Publikationen
Hartmann P, Zhou Z, Natarelli L, Wei Y, Nazari-Jahantigh M, Zhu M, Grommes J, Steffens S, Weber C, Schober A. Endothelial Dicer promotes atherosclerosis and vascular inflammation by miRNA-103-mediated suppression of KLF4. Nat Commun. 2016; Feb 3;7:10521. Pubmed
Schober A, Nazari-Jahantigh M, Weber C. Micro-RNA-mediated mechanisms of the cellular stress response in atherosclerosis. Epub 2015 Dec 3. Pubmed
Akhtar S, Hartmann P, Karshovska E, Rinderknecht FA, Subramanian P, Gremse F, Grommes J, Jacobs M, Kiessling F, Weber C, Steffens S, Schober A. Endothelial Hypoxia-inducible Factor-1α promotes atherosclerosis and monocyte recruitment by upregulating MicroRNA-19a. Hypertension. 2015;66(6):1220-6. Pubmed
Hartmann P, Schober A, Weber C. Chemokines and microRNAs in atherosclerosis. Cell Mol Life Sci. 2015; 72(17):3253-66. Pubmed
Schober A, Nazari-Jahantigh M, Weber C. MicroRNA-mediated mechanisms of the cellular stress response in atherosclerosis. Nat Rev Cardiol. 2015;12(6):361-74. Pubmed
Wei Y, Zhu M, Corbalan-Campos J, Heyll K, Weber C, Schober A. Regulation of Csf1r anc Bcl6 in macrophages mediates the Stage-Specific Effects of MicroRNA-155 on Atherosclerosis. Arterioscler Thromb Vasc Biol. 2015;35:796-803. Pubmed
Alampour-Rajabi S, El Bounkari O, Rot A, Muller-Newen G, Bachelerie F, Gawaz M, Weber C, Schober A and Bernhagen J. MIF interacts with CXCR7 to promote receptor internalization, ERK 1/2 and ZAP-70 signaling, and lymphocyte chemotaxis. FASEB J. 2015;29(11):4497-511. Pubmed
Njock MS, Cheng HS, Dang LT, Nazari-Jahantigh M, Lau AC, Boudreau E, Roufaiel M, Cybulsky MI, Schober A and Fish JE. Endothelial cells suppress monocyte activation through secretion of extracellular vesicles containing antiinflammatory microRNAs. Blood 2015; 125:3202-12. Pubmed
Karshovska E, Zhao Z, Blanchet X, Schmitt MM, Bidzhekov K, Soehnlein O, von Hundelshausen P, Mattheij NJ, Cosemans JM, Megens RT, Koeppel TA, Schober A, Hackeng TM, Weber C, Koenen RR. Hyperreactivity of junctional adhesion molecule a-deficient platelets accelerates atherosclerosis in hyperlipidemic mice. Circ Res. 2015;116:587-599. Pubmed
Schober A, Nazari-Jahantigh M, Wei Y, Bidzhekov K, Gremse F, Grommes J, Megens RT, Heyll K, Noels H, Hristov M, Wang S, Kiessling F, Olson EN and Weber C. MicroRNA-126-5p promotes endothelial proliferation and limits atherosclerosis by suppressing Dlk1. Nat Med. 2014;20:368-78. Pubmed
Li X, Zhu M, Penfold ME, Koenen RR, Thiemann A, Heyll K, Akhtar S, Koyadan S, Wu Z, Gremse F, Kiessling F, von Zandervoort M, Schall TJ, Weber C and Schober A. Activation of CXCR7 limits atherosclerosis and improves hyperlipidemia by increasing cholesterol uptake in adipose tissue. Circulation.2014;129:1244-53. Pubmed
Bang C, Batkai S, Dangwal S, Gupta SK, Foinquinos A, Holzmann A, Just A, Remke J, Zimmer K, Zeug A, Ponimaskin E, Schmiedl A, Yin X, Mayr M, Halder R, Fischer A, Engelhardt S, Wei Y, Schober A, Fiedler J and Thum T. Cardiac ficroblast-derived microRNA passenger strand-enriched exosomes mediate cardiomyocyte hapertrophy. J Clin Invest. 2014;124:2136-46. Pubmed
