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405 results on '"Matthias Nahrendorf"'

1. Genetic inhibition of serum glucocorticoid kinase 1 prevents obesity-related atrial fibrillation

Author: Aneesh Bapat, Guoping Li, Ling Xiao, Ashish Yeri, Maarten Hulsmans, Jana Grune, Masahiro Yamazoe, Maximilian J. Schloss, Yoshiko Iwamoto, Justin Tedeschi, Xinyu Yang, Matthias Nahrendorf, Anthony Rosenzweig, Patrick T. Ellinor, Saumya Das, and David Milan
Subjects: Cardiology, Metabolism, Medicine
Abstract: Obesity is an important risk factor for atrial fibrillation (AF), but a better mechanistic understanding of obesity-related atrial fibrillation is required. Serum glucocorticoid kinase 1 (SGK1) is a kinase positioned within multiple obesity-related pathways, and prior work has shown a pathologic role of SGK1 signaling in ventricular arrhythmias. We validated a mouse model of obesity-related AF using wild-type mice fed a high-fat diet. RNA sequencing of atrial tissue demonstrated substantial differences in gene expression, with enrichment of multiple SGK1-related pathways, and we showed upregulated of SGK1 transcription, activation, and signaling in obese atria. Mice expressing a cardiac specific dominant-negative SGK1 were protected from obesity-related AF, through effects on atrial electrophysiology, action potential characteristics, structural remodeling, inflammation, and sodium current. Overall, this study demonstrates the promise of targeting SGK1 in a mouse model of obesity-related AF.
Published: 2022
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2. Spontaneous Degenerative Aortic Valve Disease in New Zealand Obese Mice

Author: Christiane Ott, Kathleen Pappritz, Niklas Hegemann, Cathleen John, Sarah Jeuthe, Cameron S. McAlpine, Yoshiko Iwamoto, Jonathan H. Lauryn, Jan Klages, Robert Klopfleisch, Sophie Van Linthout, Fil Swirski, Matthias Nahrendorf, Ulrich Kintscher, Tilman Grune, Wolfgang M. Kuebler, and Jana Grune
Subjects: aortic stenosis, cor pulmonale, degenerative aortic valve disease, global heart failure, pulmonary hypertension, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract: Background Degenerative aortic valve (AoV) disease and resulting aortic stenosis are major clinical health problems. Murine models of valve disease are rare, resulting in a translational knowledge gap on underlying mechanisms, functional consequences, and potential therapies. Naïve New Zealand obese (NZO) mice were recently found to have a dramatic decline of left ventricular (LV) function at early age. Therefore, we aimed to identify the underlying cause of reduced LV function in NZO mice. Methods and Results Cardiac function and pulmonary hemodynamics of NZO and age‐matched C57BL/6J mice were monitored by serial echocardiographic examinations. AoVs in NZO mice demonstrated extensive thickening, asymmetric aortic leaflet formation, and cartilaginous transformation of the valvular stroma. Doppler echocardiography of the aorta revealed increased peak velocity profiles, holodiastolic flow reversal, and dilatation of the ascending aorta, consistent with aortic stenosis and regurgitation. Compensated LV hypertrophy deteriorated to decompensated LV failure and remodeling, as indicated by increased LV mass, interstitial fibrosis, and inflammatory cell infiltration. Elevated LV pressures in NZO mice were associated with lung congestion and cor pulmonale, evident as right ventricular dilatation, decreased right ventricular function, and increased mean right ventricular systolic pressure, indicative for the development of pulmonary hypertension and ultimately right ventricular failure. Conclusions NZO mice demonstrate as a novel murine model to spontaneously develop degenerative AoV disease, aortic stenosis, and the associated end organ damages of both ventricles and the lung. Closely mimicking the clinical scenario of degenerative AoV disease, the model may facilitate a better mechanistic understanding and testing of novel treatment strategies in degenerative AoV disease.
Published: 2021
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3. Na+-H+ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis

