Neutrophil education in peripheral vascular beds
The aim of the present proposal is to unravel the importance of the vascular periphery – over and above processes occurring in the bone marrow – as site of end-stage neutrophil maturation. Given tremendous proteomic and transcriptomic difference in mature bone marrow and circulating neutrophils, we hypothesize that neutrophils undergo final stages of maturation in the periphery. Successfully addressing these aims would provide an innovative paradigm to understanding neutrophil biology as it will establish peripheral vascular beds as a novel (possibly disease generating) component during neutrophil maturation.
Team
Publications
Decreased Neutrophils Are Associated With Reduced Risk of Type 2 Diabetes Incidence: Results From the CORDIOPREV StudyBoughanem, H.; de Larriva, A. P. A.; Camargo, A.; Torres-Peña, J. D.; Ojeda-Rodriguez, A.; Alcala-Diaz, J. F.; Romero-Cabrera, J. L.; Rangel-Zuñiga, O. A.; Rodríguez-Cantalejo, F.; Soehnlein, O.; Macias-Gonzalez, M.; Tinahones, F. J.; Perez-Martinez, P.; Delgado-Lista, J.; López-Miranda, J.
2024 The Journal of Clinical Endocrinology & Metabolism
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Intermittent High-Fat Diet: Atherosclerosis Progression by Neutrophil ReprogrammingHerrero-Cervera, A.; Chevre, R.; Soehnlein, O.
2024 Sig Transduct Target Ther
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Proteomic Characterization of 1,000 Human and Murine Neutrophils Freshly Isolated from Blood and Sites of Sterile Inflammation.Ghosh, S.; Tuz, A. A.; Stenzel, M.; Singh, V.; Richter, M.; Soehnlein, O.; Lange, E.; Heyer, R.; Cibir, Z.; Beer, A.; Jung, M.; Nagel, D.; Hermann, D. M.; Hasenberg, A.; Grüneboom, A.; Sickmann, A.; Gunzer, M.
2024 Mol Cell Proteomics
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Comparative analysis of formyl peptide receptor 1 and formyl peptide receptor 2 reveals shared and preserved signalling profilesPajonczyk, D.; Sternschulte, M. F.; Soehnlein, O.; Bermudez, M.; Raabe, C. A.; Rescher, U.
2024 British Journal of Pharmacology
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Formyl Peptide Receptor 2 (FPR2) Regulates Dendritic Cell Metabolism and Th17 Cell Differentiation during NeuroinflammationLim, J.-H.; Neuwirth, A.; Chung, K.-J.; Grossklaus, S.; Soehnlein, O.; Hajishengallis, G.; Chavakis, T.
2024 Front. Immunol
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Neuro-Immune Crosstalk in Hematopoiesis, Inflammation, and RepairAkinyemi, D. E.; Chevre, R.; Soehnlein, O.
2024 Trends in Immunology
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Targeting Extranuclear Histones to Alleviate Acute and Chronic Inflammation.Nicolaes, G. A. F.; Soehnlein, O.
2024 Trends Pharmacol Sci
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Lack of Formyl-Peptide Receptor 1 Mitigates Atherosclerosis in Hyperlipidemic Mice |
Gasdermin D drives focal Crystalline Thrombotic Microangiopathy by accelerating Immunothrombosis and NecroinflammationWatanabe-Kusunoki, K.; Li, C.; Bandeira Honda, T. S.; Zhao, D.; Kusunoki, Y.; Ku, J.; Long, H.; Klaus, M.; Han, C.; Braun, A.; Mammadova-Bach, E.; Linkermann, A.; Van Avondt, K.; Richter, M.; Soehnlein, O.; Linder, M. I.; Klein, C.; Steiger, S.; Anders, H.-J.
2024 Blood
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Stroke and Myocardial Infarction Induce Neutrophil Extracellular Trap Release Disrupting Lymphoid Organ Structure and Immunoglobulin SecretionTuz, A. A.; Ghosh, S.; Karsch, L.; Ttoouli, D.; Sata, S. P.; Ulusoy, Ö.; Kraus, A.; Hoerenbaum, N.; Wolf, J.-N.; Lohmann, S.; Zwirnlein, F.; Kaygusuz, V.; Lakovic, V.; Tummes, H.-L.; Beer, A.; Gallert, M.; Thiebes, S.; Qefalia, A.; Cibir, Z.; Antler, M.; Korste, S.; Haj Yehia, E.; Michel, L.; Rassaf, T.; Kaltwasser, B.; Abdelrahman, H.; Mohamud Yusuf, A.; Wang, C.; Yin, D.; Haeusler, L.; Lueong, S.; Richter, M.; Engel, D. R.; Stenzel, M.; Soehnlein, O.; Frank, B.; Solo-Nomenjanahary, M.; Ho-Tin-Noé, B.; Siveke, J. T.; Totzeck, M.; Hoffmann, D.; Grüneboom, A.; Hagemann, N.; Hasenberg, A.; Desilles, J.-P.; Mazighi, M.; Sickmann, A.; Chen, J.; Hermann, D. M.; Gunzer, M.; Singh, V.
