Arteriogenesis is the process of formation of new arterial blood vessels during development or in the adult circulation. In development it entails formation of new endothelial vascular structures with arterial identity as defined by expression of key markers such ephrin B2 and neuropilin 1 followed by acquisition of the media and adventitia. In the adult circulation new arteries arise either by expansion of the pre-existing arterial vascular structures or de novo. Deletion of VEGF, its receptor VEGFR2 or key intracellular signaling mediators results in failure of arterial vasculature development. Defective arteriogenesis is noted in other setting including deletion of eNOS or in disease states such as diabetes and hypercholesterolemia and this failure contributes greatly to morbidity u and mortality associated with these diseases. Nevertheless, the entire process is little understood and there are no currently successful approaches to deal with its defects in clinical settings. Understanding of molecular mechanism regulating arteriogenesis would be of great benefit to our understanding of pathobiology of major cardiovascular illnesses and to development of new therapeutic approaches to combat them. In this PPG we propose a comprehensive approach to investigate the molecular basis of arteriogenesis and to develop new intellectual framework for therapeutic advances in this field. To this end, we will investigate a novel signaling pathway that seems to be critical to arteriogenesis (Project 1), study contributions of nitricoxide and the extracellular matrix (Project 2), evaluate the central role of mTOR in balancing various arteriogenic signaling inputs (Project 3) and determine the role of shear stress and other mechanical factors in initiating arteriogenesis in adult tissues (Project 4). The purpose of Core A is to coordinate programs of the entire PPG by providing scientific administration, scientific enhancement (speakers and seminars), and providing grant and program management.

National Institute of Health (NIH)
National Heart, Lung, and Blood Institute (NHLBI)
Research Program Projects (P01)
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Heart, Lung, and Blood Program Project Review Committee (HLBP)
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Yale University
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Chen, Dongying; Simons, Michael (2018) Reprogramming the Endocardium: Trials and Tribulations. Circ Res 122:913-915
MacLauchlan, Susan C; Calabro, Nicole E; Huang, Yan et al. (2018) HIF-1? represses the expression of the angiogenesis inhibitor thrombospondin-2. Matrix Biol 65:45-58
Zhang, Feng; Zarkada, Georgia; Han, Jinah et al. (2018) Lacteal junction zippering protects against diet-induced obesity. Science 361:599-603
Yu, Pengchun; Wu, Guosheng; Lee, Heon-Woo et al. (2018) Endothelial Metabolic Control of Lymphangiogenesis. Bioessays 40:e1700245
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
Bellini, C; Kristofik, N J; Bersi, M R et al. (2017) A hidden structural vulnerability in the thrombospondin-2 deficient aorta increases the propensity to intramural delamination. J Mech Behav Biomed Mater 71:397-406
Dejana, Elisabetta; Hirschi, Karen K; Simons, Michael (2017) The molecular basis of endothelial cell plasticity. Nat Commun 8:14361
Conway, Daniel E; Coon, Brian G; Budatha, Madhusudhan et al. (2017) VE-Cadherin Phosphorylation Regulates Endothelial Fluid Shear Stress Responses through the Polarity Protein LGN. Curr Biol 27:2727
Conway, Daniel E; Coon, Brian G; Budatha, Madhusudhan et al. (2017) VE-Cadherin Phosphorylation Regulates Endothelial Fluid Shear Stress Responses through the Polarity Protein LGN. Curr Biol 27:2219-2225.e5
Baeyens, Nicolas; Bandyopadhyay, Chirosree; Coon, Brian G et al. (2016) Endothelial fluid shear stress sensing in vascular health and disease. J Clin Invest 126:821-8

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