Author: Cong-Lin Liu, Xian Zhang, Jing Liu, Yunzhe Wang, Galina K. Sukhova, Gregory R. Wojtkiewicz, Tianxiao Liu, Rui Tang, Samuel Achilefu, Matthias Nahrendorf, Peter Libby, Junli Guo, Jin-Ying Zhang, and Guo-Ping Shi
Subjects: Science
Abstract: Na+-H+ exchanger 1 (Nhe1) regulates extracellular pH by extruding protons in exchange for extracellular Na+ . Here, Liu et al. show that Nhe1 promotes the development and acidification of atherosclerotic lesions and that pH-sensitive probes can be used to monitor plaque growth and acidification.
Published: 2019
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4. The cardiac microenvironment uses non‐canonical WNT signaling to activate monocytes after myocardial infarction

Author: Ingmar Sören Meyer, Andreas Jungmann, Christoph Dieterich, Min Zhang, Felix Lasitschka, Susann Werkmeister, Jan Haas, Oliver J Müller, Michael Boutros, Matthias Nahrendorf, Hugo A Katus, Stefan E Hardt, and Florian Leuschner
Subjects: inflammation, monocytes, myocardial infarction, Medicine (General), R5-920, Genetics, QH426-470
Abstract: Abstract A disturbed inflammatory response following myocardial infarction (MI) is associated with poor prognosis and increased tissue damage. Monocytes are key players in healing after MI, but little is known about the role of the cardiac niche in monocyte activation. This study investigated microenvironment‐dependent changes in inflammatory monocytes after MI. RNA sequencing analysis of murine Ly6Chigh monocytes on day 3 after MI revealed differential regulation depending on location. Notably, the local environment strongly impacted components of the WNT signaling cascade. Analysis of WNT modulators revealed a strong upregulation of WNT Inhibitory Factor 1 (WIF1) in cardiomyocytes—but not fibroblasts or endothelial cells—upon hypoxia. Compared to wild‐type (WT) littermates, WIF1 knockout mice showed severe adverse remodeling marked by increased scar size and reduced ejection fraction 4 weeks after MI. While FACS analysis on day 1 after MI revealed no differences in neutrophil numbers, the hearts of WIF1 knockouts contained significantly more inflammatory monocytes than hearts from WT animals. Next, we induced AAV‐mediated cardiomyocyte‐specific WIF1 overexpression, which attenuated the monocyte response and improved cardiac function after MI, as compared to control‐AAV‐treated animals. Finally, WIF1 overexpression in isolated cardiomyocytes limited the activation of non‐canonical WNT signaling and led to reduced IL‐1β and IL‐6 expression in monocytes/macrophages. Taken together, we investigated the cardiac microenvironment's interaction with recruited monocytes after MI and identified a novel mechanism of monocyte activation. The local initiation of non‐canonical WNT signaling shifts the accumulating myeloid cells toward a pro‐inflammatory state and impacts healing after myocardial infarction.
Published: 2017
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5. Polyglucose nanoparticles with renal elimination and macrophage avidity facilitate PET imaging in ischaemic heart disease

Author: Edmund J. Keliher, Yu-Xiang Ye, Gregory R. Wojtkiewicz, Aaron D. Aguirre, Benoit Tricot, Max L. Senders, Hannah Groenen, Francois Fay, Carlos Perez-Medina, Claudia Calcagno, Giuseppe Carlucci, Thomas Reiner, Yuan Sun, Gabriel Courties, Yoshiko Iwamoto, Hye-Yeong Kim, Cuihua Wang, John W. Chen, Filip K. Swirski, Hsiao-Ying Wey, Jacob Hooker, Zahi A. Fayad, Willem J. M. Mulder, Ralph Weissleder, and Matthias Nahrendorf
Subjects: Science
Abstract: In vivo imaging of inflammation is crucial for detection and monitoring of many pathologies and noninvasive macrophage quantification has been suggested as a possible approach. Here Keliher et al. describe novel polyglucose nanoparticle tracers that are rapidly excreted by the kidney and with high affinity for macrophages in atherosclerotic plaques.
Published: 2017
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6. Myeloperoxidase Inhibition Improves Ventricular Function and Remodeling After Experimental Myocardial Infarction

