Abstract 391: Insulin-like Growth Factors Promote Vasculogenesis in Embryonic Stem Cells
The ability of embryonic stem cells to differentiate into endothelium and form functional blood vessels has been well established and can potentially be harnessed for therapeutic angiogenesis. However, after almost two decades of investigation in this field, limited knowledge exists for directing endothelial differentiation. A better understanding of the cellular mechanisms regulating vasculogenesis is required for the development of embryonic stem cell-based models and therapies. In this study, we elucidated the mechanistic role of insulin-like growth factors (IGF1 and 2) and IGF receptors (IGFR1 and 2) in endothelial differentiation using an embryonic stem cell embryoid body model. Both IGF1 and IGF2 predisposed embryonic stem to differentiate towards a mesodermal lineage, the endothelial precursor germ layer, as well as increased the generation of significantly more endothelial cells at later stages. Interestingly, differentiation into other mesoderm lineages was not augmented while endothelial cell differentiation was significantly increased. The percentage of endothelial cells within differentiated embryoid bodies was amplified by greater than 7% in embryoid bodies, a substantial increase compared to other characterized vasculogenic factors like VEGF. Inhibition of IGFR1 signaling using neutralizing antibody or a pharmacological inhibitor, picropodophyllin, significantly reduced IGF-induced mesoderm and endothelial precursor cell formation. We confirmed that IGF-IGFR1 signaling stabilizes HIF1[[Unsupported Character - Symbol Font α]] and leads to up-regulation of VEGF during vasculogenesis in embryoid bodies, which may be one of the critical mechanisms of IGF-induced promotion of vasculogenesis. Understanding the mechanisms that
are critical for vasculogenesis in various models will bring us one step closer to enabling cell based therapies for neovascularization.
- © 2012 by American Heart Association, Inc.