作者
Katrien De Bock,Μαρία Γεωργιάδου,Sandra Schoors,Anna Kuchnio,Brian W. Wong,Anna Rita Cantelmo,Annelies Quaegebeur,Bart Ghesquière,Sandra Cauwenberghs,Guy Eelen,Li‐Kun Phng,Inge Betz,Bieke Tembuyser,Katleen Brepoels,Jonathan Welti,Ilse Geudens,Inmaculada Segura,Bert Cruys,Francesco Bifari,Ilaria Decimo,Raquel Blanco,Sabine Wyns,Jeroen Vangindertael,Susana Rocha,R Collins,Sebastian Munck,Dirk Daelemans,Hiromi Imamura,Roland Devlieger,Mark H. Rider,Paul P. Van Veldhoven,Frans Schuit,Ramón Bartrons,Johan Hofkens,Peter Fraisl,Sucheta Telang,Ralph J. DeBerardinis,Luc Schoonjans,Stefan Vinckier,Jason Chesney,Holger Gerhardt,Mieke Dewerchin,Peter Carmeliet
摘要
Summary
Vessel sprouting by migrating tip and proliferating stalk endothelial cells (ECs) is controlled by genetic signals (such as Notch), but it is unknown whether metabolism also regulates this process. Here, we show that ECs relied on glycolysis rather than on oxidative phosphorylation for ATP production and that loss of the glycolytic activator PFKFB3 in ECs impaired vessel formation. Mechanistically, PFKFB3 not only regulated EC proliferation but also controlled the formation of filopodia/lamellipodia and directional migration, in part by compartmentalizing with F-actin in motile protrusions. Mosaic in vitro and in vivo sprouting assays further revealed that PFKFB3 overexpression overruled the pro-stalk activity of Notch, whereas PFKFB3 deficiency impaired tip cell formation upon Notch blockade, implying that glycolysis regulates vessel branching.
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