Author: Muhammad Ali, MD, Benjamin Pulli, MD, Gabriel Courties, PhD, Benoit Tricot, MSc, Matthew Sebas, BSc, Yoshiko Iwamoto, BSc, Ingo Hilgendorf, MD, Stefan Schob, MD, Anping Dong, MD, PhD, Wei Zheng, MD, Athanasia Skoura, PhD, Amit Kalgukar, PhD, Christian Cortes, MSc, Roger Ruggeri, PhD, Filip K. Swirski, PhD, Matthias Nahrendorf, MD, PhD, Leonard Buckbinder, PhD, and John W. Chen, MD, PhD
Subjects: inflammation, myeloperoxidase, myocardial infarction, oxidative stress, treatment, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract: PF-1355 is an oral myeloperoxidase (MPO) inhibitor that successfully decreased elevated MPO activity in mouse myocardial infarction models. Short duration PF-1355 treatment for 7 days decreased the number of inflammatory cells and attenuated left ventricular dilation. Cardiac function and remodeling improved when treatment was increased to 21 days. Better therapeutic effect was further achieved with early compared with delayed treatment initiation (1 h vs. 24 h after infarction). In conclusion, PF-1355 treatment protected a mouse heart from acute and chronic effects of MI, and this study paves the way for future translational studies investigating this class of drugs in cardiovascular diseases.
Published: 2016
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7. Direct Thrombus Imaging in Stroke

Author: Jongseong Kim, Jung E. Park, Matthias Nahrendorf, and Dong-Eog Kim
Subjects: acute stroke, direct thrombus imaging, positron-emission tomography, x-ray computed tomography, magnetic resonance imaging, molecular imaging, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract: There is an emergent need for imaging methods to better triage patients with acute stroke for tissue-plasminogen activator (tPA)-mediated thrombolysis or endovascular clot retrieval by directly visualizing the size and distribution of cerebral thromboemboli. Currently, magnetic resonance (MR) or computed tomography (CT) angiography visualizes the obstruction of blood flow within the vessel lumen rather than the thrombus itself. The present visualization method, which relies on observation of the dense artery sign (the appearance of cerebral thrombi on a non-enhanced CT), suffers from low sensitivity. When translated into the clinical setting, direct thrombus imaging is likely to enable individualized acute stroke therapy by allowing clinicians to detect the thrombus with high sensitivity, assess the size and nature of the thrombus more precisely, serially monitor the therapeutic effects of thrombolysis, and detect post-treatment recurrence. This review is intended to provide recent updates on stroke-related direct thrombus imaging using MR imaging, positron emission tomography, or CT.
Published: 2016
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8. Regulation of Monocyte Functional Heterogeneity by miR-146a and Relb

Author: Martin Etzrodt, Virna Cortez-Retamozo, Andita Newton, Jimmy Zhao, Aylwin Ng, Moritz Wildgruber, Pedro Romero, Thomas Wurdinger, Ramnik Xavier, Frederic Geissmann, Etienne Meylan, Matthias Nahrendorf, Filip K. Swirski, David Baltimore, Ralph Weissleder, and Mikael J. Pittet
Subjects: Biology (General), QH301-705.5
Abstract: Monocytes serve as a central defense system against infection and injury but can also promote pathological inflammatory responses. Considering the evidence that monocytes exist in at least two subsets committed to divergent functions, we investigated whether distinct factors regulate the balance between monocyte subset responses in vivo. We identified a microRNA (miRNA), miR-146a, which is differentially regulated both in mouse (Ly-6Chi/Ly-6Clo) and human (CD14hi/CD14loCD16+) monocyte subsets. The single miRNA controlled the amplitude of the Ly-6Chi monocyte response during inflammatory challenge whereas it did not affect Ly-6Clo cells. miR-146a-mediated regulation was cell-intrinsic and depended on Relb, a member of the noncanonical NF-κB/Rel family, which we identified as a direct miR-146a target. These observations not only provide mechanistic insights into the molecular events that regulate responses mediated by committed monocyte precursor populations but also identify targets for manipulating Ly-6Chi monocyte responses while sparing Ly-6Clo monocyte activity.
Published: 2012
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9. Behavior of Endogenous Tumor-Associated Macrophages Assessed In Vivo Using a Functionalized Nanoparticle

