Acetylation-dependent regulation of endothelial Notch signalling by the SIRT1 deacetylase

被引:0
|
作者
Virginia Guarani
Gianluca Deflorian
Claudio A. Franco
Marcus Krüger
Li-Kun Phng
Katie Bentley
Louise Toussaint
Franck Dequiedt
Raul Mostoslavsky
Mirko H. H. Schmidt
Barbara Zimmermann
Ralf P. Brandes
Marina Mione
Christoph H. Westphal
Thomas Braun
Andreas M. Zeiher
Holger Gerhardt
Stefanie Dimmeler
Michael Potente
机构
[1] Institute for Cardiovascular Regeneration,Department of Cardiac Development and Remodeling
[2] Centre of Molecular Medicine,Department of Cardiology
[3] Goethe University,undefined
[4] IFOM,undefined
[5] the FIRC Institute of Molecular Oncology,undefined
[6] IFOM-IEO Campus,undefined
[7] Vascular Biology Laboratory,undefined
[8] London Research Institute – Cancer Research UK,undefined
[9] Max Planck Institute for Heart and Lung Research,undefined
[10] Laboratory of Protein Signaling and Interactions,undefined
[11] GxABT,undefined
[12] B-5030 Gembloux and Interdisciplinary Cluster for Applied Genoproteomics (GIGA-R),undefined
[13] University of Liege,undefined
[14] Massachusetts General Hospital Cancer Center,undefined
[15] Harvard Medical School,undefined
[16] Molecular Signal Transduction,undefined
[17] Institute of Neurology (Edinger Institute),undefined
[18] Goethe University,undefined
[19] Vascular Research Centre,undefined
[20] Institute for Cardiovascular Physiology,undefined
[21] Goethe University,undefined
[22] Sirtris,undefined
[23] a GSK Company,undefined
[24] Internal Medicine III,undefined
[25] Goethe University,undefined
[26] Consultant Group Leader,undefined
[27] Vascular Patterning Laboratory,undefined
[28] Vesalius Research Center,undefined
[29] VIB,undefined
[30] Campus Gasthuisberg,undefined
[31] Present address: Cell Biology and Biophysics,undefined
[32] European Molecular Biology Laboratory,undefined
[33] D-69117 Heidelberg,undefined
[34] Germany.,undefined
来源
Nature | 2011年 / 473卷
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摘要
Notch signalling coordinates angiogenesis by controlling the specification of endothelial cells into tip cells that lead the way in growing blood vessels and the stalk cells that follow. Michael Potente and colleagues have identified a previously unknown component in Notch signalling regulation in endothelial cells that may provide a mechanism for fine-tuning angiogenesis in response to metabolic requirements and angiogenic stress. They show that the metabolism- and redox-sensing deacetylase SIRT1 deacetylates the Notch1 intracellular domain directly, thereby controlling its stability and turnover and negatively modulating Notch signalling. Inactivation of SIRT1 impairs angiogenesis in zebrafish and mice.
引用
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页码:234 / 238
页数:4
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