Noels H, Zhou B, Tilstam PV, Theelen W, Li X, Pawig L, Schmitz C, Akhtar S, Simsekyilmaz S, Shagdarsuren E, Schober A, Adams RH, Bernhagen J, Liehn EA, Doring Y and Weber C. Deficiency of endothelial CXCR4 reduces reendothelialization and enhances neointimal hyperplasie after vascular injury in atherosclerosis-prone mice. Atheroiscler Thromb Vasc Biol. 2014;34:1209-20. Pubmed
Vijayan S, Asare Y, Grommes J, Soehnlein O, Lutgens E, Shagdarsuren G, Togtokh A, Jacobs MJ, Fischer JW, Bernhagen J, Weber C, Schober A and Shagdasuren E. High expresseion of C5L2 correlates with high proinflammatory cytokine expression in advances human atherosclerotic plaques. Am J Pathol. 2014;184-2123-33. Pubmed
Neth P, Nazari-Jahantigh M, Schober A, Weber C. MicroRNAs in flow-dependent vascular remodelling. Cardiovasc Res. 2013 May 13. Pubmed
Wei Y, Nazari-Jahantigh M, Chan L, Zhu M, Heyll K, Corbalán-Campos J, Hartmann P, Thiemann A, Weber C, Schober A. The microRNA-342-5p fosters inflammatory macrophage activation through an Akt1- and microRNA-155-dependent pathway during atherosclerosis. Circulation. 2013; Apr 16;127(15):1609-19. Pubmed
Wei Y, Nazari-Jahantigh M, Neth P, Weber C, Schober A. MicroRNA-126, -145, and -155: a therapeutic triad in atherosclerosis? Arterioscler Thromb Vasc Biol. 2013;33:449-454. Pubmed
Kanzler I, Tuchscheerer N, Steffens G, Simsekyilmaz S, Konschalla S, Kroh A, Simons D, Asare Y, Schober A, Bucala R, Weber C, Bernhagen J, Liehn EA. Differential roles of angiogenic chemokines in endothelial progenitor cell-induced angiogenesis. Basic Res Cardiol. 2013;108. Pubmed
Akhtar S, Gremse F, Kiessling F, Weber C, Schober A. CXCL12 promotes the stabilization of atherosclerotic lesions mediated by smooth muscle progenitor cells in Apoe-deficient mice. Arterioscler Thromb Vasc Biol. 2013;33:679-686. Pubmed
Schuh A, Kroh A, Konschalla S, Liehn EA, Sobota RM, Al Biessen E, Bot I, Taha ST, Schober A, Marx N, Weber C, Sasse A. Myocardial regeneration by transplantation of modified endothelial progenitor cells expressing SDF-1 in a rat model. J Cell Mol Med. 2012;16:2311-2320. Pubmed
Schober A, Thum T, Zernecke A. MicroRNAs in vascular biology - metabolism and atherosclerosis. Thromb Haemost. 2012;107:603-604. Pubmed
Schober A, Siess W. Lysophosphatidic acid in atherosclerotic diseases. Br J Pharmacol. 2012;167:465-482. Pubmed
Nazari-Jahantigh M, Wei Y, Schober A. The role of microRNAs in arterial remodelling. Thromb Haemost. 2012;107:611-618. Pubmed
Nazari-Jahantigh M, Wei Y, Noels H, Akhtar S, Zhou Z, Koenen RR, Heyll K, Gremse F, Kiessling F, Grommes J, Weber C, Schober A. MicroRNA-155 promotes atherosclerosis by repressing Bcl6 in macrophages. J Clin Invest. 2012;122:4190-4202. Pubmed
Hamesch K, Subramanian P, Li X, Dembowsky K, Chevalier E, Weber C, Schober A. The CXCR4 antagonist POL5551 is equally effective as sirolimus in reducing neointima formation without impairing re-endothelialisation. Thromb Haemost. 2012;107:356-368. Pubmed
Egea V, Schober A, Weber C. Circulating miRNAs: messengers on the move in cardiovascular disease. Thromb Haemost. 2012;108:590-591. Pubmed