Author: Antoine Leimgruber, Cedric Berger, Virna Cortez-Retamozo, Martin Etzrodt, Andita P. Newton, Peter Waterman, Jose Luiz Figueiredo, Rainer H. Kohler, Natalie Elpek, Thorsten R. Mempel, Filip K. Swirski, Matthias Nahrendorf, Ralph Weissleder, and Mikael J. Pittet
Subjects: Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract: Tumor-associated macrophages (TAMs) invade the tumor stroma in many cancers, yet their role is incompletely understood. To visualize and better understand these critical cells in tumor progression, we screened a portfolio of rationally selected, injectable agents to image endogenous TAMs ubiquitously in three different cancer models (colon carcinoma, lung adenocarcinoma, and soft tissue sarcoma). AMTA680, a functionally derivatized magneto-fluorescent nanoparticle, labeled a subset of myeloid cells with an “M2” macrophage phenotype, whereas other neighboring cells, including tumor cells and a variety of other leukocytes, remained unlabeled. We further show that AMTA680-labeled endogenous TAMs are not altered and can be tracked noninvasively at different resolutions and using various imaging modalities, e.g., fluorescence molecular tomography, magnetic resonance imaging, and multiphoton and confocal intravital microscopy. Quantitative assessment of TAM distribution and activity in vivo identified that these cells cluster in delimited foci within tumors, show relatively low motility, and extend cytoplasmic protrusions for prolonged physical interactions with neighboring tumor cells. Noninvasive imaging can also be used to monitor TAM-depleting regimen quantitatively. Thus, AMTA680 or related cell-targeting agents represent appropriate injectable vehicles for in vivo analysis of the tumor microenvironment.
Published: 2009
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10. Mapping molecular agents distributions in whole mice hearts using born-normalized optical projection tomography.

Author: Claudio Vinegoni, Paolo Fumene Feruglio, Daniel Razansky, Rostic Gorbatov, Vasilis Ntziachristos, Andrea Sbarbati, Matthias Nahrendorf, and Ralph Weissleder
Subjects: Medicine, Science
Abstract: To date there is a lack of tools to map the spatio-temporal dynamics of diverse cells in experimental heart models. Conventional histology is labor intensive with limited coverage, whereas many imaging techniques do not have sufficiently high enough spatial resolution to map cell distributions. We have designed and built a high resolution, dual channel Born-normalized near-infrared fluorescence optical projection tomography system to quantitatively and spatially resolve molecular agents distribution within whole murine heart. We validated the use of the system in a mouse model of monocytes/macrophages recruitment during myocardial infarction. While acquired, data were processed and reconstructed in real time. Tomographic analysis and visualization of the key inflammatory components were obtained via a mathematical formalism based on left ventricular modeling. We observed extensive monocyte recruitment within and around the infarcted areas and discovered that monocytes were also extensively recruited into non-ischemic myocardium, beyond that of injured tissue, such as the septum.
Published: 2012
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11. Systemic RNAi-mediated Gene Silencing in Nonhuman Primate and Rodent Myeloid Cells

Author: Tatiana I Novobrantseva, Anna Borodovsky, Jamie Wong, Boris Klebanov, Mohammad Zafari, Kristina Yucius, William Querbes, Pei Ge, Vera M Ruda, Stuart Milstein, Lauren Speciner, Rick Duncan, Scott Barros, Genc Basha, Pieter Cullis, Akin Akinc, Jessica S Donahoe, K Narayanannair Jayaprakash, Muthusamy Jayaraman, Roman L Bogorad, Kevin Love, Katie Whitehead, Chris Levins, Muthiah Manoharan, Filip K Swirski, Ralph Weissleder, Robert Langer, Daniel G Anderson, Antonin de Fougerolles, Matthias Nahrendorf, and Victor Koteliansky
Subjects: delivery, immune cell, siRNA, Therapeutics. Pharmacology, RM1-950
Abstract: Leukocytes are central regulators of inflammation and the target cells of therapies for key diseases, including autoimmune, cardiovascular, and malignant disorders. Efficient in vivo delivery of small interfering RNA (siRNA) to immune cells could thus enable novel treatment strategies with broad applicability. In this report, we develop systemic delivery methods of siRNA encapsulated in lipid nanoparticles (LNP) for durable and potent in vivo RNA interference (RNAi)-mediated silencing in myeloid cells. This work provides the first demonstration of siRNA-mediated silencing in myeloid cell types of nonhuman primates (NHPs) and establishes the feasibility of targeting multiple gene targets in rodent myeloid cells. The therapeutic potential of these formulations was demonstrated using siRNA targeting tumor necrosis factor-α (TNFα) which induced substantial attenuation of disease progression comparable to a potent antibody treatment in a mouse model of rheumatoid arthritis (RA). In summary, we demonstrate a broadly applicable and therapeutically relevant platform for silencing disease genes in immune cells.
Published: 2012
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12. Rapid biocompatibility analysis of materials via in vivo fluorescence imaging of mouse models.

