely contribute to a greater understanding of vessel formation as it occurs not only in embryonic development but also in wound healing, and angiogenesis-related diseases such as ocular neovascularization, tumor growth, and hemangiomas.

View original record on NIH RePORTER →