[HTML][HTML] Genes regulating lymphangiogenesis control venous valve formation and maintenance in mice

E Bazigou, OTA Lyons, A Smith… - The Journal of …, 2011 - Am Soc Clin Investig
E Bazigou, OTA Lyons, A Smith, GE Venn, C Cope, NA Brown, T Makinen
The Journal of clinical investigation, 2011Am Soc Clin Investig
Chronic venous disease and venous hypertension are common consequences of valve
insufficiency, yet the molecular mechanisms regulating the formation and maintenance of
venous valves have not been studied. Here, we provide what we believe to be the first
description of venous valve morphogenesis and identify signaling pathways required for the
process. The initial stages of valve development were found to involve induction of ephrin-
B2, a key marker of arterial identity, by venous endothelial cells. Intriguingly, developing and …
Chronic venous disease and venous hypertension are common consequences of valve insufficiency, yet the molecular mechanisms regulating the formation and maintenance of venous valves have not been studied. Here, we provide what we believe to be the first description of venous valve morphogenesis and identify signaling pathways required for the process. The initial stages of valve development were found to involve induction of ephrin-B2, a key marker of arterial identity, by venous endothelial cells. Intriguingly, developing and mature venous valves also expressed a repertoire of proteins, including prospero-related homeobox 1 (Prox1), Vegfr3, and integrin-α9, previously characterized as specific and critical regulators of lymphangiogenesis. Using global and venous valve–selective knockout mice, we further demonstrate the requirement of ephrin-B2 and integrin-α9 signaling for the development and maintenance of venous valves. Our findings therefore identified molecular regulators of venous valve development and maintenance and highlighted the involvement of common morphogenetic processes and signaling pathways in controlling valve formation in veins and lymphatic vessels. Unexpectedly, we found that venous valve endothelial cells closely resemble lymphatic (valve) endothelia at the molecular level, suggesting plasticity in the ability of a terminally differentiated endothelial cell to take on a different phenotypic identity.
The Journal of Clinical Investigation