Author: Kaitlin M Bratlie, Tram T Dang, Stephen Lyle, Matthias Nahrendorf, Ralph Weissleder, Robert Langer, and Daniel G Anderson
Subjects: Medicine, Science
Abstract: BACKGROUND: Many materials are unsuitable for medical use because of poor biocompatibility. Recently, advances in the high throughput synthesis of biomaterials has significantly increased the number of potential biomaterials, however current biocompatibility analysis methods are slow and require histological analysis. METHODOLOGY/PRINCIPAL FINDINGS: Here we develop rapid, non-invasive methods for in vivo quantification of the inflammatory response to implanted biomaterials. Materials were placed subcutaneously in an array format and monitored for host responses as per ISO 10993-6: 2001. Host cell activity in response to these materials was imaged kinetically, in vivo using fluorescent whole animal imaging. Data captured using whole animal imaging displayed similar temporal trends in cellular recruitment of phagocytes to the biomaterials compared to histological analysis. CONCLUSIONS/SIGNIFICANCE: Histological analysis similarity validates this technique as a novel, rapid approach for screening biocompatibility of implanted materials. Through this technique there exists the possibility to rapidly screen large libraries of polymers in vivo.
Published: 2010
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13. Monocyte subset dynamics in human atherosclerosis can be profiled with magnetic nano-sensors.

Author: Moritz Wildgruber, Hakho Lee, Aleksey Chudnovskiy, Tae-Jong Yoon, Martin Etzrodt, Mikael J Pittet, Matthias Nahrendorf, Kevin Croce, Peter Libby, Ralph Weissleder, and Filip K Swirski
Subjects: Medicine, Science
Abstract: Monocytes are circulating macrophage and dendritic cell precursors that populate healthy and diseased tissue. In humans, monocytes consist of at least two subsets whose proportions in the blood fluctuate in response to coronary artery disease, sepsis, and viral infection. Animal studies have shown that specific shifts in the monocyte subset repertoire either exacerbate or attenuate disease, suggesting a role for monocyte subsets as biomarkers and therapeutic targets. Assays are therefore needed that can selectively and rapidly enumerate monocytes and their subsets. This study shows that two major human monocyte subsets express similar levels of the receptor for macrophage colony stimulating factor (MCSFR) but differ in their phagocytic capacity. We exploit these properties and custom-engineer magnetic nanoparticles for ex vivo sensing of monocytes and their subsets. We present a two-dimensional enumerative mathematical model that simultaneously reports number and proportion of monocyte subsets in a small volume of human blood. Using a recently described diagnostic magnetic resonance (DMR) chip with 1 microl sample size and high throughput capabilities, we then show that application of the model accurately quantifies subset fluctuations that occur in patients with atherosclerosis.
Published: 2009
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14. Assessment of Cardiovascular Apoptosis in the Isolated Rat Heart by Magnetic Resonance Molecular Imaging

Author: Karl-Heinz Hiller, Christiane Waller, Matthias Nahrendorf, Wolfgang R. Bauer, and Peter M. Jakob
Subjects: Biology (General), QH301-705.5, Medical technology, R855-855.5
Abstract: Apoptosis, an active process of cell self-destruction, is associated with myocardial ischemia. The redistribution of phosphatidylserine (PS) from the inner to the outer leaflet of the cell membrane is an early event in apoptosis. Annexin V, a protein with high specificity and tight binding to PS, was used to identify and localize apoptosis in the ischemic heart. Fluorescein-labeled annexin V has been used routinely for the assessment of apoptosis in vitro. For the detection of apoptosis in vivo, positron emission tomography and single-photon emission computed tomography have been shown to be suitable tools. In view of the relatively low spatial resolution of nuclear imaging techniques, we developed a high-resolution contrast-enhanced magnetic resonance imaging (MRI) method that allows rapid and noninvasive monitoring of apoptosis in intact organs. Instead of employing superparamagnetic iron oxide particles linked to annexin V, a new T 1 contrast agent was used. To this effect, annexin V was linked to gadolinium diethylenetriamine pentaacetate (Gd-DTPA)-coated liposomes. The left coronary artery of perfused isolated rat hearts was ligated for 30 min followed by reperfusion. T 1 and T 2 * images were acquired by using an 11.7-T magnet before and after intracoronary injection of Gd-DTP-labeled annexin V to visualize apoptotic cells. A significant increase in signal intensity was visible in those regions containing cardiomyocytes in the early stage of apoptosis. Because labeling of early apoptotic cell death in intact organs by histological and immunohistochemical methods remains challenging, the use of Gd-DTPA-labeled annexin V in MRI is clearly an improvement in rapid targeting of apoptotic cells in the ischemic and reperfused myocardium.
Published: 2006
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15. Cellular Imaging of Inflammation in Atherosclerosis Using Magnetofluorescent Nanomaterials