2024 Nat Cardiovasc Res
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Neutrophils - Biology and DiversityMaier-Begandt, D.; Alonso-Gonzalez, N.; Klotz, L.; Erpenbeck, L.; Jablonska, J.; Immler, R.; Hasenberg, A.; Mueller, T. T.; Herrero-Cervera, A.; Aranda-Pardos, I.; Flora, K.; Zarbock, A.; Brandau, S.; Schulz, C.; Soehnlein, O.; Steiger, S.; the TRR332 consortium.
2023 Nephrology Dialysis Transplantation
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Beyond association: high neutrophil counts are a causal risk factor for atherosclerotic cardiovascular disease |
DRANquilizing neutrophil function in chronic liver diseaseGroba, S. R., & Soehnlein, O.
2023 Journal of Hepatology.
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The RNA editor ADAR2 promotes immune cell trafficking by enhancing endothelial responses to interleukin-6 during sterile inflammationGatsiou, A.; Tual-Chalot, S.; Napoli, M.; Ortega-Gomez, A.; Regen, T.; Badolia, R.; Cesarini, V.; Garcia-Gonzalez, C.; Chevre, R.; Ciliberti, G.; Silvestre-Roig, C.; Martini, M.; Hoffmann, J.; Hamouche, R.; Visker, J. R.; Diakos, N.; Wietelmann, A.; Silvestris, D. A.; Georgiopoulos, G.; Moshfegh, A.; Schneider, A.; Chen, W.; Guenther, S.; Backs, J.; Kwak, S.; Selzman, C. H.; Stamatelopoulos, K.; Rose-John, S.; Trautwein, C.; Spyridopoulos, I.; Braun, T.; Waisman, A.; Gallo, A.; Drakos, S. G.; Dimmeler, S.; Sperandio, M.; Soehnlein, O.; Stellos, K.
2023 Immunity
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The Angiopoietin Receptor Tie2 Is Atheroprotective in Arterial EndotheliumAnisimov, A.; Fang, S.; Hemanthakumar, K. A.; Örd, T.; van Avondt, K.; Chevre, R.; Toropainen, A.; Singha, P.; Gilani, H.; Nguyen, S. D.; Karaman, S.; Korhonen, E. A.; Adams, R. H.; Augustin, H. G.; Öörni, K.; Soehnlein, O.; Kaikkonen, M. U.; Alitalo, K. 2023, 1–15.
2023 Nat Cardiovasc Res
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Time-Restricted Feeding Enhances Early Atherosclerosis in Hypercholesterolemic MicePan, C.; Herrero-Fernandez, B.; Borja Almarcha, C.; Gomez Bris, R.; Zorita, V.; Sáez, A.; Maas, S. L.; Pérez-Olivares, L.; Herrero-Cervera, A.; Lemnitzer, P.; van Avondt, K.; Silvestre-Roig, C.; Gonzalez-Granado, J. M.; Chevre, R.; Soehnlein, O.
2023 Circulation
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Hijacking CD177 for whole-body visualization of neutrophil dynamicsSoehnlein, O.
2023 Nature Cardiovascular Research
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Longitudinal in vivo monitoring of atheroprogression in hypercholesterolemic mice using photoacoustic imagingFerraro, B.; Giustetto, P.; Schengel, O.; Weckbach, L.; Maegdefessel, L.; Soehnlein, O.
2023 Thromb Haemost
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Loss of soluble guanylyl cyclase in platelets contributes to atherosclerotic plaque formation and vascular inflammationMauersberger, C.; Sager, H. B.; Wobst, J.; Dang, T. A.; Lambrecht, L.; Koplev, S.; Stroth, M.; Bettaga, N.; Schlossmann, J.; Wunder, F.; Friebe, A.; Björkegren, J. L. M.; Dietz, L.; Maas, S. L.; van der Vorst, E. P. C.; Sandner, P.; Soehnlein, O.; Schunkert, H.; Kessler, T.
2022 Nature Cardiovascular Research
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Neutrophils in aging and aging-related pathologiesVan Avondt, K.; Strecker, J.-K.; Tulotta, C.; Minnerup, J.; Schulz, C.; Soehnlein, O.
2022 Immunological Reviews
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AIMing 2 treat atherosclerosisSoehnlein, O.; Tall, A. R.
2022 Nature Reviews Cardiology
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Trilateral interaction between innervation, leukocyte, and adventitia: a new driver of atherosclerotic plaque formationSohrabi, Y.; Reinecke, H.; Soehnlein, O.
2022 Signal Transduction and Targeted Therapy
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