Zhou Z, Subramanian P, Sevilmis G, Globke B, Soehnlein O, Karshovska E, Megens R, Heyll K, Chun J, Saulnier-Blache JS, Reinholz M, van Zandvoort M, Weber C, Schober A. Lipoprotein-derived lysophosphatidic acid promotes atherosclerosis by releasing CXCL1 from the endothelium. Cell Metab. 2011;13:592-600. Pubmed
Schober A, Weber C. Bone marrow-derived smooth muscle cells are breaking bad in atherogenesis. Arterioscler Thromb Vasc Biol. 2011;31:1258-1259. Pubmed
Schober A, Hristov M, Kofler S, Forbrig R, Loehr B, Heussen N, Zhe Z, Akhtar S, Schumann U, Kroetz F, Leibig M, Koenig A, Kaczmarek I, Reichart B, Klauss V, Weber C, Sohn H-Y. CD34(+)CD140b(+) cells and circulating CXCL12 correlate with the angiographically assessed severity of cardiac allograft vasculopathy. Eur Heart J. 2011;32:476-484. Pubmed
Liehn EA, Tuchscheerer N, Kanzler I, Drechsler M, Fraemohs L, Schuh A, Koenen RR, Zander S, Soehnlein O, Hristov M, Grigorescu G, Urs AO, Leabu M, Bucur I, Merx MW, Zernecke A, Ehling J, Gremse F, Lammers T, Kiessling F, Bernhagen J, Schober A, Weber C. Double-edged role of the CXCL12/CXCR4 axis in experimental myocardial infarction. J Am Coll Cardiol. 2011;58:2415-2423. Pubmed
Gremse F, Grouls C, Palmowski M, Lammers T, de Vries A, Grull H, Das M, Muhlenbruch G, Akhtar S, Schober A, Kiessling F. Virtual elastic sphere processing enables reproducible quantification of vessel stenosis at CT and MR angiography. Radiology. 2011;260:709-717. Pubmed
Weber C, Schober A, Zernecke A. MicroRNAs in arterial remodelling, inflammation and atherosclerosis. Curr Drug Targets. 2010;11:950-956. Pubmed
Subramanian P, Schober A. Neointima formation after vascular injury: Is it all about CD39? Thromb Haemost. 2010;103:257-258. Pubmed
Subramanian P, Karshovska E, Reinhard P, Megens RT, Zhou Z, Akhtar S, Schumann U, Li X, van Zandvoort M, Ludin C, Weber C, Schober A. Lysophosphatidic acid receptors LPA1 and LPA3 promote CXCL12-mediated smooth muscle progenitor cell recruitment in neointima formation. Circ Res. 2010;107:96-105. Pubmed
Lievens D, Gerdes N, Schober A, Weber C. Atherosclerosis: cell biology and lipoproteins. Curr Opin Lipidol. 2010;21:284-285. Pubmed
Zernecke A, Bidzhekov K, Noels H, Shagdarsuren E, Gan L, Denecke B, Hristov M, Koppel T, Jahantigh MN, Lutgens E, Wang S, Olson EN, Schober A, Weber C. Delivery of microRNA-126 by apoptotic bodies induces CXCL12-dependent vascular protection. Sci Signal. 2009;2:ra81. Pubmed
Zernecke A, Bot I, Djalali-Talab Y, Shagdarsuren E, Bidzhekov K, Meiler S, Krohn R, Schober A, Sperandio M, Soehnlein O, Bornemann J, Tacke F, Biessen EA, Weber C. Protective role of CXC receptor 4/CXC ligand 12 unveils the importance of neutrophils in atherosclerosis. Circ Res. 2008;102:209-217. Pubmed
Schober A, Weber C. Leptin and EPCs in arterial injury: yes, we can! Circ Res. 2008;103:447-449. Pubmed
Schober A, Bernhagen J, Weber C. Chemokine-like functions of MIF in atherosclerosis. J Mol Med. 2008;86:761-770. Pubmed
Karshovska E, Zagorac D, Zernecke A, Weber C, Schober A. A small molecule CXCR4 antagonist inhibits neointima formation and smooth muscle progenitor cell mobilization after arterial injury. J Thromb Haemost. 2008;6:1812-1815. Pubmed