Author: Farouc A. Jaffer, Matthias Nahrendorf, David Sosnovik, Kimberly A. Kelly, Elena Aikawa, and Ralph Weissleder
Subjects: Biology (General), QH301-705.5, Medical technology, R855-855.5
Abstract: Objective: Magnetofluorescent nanoparticles (MFNPs) offer the ability to image cellular inflammation in vivo. To better understand their cellular targeting and imaging capabilities in atherosclerosis, we investigated prototypical dextran-coated near-infrared fluorescent MFNPs in the apolipoprotein E-deficient (apo E−/−) mouse model. Methods and Results: In vitro MFNP uptake was highest in activated murine macrophages ( p < .001). Apo E−/− mice ( n = 11) were next injected with the MFNP (15 mg/kg iron) or saline. In vivo magnetic resonance imaging (MRI) demonstrated strong plaque enhancement by the MFNPs ( p < .001 vs. saline), which was confirmed by multimodality ex vivo MRI and fluorescence reflectance imaging. On fluorescence microscopy, MFNPs were found in cellular-rich areas of atheroma and colocalized with immunofluorescent macrophages over endothelial cells and smooth muscle cells ( p < .001). Conclusions: Here we show that (1) the in vitro and in vivo cellular distribution of atherosclerosis-targeted MFNPs can be quantified by using fluorescence imaging methods; (2) in atherosclerosis, dextranated MFNPs preferentially target macrophages; and (3) MFNP deposition in murine atheroma can be noninvasively detected by in vivo MRI. This study thus provides a foundation for using MFNPs to image genetic and/or pharmacological perturbations of cellular inflammation in experimental atherosclerosis and for the future development of novel targeted nanomaterials for atherosclerosis.
Published: 2006
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16. Does FXIII deficiency impair wound healing after myocardial infarction?

Author: Matthias Nahrendorf, Ralph Weissleder, and Georg Ertl
Subjects: Medicine, Science
Abstract: Inadequate healing of myocardial infarction may contribute to local expansion of the infarct, frequently leading to chamber dilation, heart failure, or myocardial rupture. Experimental evidence in mouse models suggests that Factor XIII might play a key role in wound healing, and low persistent values lead to increased incidence of cardiac rupture following myocardial infarction. Here we would like to share our initial clinical experiences with strikingly similar observations in patients with this grave disease, and compare these observations to experimental findings.
Published: 2006
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17. PET/MR imaging of inflammation in atherosclerosis

Author: Max L. Senders, Claudia Calcagno, Ahmed Tawakol, Matthias Nahrendorf, Willem J. M. Mulder, and Zahi A. Fayad
Subjects: All institutes and research themes of the Radboud University Medical Center, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Nanomedicine Radboud Institute for Molecular Life Sciences [Radboudumc 19], Computer Science Applications, Biotechnology
Abstract: Item does not contain fulltext Myocardial infarction, stroke, mental disorders, neurodegenerative processes, autoimmune diseases, cancer and the human immunodeficiency virus impact the haematopoietic system, which through immunity and inflammation may aggravate pre-existing atherosclerosis. The interplay between the haematopoietic system and its modulation of atherosclerosis has been studied by imaging the cardiovascular system and the activation of haematopoietic organs via scanners integrating positron emission tomography and resonance imaging (PET/MRI). In this Perspective, we review the applicability of integrated whole-body PET/MRI for the study of immune-mediated phenomena associated with haematopoietic activity and cardiovascular disease, and discuss the translational opportunities and challenges of the technology.
Published: 2022

