Hypoxia-induced insulin-like growth factor II contributes to retinal vascularization in ocular development

Abstract

In ocular development, retinal physiological hypoxia in response to the retinal metabolic activity controls retinal vascular development, which is regulated by variable angiogenic factors. Herein, we demonstrated that hypoxia-induced IGF-II could contribute to retinal vascularization in ocular development. In the developing retina, IGF-II expression appears to be predominant on retinal vessels, which was chronologically increased and peaked during active retinal angiogenesis similar to VEGF expression. Under hypoxic condition, IGF-II as well as VEGF was significantly up-regulated in retinal vascular endothelial cells. In addition, IGF-II treatment could also increase VEGF expression in retinal vascular endothelial cells. The VEGF expression induced by IGF-II was mediated by ERK-1/2 activation. Moreover, IGF-II strongly promoted angiogenic processes of migration and tube formation of retinal microvascular endothelial cells. In conclusion, our results provided that hypoxia-induced IGF-II may regulate retinal vascular development not only directly by IGF-II-mediated angiogenic activity, but also indirectly by IGF-II-induced VEGF expression. Therefore, the potential contribution of IGF-II to pathological retinal angiogenesis should be furthermore explored for the development of novel treatments to vaso-proliferative retinopathies.