Abstract Angiogenesis plays critical roles in the recovery phase of ischemic heart disease and peripheral vascular disease. An increase in autophagy is protective under hypoxic and chronic ischemic conditions. In the present study we determined the role of autophagy in angiogenesis. 3-Methyladenine (3-MA) and small interfering RNA (siRNA) against ATG5 were used to inhibit autophagy induced by nutrient deprivation of cultured bovine aortic endothelial cells (BAECs). Assays of BAECs tube formation and cell migration revealed that inhibition of autophagy by 3-MA or siRNA against ATG5 reduced angiogenesis. In contrast, induction of autophagy by overexpression of ATG5 increased BAECs tube formation and migration. Additionally, inhibiting autophagy impaired vascular endothelial growth factor (VEGF)-induced angiogenesis. However, inhibition of autophagy did not alter the expression of pro-angiogenesis factors such as VEGF, platelet-derived growth factor, or integrin αV. Furthermore, autophagy increased reactive oxygen species (ROS) formation and activated AKT phosphorylation. Inhibition of autophagy significantly decreased the production of ROS and activation of AKT but not of extracellular regulated kinase, whereas overexpression of ATG5 increased cellular ROS production and AKT activation in BAECs. Inhibition of AKT activation or ROS production significantly decreased the tube formation induced by ATG5 overexpression. Here we report a novel observation that autophagy plays an important role in angiogenesis in BAECs. Induction of autophagy promotes angiogenesis while inhibition of autophagy suppresses angiogenesis, including VEGF-induced angiogenesis. ROS production and AKT activation might be important mechanisms for mediating angiogenesis induced by autophagy. Our findings indicate that targeting autophagy may provide an important new tool for treating cardiovascular disease. vascular endothelial growth factor ATG5 reactive oxygen species AKT Copyright © 2012 the American Physiological Society « Previous | Next Article » Table of Contents This Article Published online before print October 2011 , doi: 10.​1152/​ajpcell.​00164.​2011 Am J Physiol Cell Physiol January 2012 vol. 302 no. 2 C383-C391 » Abstract Free Full Text Free to you Full Text (PDF) Free to you All Versions of this Article: ajpcell.00164.2011v1 302/2/C383 most recent Classifications Vascular Biology Services Email this article to a friend Alert me when this article is cited Alert me if a correction is posted Similar articles in this journal Similar articles in Web of Science Similar articles in PubMed Download to citation manager Citing Articles Load citing article information Citing articles via Web of Science Google Scholar Articles by Du, J. Articles by Shi, Y. PubMed PubMed citation Articles by Du, J. Articles by Shi, Y. Related Content Load related web page information Current Issue January 2012, 302 (2) Alert me to new issues of Am J Physiol Cell Physiol About the Journal Information for Authors Submit a Manuscript Ethical Policies AuthorChoice PubMed Central Policy Reprints and Permissions Advertising Press Copyright © 2012 the American Physiological Society Print ISSN: 0363-6143 Online ISSN: 1522-1563 var gaJsHost = (("https:" == document.location.protocol) ? "https://ssl." : "http://www."); document.write(unescape("%3Cscript src='" + gaJsHost + "google-analytics.com/ga.js' type='text/javascript'%3E%3C/script%3E")); var pageTracker = _gat._getTracker("UA-2924550-1"); pageTracker._trackPageview();

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