Hristov M, Zernecke A, Schober A, Weber C. Adult progenitor cells in vascular remodeling during atherosclerosis. Biol Chem. 2008;389:837-844. Pubmed
Schober A, Zernecke A. Chemokines in vascular remodeling. Thromb Haemost. 2007;97:730-737. Pubmed
Nowak B, Weber C, Schober A, Zeiffer U, Liehn EA, von Hundelshausen P, Reinartz P, Schaefer WM, Buell U. Indium-111 oxine labelling affects the cellular integrity of haematopoietic progenitor cells. Eur J Nucl Med Mol Imaging. 2007;34:715-721. Pubmed
Karshovska E, Zernecke A, Sevilmis G, Millet A, Hristov M, Cohen CD, Schmid H, Krotz F, Sohn H-Y, Klauss V, Weber C, Schober A. Expression of HIF-1 alpha in injured arteries controls SDF-1 alpha-Mediated neointima formation in apolipoprotein E-deficient mice. Arterioscler Thromb Vasc Biol. 2007;27:2540-2547. Pubmed
Bernhagen J, Krohn R, Lue H, Gregory JL, Zernecke A, Koenen RR, Dewor M, Georgiev I, Schober A, Leng L, Kooistra T, Fingerle-Rowson G, Ghezzi P, Kleemann R, McColl SR, Bucala R, Hickey MJ, Weber C. MIF is a noncognate ligand of CXC chemokine receptors in inflammatory and atherogenic cell recruitment. Nat Med. 2007;13:587-596. Pubmed
Schober A, Karshovska E, Zernecke A, Weber C. SDF-1 alpha-Mediated tissue repair by stem cells: A promising tool in cardiovascular medicine? Trends in Cardiovascular Medicine. 2006;16:103-108. Pubmed
Hristov M, Heussen N, Schober A, Weber C. Intracoronary infusion of autologous bone marrow cells and left ventricular function after acute myocardial infarction: a meta-analysis. J Cell Mol Med. 2006;10:727-733. Pubmed
Burger-Kentischer A, Gobel H, Kleemann R, Zerneckee A, Bucala R, Leng L, Finkelmeier D, Geiger G, Schaefer H, Schober A, Weber C, Brunner H, Rutten H, Ihling C, Bernhagen J. Reduction of the aortic inflammatory response in spontaneous atherosclerosis by blockade of macrophage migration inhibitory factor (MIF). Atherosclerosis. 2006;184:28-38. Pubmed
Zernecke A, Schober A, Bot I, von Hundelshausen P, Liehn E, Mopps B, Mericskay M, Gierschik P, Biessen E, Weber C. SDF-1 alpha/CXCR4 axis is instrumental in neointimal hyperplasia and recruitment of smooth muscle progenitor cells. Circ Res. 2005;96:784-791. Pubmed
Schober A, Weber C. Mechanisms of monocyte recruitment in vascular repair after injury. Antioxid Redox Signal. 2005;7:1249-1257. Pubmed
Schober A, Hoffmann R, Opree N, Knarren S, Iofina E, Hutschenreuter G, Hanrath P, Weber C. Peripheral CD34+ cells and the risk of in-stent restenosis in patients with coronary heart disease. Am J Cardiol. 2005;96:1116-1122. Pubmed
Ostermann G, Fraemohs L, Baltus T, Schober A, Lietz M, Zernecke A, Liehn E, Weber C. Involvement of JAM-A in mononuclear cell recruitment on inflamed or atherosclerotic endothelium - Inhibition by soluble JAM-A. Arterioscler Thromb Vasc Biol. 2005;25:729-735. Pubmed
Furnkranz A, Schober A, Bochkov V, Bashtrykov P, Kronke G, Kadl A, Binder B, Weber C, Leitinger N. Oxidized phospholipids trigger atherogenic inflammation in murine arteries. Arterioscler Thromb Vasc Biol. 2005;25:633-638. Pubmed