Flt-VEGF-Cx43 Regulation of Vascular Pericyte Investment
Virginia Polytechnic Inst And St Univ, Blacksburg VA
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Abstract
PROJECT SUMMARY / ABSTRACT (DESCRIPTION): Blood vessels deliver nutrients and oxygen throughout the body to sustain the health of every tissue and organ. Many clinical diseases therefore arise from or directly affect the vascular system. Improved insight into vessel growth and maintenance will guide the development of therapeutic strategies to treat debilitating and often life-threatening illnesses associated with blood vessel abnormalities. Pericytes are perivascular cells that wrap around and invest into growing blood vessels, providing essential regulation of vessel stability, maturity and quiescence. Numerous pathologies such as neonatal intracranial hemorrhage, diabetic retinopathy, Alzheimer's disease, and cancer are exacerbated by disrupted vascular function resulting from defects in pericyte-endothelial cell interactions. Despite the importance of pericyte-endothelial interactions in human health and disease, critical gaps in knowledge exist about the mechanism by which pericytes are recruited to and retained at specific locations (i.e. invest) on developing blood vessels. We and others have previously shown that the Vascular Endothelial Growth Factor-A (VEGF-A) pathway, via one of its negative receptors Flt- 1 (VEGF Receptor-1) ? soluble Flt-1 (sFlt-1) in particular ? generates a spatial heterogeneity in endothelial cell phenotypes to promote efficient blood vessel formation (i.e. ?tip? cells sprout and form new vessel branches, ?stalk? cells proliferate and contribute to vessel elongation). Precisely how this endothelial phenotypic heterogeneity contributes to establishing these specific sites for pericyte investment is not well defined. Moreover, the gap junction protein Connexin43 (Cx43) mediates pericyte-endothelial cell interactions during blood vessel formation, but it is not clear how Cx43 modulates pericyte investment downstream of VEGF-A signaling. The overall objective of this research is to investigate the novel hypothesis that sFlt-1 modulates VEGF-A signaling to provide essential regulation of pericyte-endothelial cell interactions through (i) coordination of endothelial phenotypic heterogeneity, and (ii) orchestrated spatial expression of Cx43 on pericytes and endothelial cells. We will test this hypothesis by combining innovative in vitro, ex vivo, and in vivo models with cutting-edge analytical approaches to extend our preliminary observations showing increased pericyte retention at specific locations when VEGF signaling is disrupted, and ?hot spots? of Cx43 expression at blood vessel branch points where pericytes invest. Collaborators will provide expertise in Cx43 biology and in novel imaging approaches that will be essential for thorough investigation of pericyte investment into the blood vessel wall. Combining these innovative approaches, we will deepen our mechanistic understanding of pericyte-endothelial cell interactions and inspire development of novel drugs for human diseases.
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