TY - JOUR
T1 - Physiological Role of Vascular Endothelial Growth Factors as Homeostatic Regulators
AU - Bates, Dave O
AU - Beazley-Long, Nick
AU - Benest, Andrew
AU - Ye, Xi
AU - Ved, Nikki
AU - Hulse, Richard
AU - Barratt, Shaney
AU - Machado, Maria
AU - Donaldson, Lucy F
AU - Harper, Steven
AU - Peiris-Pages, Maria
AU - Tortonese, Domingo
AU - Oltean, Sebastian
AU - Foster, Rebecca R
PY - 2018/6/18
Y1 - 2018/6/18
N2 - The vascular endothelial growth factor (VEGF) family of proteins are key regulators of physiological systems. Originally linked with endothelial function, they have since become understood to be principal regulators of multiple tissues, both through their actions on vascular cells, but also through direct actions on other tissue types, including epithelial cells, neurons, and the immune system. The complexity of the five members of the gene family in terms of their different splice isoforms, differential translation, and specific localizations have enabled tissues to use these potent signaling molecules to control how they function to maintain their environment. This homeostatic function of VEGFs has been less intensely studied than their involvement in disease processes, development, and reproduction, but they still play a substantial and significant role in healthy control of blood volume and pressure, interstitial volume and drainage, renal and lung function, immunity, and signal processing in the peripheral and central nervous system. The widespread expression of VEGFs in healthy adult tissues, and the disturbances seen when VEGF signaling is inhibited support this view of the proteins as endogenous regulators of normal physiological function. This review summarizes the evidence and recent breakthroughs in understanding of the physiology that is regulated by VEGF, with emphasis on the role they play in maintaining homeostasis.
AB - The vascular endothelial growth factor (VEGF) family of proteins are key regulators of physiological systems. Originally linked with endothelial function, they have since become understood to be principal regulators of multiple tissues, both through their actions on vascular cells, but also through direct actions on other tissue types, including epithelial cells, neurons, and the immune system. The complexity of the five members of the gene family in terms of their different splice isoforms, differential translation, and specific localizations have enabled tissues to use these potent signaling molecules to control how they function to maintain their environment. This homeostatic function of VEGFs has been less intensely studied than their involvement in disease processes, development, and reproduction, but they still play a substantial and significant role in healthy control of blood volume and pressure, interstitial volume and drainage, renal and lung function, immunity, and signal processing in the peripheral and central nervous system. The widespread expression of VEGFs in healthy adult tissues, and the disturbances seen when VEGF signaling is inhibited support this view of the proteins as endogenous regulators of normal physiological function. This review summarizes the evidence and recent breakthroughs in understanding of the physiology that is regulated by VEGF, with emphasis on the role they play in maintaining homeostasis.
U2 - 10.1002/cphy.c170015
DO - 10.1002/cphy.c170015
M3 - Review article (Academic Journal)
C2 - 29978898
SN - 2040-4603
VL - 8
SP - 955
EP - 979
JO - Comprehensive Physiology
JF - Comprehensive Physiology
IS - 3
ER -