George E Davis1, Donald R Senger. 1. Department of Medical Pharmacology and Physiology, University of Missouri School of Medicine, Columbia, Missouri 65212, USA. DavisGeo@missouri.edu
Abstract
PURPOSE OF REVIEW: We discuss very recent studies that address the critical role of extracellular matrix in controlling the balance between vascular morphogenesis and regression. Much of this work suggests that a balance mechanism exists for controlling the extent of tissue vascularization involving downstream signaling events regulating endothelial cell behaviors in relation to their interactions with extracellular matrix molecules. RECENT FINDINGS: Endothelial gene expression changes and signaling lead to events that not only stimulate vascular morphogenesis but also suppress mechanisms mediated through pro-regression factors such as Rho kinase. At the same time, vascular networks are susceptible to regression mediated by factors such as matrix metalloproteinase-1, matrix metalloproteinase-10, thrombospondin-1, extracellular matrix matricryptic fragments and angiopoietin-2. Pericyte recruitment to such vascular tubes can prevent regression events by delivering molecules such as tissue inhibitor of metalloproteinase-3 and angiopoietin-1 that promote vascular stabilization by decreasing tube susceptibility to these regression stimuli. SUMMARY: Extracellular matrix-derived signals lead to critical morphologic changes mediated through cytoskeletal rearrangements that control the shape, function and signaling events in endothelial cell-lined vessels regulating tube formation, remodeling, stabilization and regression. These signals control both vascular morphogenic and regression events, and thus a molecular balance exists to control the extent and function of vascular tube networks within tissues.
PURPOSE OF REVIEW: We discuss very recent studies that address the critical role of extracellular matrix in controlling the balance between vascular morphogenesis and regression. Much of this work suggests that a balance mechanism exists for controlling the extent of tissue vascularization involving downstream signaling events regulating endothelial cell behaviors in relation to their interactions with extracellular matrix molecules. RECENT FINDINGS: Endothelial gene expression changes and signaling lead to events that not only stimulate vascular morphogenesis but also suppress mechanisms mediated through pro-regression factors such as Rho kinase. At the same time, vascular networks are susceptible to regression mediated by factors such as matrix metalloproteinase-1, matrix metalloproteinase-10, thrombospondin-1, extracellular matrix matricryptic fragments and angiopoietin-2. Pericyte recruitment to such vascular tubes can prevent regression events by delivering molecules such as tissue inhibitor of metalloproteinase-3 and angiopoietin-1 that promote vascular stabilization by decreasing tube susceptibility to these regression stimuli. SUMMARY: Extracellular matrix-derived signals lead to critical morphologic changes mediated through cytoskeletal rearrangements that control the shape, function and signaling events in endothelial cell-lined vessels regulating tube formation, remodeling, stabilization and regression. These signals control both vascular morphogenic and regression events, and thus a molecular balance exists to control the extent and function of vascular tube networks within tissues.
Authors: Stephen Tottey; Mirko Corselli; Eric M Jeffries; Ricardo Londono; Bruno Peault; Stephen F Badylak Journal: Tissue Eng Part A Date: 2010-09-06 Impact factor: 3.845
Authors: Amber N Stratman; W Brian Saunders; Anastasia Sacharidou; Wonshill Koh; Kevin E Fisher; David C Zawieja; Michael J Davis; George E Davis Journal: Blood Date: 2009-04-01 Impact factor: 22.113
Authors: James D San Antonio; Jason J Zoeller; Kari Habursky; Kevin Turner; Wittaya Pimtong; Michelle Burrows; Sungwook Choi; Sandeep Basra; Joel S Bennett; William F DeGrado; Renato V Iozzo Journal: Am J Pathol Date: 2009-08-21 Impact factor: 4.307
Authors: Cammi N Valdez; Joseph F Arboleda-Velasquez; Dhanesh S Amarnani; Leo A Kim; Patricia A D'Amore Journal: Am J Pathol Date: 2014-08-01 Impact factor: 4.307