18. A Mouse Model of Atrial Fibrillation in Sepsis

Author: Aneesh Bapat, Maximilian J. Schloss, Masahiro Yamazoe, Jana Grune, Maarten Hulsmans, David J. Milan, Matthias Nahrendorf, and Patrick T. Ellinor
Subjects: Physiology (medical), Cardiology and Cardiovascular Medicine
Published: 2023

19. Group 2 innate lymphoid cells protect mouse heart from myocardial infarction injury via interleukin 5, eosinophils, and dendritic cells

Author: Tianxiao Liu, Zhaojie Meng, Jing Liu, Jie Li, Yuanyuan Zhang, Zhiyong Deng, Songyuan Luo, Minjie Wang, Qin Huang, Shuya Zhang, Pauline Fendt, Julie Devouassoux, Dazhu Li, Andrew Neil James McKenzie, Matthias Nahrendorf, Peter Libby, Junli Guo, and Guo-Ping Shi
Subjects: Physiology, Physiology (medical), Cardiology and Cardiovascular Medicine
Abstract: Aims Group 2 innate lymphoid cells (ILC2s) regulate adaptive and innate immunities. In mouse heart, production of myocardial infarction (MI) increased ILC2 accumulation, suggesting a role for ILC2 in cardiac dysfunction post-MI. Methods and results We produced MI in ILC2-deficeint Rorafl/flIl7rCre/+ mice and in Icosfl-DTR-fl/+Cd4Cre/+ mice that allowed diphtheria toxin-induced ILC2 depletion. Genetic or induced deficiency of ILC2 in mice exacerbated cardiac dysfunction post-MI injury along with increased myocardial accumulation of neutrophils, CD11b+Ly6Chi monocytes, and CD4+ T cells but deficiency of eosinophils (EOS) and dendritic cells (DC). Post-MI hearts from genetic and induced ILC2-deficient mice contained many more apoptotic cells than those of control mice, and Rorafl/flIl7rCre/+ mice showed thinner and larger infarcts and more collagen-I depositions than the Il7rCre/+ mice only at early time points post-MI. Mechanistic studies revealed elevated blood IL5 in Il7rCre/+ mice at 1, 7, and 28 days post-MI. Such increase was blunted in Rorafl/flIl7rCre/+ mice. Administration of recombinant IL5 reversed EOS losses in Rorafl/flIl7rCre/+ mice, but IL5 did not correct the DC loss in these mice. Adoptive transfer of ILC2, EOS, or DC from wild-type mice, but not ILC2 from Il5−/− mice improved post-MI cardiac functions in Rorafl/flIl7rCre/+ recipient mice. EOS are known to protect cardiomyocytes from apoptosis. Here we showed that DC acted like EOS in blocking cardiomyocyte apoptosis. Yet, ILC2 or IL5 alone did not directly affect cardiomyocyte apoptosis or TGF-β (transforming growth factor-β)-induced cardiac fibroblast Smad signalling. Conclusion This study revealed an indirect cardiac reparative role of ILC2 in post-MI hearts via the IL5, EOS, and DC mechanism.
Published: 2022

