Formation of the arterial system is a complex series of steps that is, as yet, poorly understood. The process is largely driven by vascular endothelial growth factor (VEGF) and results in formation of new arteries during embryonic development and in adult tissues. In the previous funding cycle we have uncovered novel regulatory steps that appear to play central roles in regulation of arterial growth and branching. The current proposal is aimed at further our understanding of these events and beginning development of novel therapeutic strategies that can help millions of people with ischemic cardiovascular diseases. In particular, we propose to explore the role of a novel control point that affects two major signaling input to endothelial cells- the survival/vessel maintenance signal (Akt/eNOS) and the vessel growth signal (ERK). A detailed understanding of how this regulation is accomplished would go a long way to developing drugs that could [promote growth of new arteries. In addition, we propose to explore another novel aspect of VEGF signaling discovered by our lab- spatial control of VEGF receptor 2 (VEGFR2) signaling. These studies will explore where in the cell VEGFR2 signals, what controls its trafficking and how that process is regulated. Finally, with this knowledge in hand, we will explore how elevated cholesterol levels impair VEGF signaling and what steps can be taken to overcome that. Taken together, this is a comprehensive program aimed at further our understanding of a key biological process, arteriogenesis, that may result in development of new therapeutic approaches to treatment of coronary and peripheral;arterial diseases.
The discovery of a signaling cascade controlling growth of new arteries will provide new insights and tools into developing new therapeutic strategies for treatment of atherosclerotic cardiovascular diseases including coronary, cerebral and peripheral vascular diseases.
| Kofler, Natalie; Corti, Federico; Rivera-Molina, Felix et al. (2018) The Rab-effector protein RABEP2 regulates endosomal trafficking to mediate vascular endothelial growth factor receptor-2 (VEGFR2)-dependent signaling. J Biol Chem 293:4805-4817 |
| Chen, Dongying; Simons, Michael (2018) Reprogramming the Endocardium: Trials and Tribulations. Circ Res 122:913-915 |
| Yu, Pengchun; Wu, Guosheng; Lee, Heon-Woo et al. (2018) Endothelial Metabolic Control of Lymphangiogenesis. Bioessays 40:e1700245 |
| Yu, Pengchun; Wilhelm, Kerstin; Dubrac, Alexandre et al. (2017) FGF-dependent metabolic control of vascular development. Nature 545:224-228 |
| Corti, Federico; Simons, Michael (2017) Modulation of VEGF receptor 2 signaling by protein phosphatases. Pharmacol Res 115:107-123 |
| Chen, Pei-Yu; Simons, Michael (2016) When endothelial cells go rogue. EMBO Mol Med 8:1-2 |
| Kofler, Natalie; Simons, Michael (2016) The expanding role of neuropilin: regulation of transforming growth factor-? and platelet-derived growth factor signaling in the vasculature. Curr Opin Hematol 23:260-7 |
| Simons, Michael; Eichmann, Anne (2015) Molecular controls of arterial morphogenesis. Circ Res 116:1712-24 |
| Eelen, Guy; de Zeeuw, Pauline; Simons, Michael et al. (2015) Endothelial cell metabolism in normal and diseased vasculature. Circ Res 116:1231-44 |
| Deng, Yong; Zhang, Xi; Simons, Michael (2015) Molecular controls of lymphatic VEGFR3 signaling. Arterioscler Thromb Vasc Biol 35:421-9 |
Showing the most recent 10 out of 44 publications
