| Literature DB >> 21068311 |
Carmen Ruiz de Almodovar1, Cathy Coulon, Paul Antoine Salin, Ellen Knevels, Naura Chounlamountri, Koen Poesen, Karlien Hermans, Diether Lambrechts, Katie Van Geyte, Joke Dhondt, Tom Dresselaers, Julie Renaud, Julian Aragones, Serena Zacchigna, Ilse Geudens, David Gall, Stijn Stroobants, Mireille Mutin, Karel Dassonville, Erik Storkebaum, Bénédicte F Jordan, Ulf Eriksson, Lieve Moons, Rudi D'Hooge, Jody J Haigh, Marie-Françoise Belin, Serge Schiffmann, Paul Van Hecke, Bernard Gallez, Stefan Vinckier, Alain Chédotal, Jérôme Honnorat, Nicole Thomasset, Peter Carmeliet, Claire Meissirel.
Abstract
Vascular endothelial growth factor (VEGF) regulates angiogenesis, but also has important, yet poorly characterized roles in neuronal wiring. Using several genetic and in vitro approaches, we discovered a novel role for VEGF in the control of cerebellar granule cell (GC) migration from the external granule cell layer (EGL) toward the Purkinje cell layer (PCL). GCs express the VEGF receptor Flk1, and are chemoattracted by VEGF, whose levels are higher in the PCL than EGL. Lowering VEGF levels in mice in vivo or ectopic VEGF expression in the EGL ex vivo perturbs GC migration. Using GC-specific Flk1 knock-out mice, we provide for the first time in vivo evidence for a direct chemoattractive effect of VEGF on neurons via Flk1 signaling. Finally, using knock-in mice expressing single VEGF isoforms, we show that pericellular deposition of matrix-bound VEGF isoforms around PC dendrites is necessary for proper GC migration in vivo. These findings identify a previously unknown role for VEGF in neuronal migration.Entities:
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Year: 2010 PMID: 21068311 PMCID: PMC6633861 DOI: 10.1523/JNEUROSCI.0477-10.2010
Source DB: PubMed Journal: J Neurosci ISSN: 0270-6474 Impact factor: 6.167