BACKGROUND: Alteration of the circadian rhythm and increased vascular senescence are linked to cardiovascular disease. Per2, a circadian gene, is known to regulate endothelium-dependent vasomotion. However, the mechanism by which Per2 affects endothelial function is unknown. We hypothesize that endothelial dysfunction in Per2 mutant (Per2(m/m)) mice is mediated in part by increased vascular senescence and impaired endothelial progenitor cell (EPC) function. METHODS AND RESULTS: Endothelial cells from Per2(m/m) mice exhibit increased protein kinase Akt signaling, greater senescence, and impaired vascular network formation and proliferation. Indeed, Per2(m/m) mice have impaired blood flow recovery and developed autoamputation of the distal limb when subjected to hind-limb ischemia. Furthermore, matrigel implantation into Per2(m/m) mice resulted in less neovascularization. Because EPCs contribute to angiogenesis, we studied the role of Per2 in these cells using bone marrow transplantation. Basal EPC levels were similar between wild-type and Per2(m/m) mice. However, compared with wild-type bone marrow transplantation mice, EPC mobilization was impaired in Per2(m/m) bone marrow transplantation mice in response to ischemia or VEGF stimulation. Bone marrow transplantation or infusion of wild-type EPC restored blood flow recovery and prevented autoamputation in Per2(m/m) mice. CONCLUSIONS: These findings indicate that mutation of Per2 causes Akt-dependent senescence and impairs ischemia-induced revascularization through the alteration of EPC function.
BACKGROUND: Alteration of the circadian rhythm and increased vascular senescence are linked to cardiovascular disease. Per2, a circadian gene, is known to regulate endothelium-dependent vasomotion. However, the mechanism by which Per2 affects endothelial function is unknown. We hypothesize that endothelial dysfunction in Per2 mutant (Per2(m/m)) mice is mediated in part by increased vascular senescence and impaired endothelial progenitor cell (EPC) function. METHODS AND RESULTS: Endothelial cells from Per2(m/m) mice exhibit increased protein kinase Akt signaling, greater senescence, and impaired vascular network formation and proliferation. Indeed, Per2(m/m) mice have impaired blood flow recovery and developed autoamputation of the distal limb when subjected to hind-limb ischemia. Furthermore, matrigel implantation into Per2(m/m) mice resulted in less neovascularization. Because EPCs contribute to angiogenesis, we studied the role of Per2 in these cells using bone marrow transplantation. Basal EPC levels were similar between wild-type and Per2(m/m) mice. However, compared with wild-type bone marrow transplantation mice, EPC mobilization was impaired in Per2(m/m) bone marrow transplantation mice in response to ischemia or VEGF stimulation. Bone marrow transplantation or infusion of wild-type EPC restored blood flow recovery and prevented autoamputation in Per2(m/m) mice. CONCLUSIONS: These findings indicate that mutation of Per2 causes Akt-dependent senescence and impairs ischemia-induced revascularization through the alteration of EPC function.
Authors: Rainer Spanagel; Gurudutt Pendyala; Carolina Abarca; Tarek Zghoul; Carles Sanchis-Segura; Maria Chiara Magnone; Jesús Lascorz; Martin Depner; David Holzberg; Michael Soyka; Stefan Schreiber; Fumihiko Matsuda; Mark Lathrop; Gunter Schumann; Urs Albrecht Journal: Nat Med Date: 2004-12-19 Impact factor: 53.440
Authors: Zhenbang Chen; Lloyd C Trotman; David Shaffer; Hui-Kuan Lin; Zohar A Dotan; Masaru Niki; Jason A Koutcher; Howard I Scher; Thomas Ludwig; William Gerald; Carlos Cordon-Cardo; Pier Paolo Pandolfi Journal: Nature Date: 2005-08-04 Impact factor: 49.962
Authors: Fred W Turek; Corinne Joshu; Akira Kohsaka; Emily Lin; Ganka Ivanova; Erin McDearmon; Aaron Laposky; Sue Losee-Olson; Amy Easton; Dalan R Jensen; Robert H Eckel; Joseph S Takahashi; Joseph Bass Journal: Science Date: 2005-04-21 Impact factor: 47.728
Authors: Jonathan P Wisor; Bruce F O'Hara; Akira Terao; Chris P Selby; Thomas S Kilduff; Aziz Sancar; Dale M Edgar; Paul Franken Journal: BMC Neurosci Date: 2002-12-20 Impact factor: 3.288
Authors: Zoltan Ungvari; Gabor Kaley; Rafael de Cabo; William E Sonntag; Anna Csiszar Journal: J Gerontol A Biol Sci Med Sci Date: 2010-06-24 Impact factor: 6.053
Authors: Stephanie Bonney; Kelly Hughes; Patrick N Harter; Michel Mittelbronn; Lori Walker; Tobias Eckle Journal: Int J Biochem Cell Biol Date: 2013-01-03 Impact factor: 5.085
Authors: Chao-Yung Wang; Hyung-Hwan Kim; Yukio Hiroi; Naoki Sawada; Salvatore Salomone; Laura E Benjamin; Kenneth Walsh; Michael A Moskowitz; James K Liao Journal: Sci Signal Date: 2009-03-17 Impact factor: 8.192
Authors: Wenpu Zhao; Seth G Thacker; Jeffrey B Hodgin; Hongyu Zhang; Jeffrey H Wang; James L Park; Ann Randolph; Emily C Somers; Subramaniam Pennathur; Matthias Kretzler; Frank C Brosius; Mariana J Kaplan Journal: J Immunol Date: 2009-07-20 Impact factor: 5.422
Authors: Julia V Busik; Maria Tikhonenko; Ashay Bhatwadekar; Madalina Opreanu; Nafissa Yakubova; Sergio Caballero; Danny Player; Takahiko Nakagawa; Aqeela Afzal; Jennifer Kielczewski; Andrew Sochacki; Stephanie Hasty; Sergio Li Calzi; Sungjin Kim; Shane K Duclas; Mark S Segal; Dennis L Guberski; Walter J Esselman; Michael E Boulton; Maria B Grant Journal: J Exp Med Date: 2009-11-23 Impact factor: 14.307