20. Neutrophils incite and macrophages avert electrical storm after myocardial infarction

Author: Jana, Grune, Andrew J M, Lewis, Masahiro, Yamazoe, Maarten, Hulsmans, David, Rohde, Ling, Xiao, Shuang, Zhang, Christiane, Ott, David M, Calcagno, Yirong, Zhou, Kerstin, Timm, Mayooran, Shanmuganathan, Fadi E, Pulous, Maximilian J, Schloss, Brody H, Foy, Diane, Capen, Claudio, Vinegoni, Gregory R, Wojtkiewicz, Yoshiko, Iwamoto, Tilman, Grune, Dennis, Brown, John, Higgins, Vanessa M, Ferreira, Neil, Herring, Keith M, Channon, Stefan, Neubauer, David E, Sosnovik, David J, Milan, Filip K, Swirski, Kevin R, King, Aaron D, Aguirre, Patrick T, Ellinor, and Matthias, Nahrendorf
Abstract: Sudden cardiac death, arising from abnormal electrical conduction, occurs frequently in patients with coronary heart disease. Myocardial ischemia simultaneously induces arrhythmia and massive myocardial leukocyte changes. In this study, we optimized a mouse model in which hypokalemia combined with myocardial infarction triggered spontaneous ventricular tachycardia in ambulatory mice, and we showed that major leukocyte subsets have opposing effects on cardiac conduction. Neutrophils increased ventricular tachycardia via lipocalin-2 in mice, whereas neutrophilia associated with ventricular tachycardia in patients. In contrast, macrophages protected against arrhythmia. Depleting recruited macrophages in Ccr2−/− mice or all macrophage subsets with Csf1 receptor inhibition increased both ventricular tachycardia and fibrillation. Higher arrhythmia burden and mortality in Cd36−/− and Mertk−/− mice, viewed together with reduced mitochondrial integrity and accelerated cardiomyocyte death in the absence of macrophages, indicated that receptor-mediated phagocytosis protects against lethal electrical storm. Thus, modulation of leukocyte function provides a potential therapeutic pathway for reducing the risk of sudden cardiac death.
Published: 2022

21. Single-nucleus profiling of human dilated and hypertrophic cardiomyopathy

Author: Mark Chaffin, Irinna Papangeli, Bridget Simonson, Amer-Denis Akkad, Matthew C. Hill, Alessandro Arduini, Stephen J. Fleming, Michelle Melanson, Sikander Hayat, Maria Kost-Alimova, Ondine Atwa, Jiangchuan Ye, Kenneth C. Bedi, Matthias Nahrendorf, Virendar K. Kaushik, Christian M. Stegmann, Kenneth B. Margulies, Nathan R. Tucker, and Patrick T. Ellinor
Subjects: Multidisciplinary
Published: 2022

22. Interleukin-3 coordinates glial-peripheral immune crosstalk to incite multiple sclerosis

Author: Máté G. Kiss, John E. Mindur, Abi G. Yates, Donghoon Lee, John F. Fullard, Atsushi Anzai, Wolfram C. Poller, Kathleen A. Christie, Yoshiko Iwamoto, Vladimir Roudko, Jeffrey Downey, Christopher T. Chan, Pacific Huynh, Henrike Janssen, Achilles Ntranos, Jan D. Hoffmann, Walter Jacob, Sukanya Goswami, Sumnima Singh, David Leppert, Jens Kuhle, Seunghee Kim-Schulze, Matthias Nahrendorf, Benjamin P. Kleinstiver, Fay Probert, Panos Roussos, Filip K. Swirski, and Cameron S. McAlpine
Subjects: Infectious Diseases, Immunology, Immunology and Allergy
Published: 2023

23. Multiparametric Immunoimaging Maps Inflammatory Signatures in Murine Myocardial Infarction Models

Author: Alexander Maier, Yohana C. Toner, Jazz Munitz, Nathaniel A.T. Sullivan, Ken Sakurai, Anu E. Meerwaldt, Eliane E.S. Brechbühl, Geoffrey Prévot, Yuri van Elsas, Rianne J.F. Maas, Anna Ranzenigo, Georgios Soultanidis, Mohammad Rashidian, Carlos Pérez-Medina, Gyu Seong Heo, Robert J. Gropler, Yongjian Liu, Thomas Reiner, Matthias Nahrendorf, Filip K. Swirski, Gustav J. Strijkers, Abraham J.P. Teunissen, Claudia Calcagno, Zahi A. Fayad, Willem J.M. Mulder, and Mandy M.T. van Leent
Subjects: Cardiology and Cardiovascular Medicine
Published: 2023

24. Myeloperoxidase PET Imaging Tracks Intracellular and Extracellular Treatment Changes in Experimental Myocardial Infarction

Author: Matthias W. G. Zeller, Cuihua Wang, Edmund J. Keliher, Gregory R. Wojtkiewicz, Aaron Aguirre, Kevin Maresca, Chunyan Su, Leonard Buckbinder, Jing Wang, Matthias Nahrendorf, and John W. Chen
Subjects: Inorganic Chemistry, Organic Chemistry, myeloperoxidase, PET imaging, 18F-MAPP, damaging inflammation, myocardial infarction, intracellular and extracellular MPO, MPO inhibitor, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications
Abstract: Myeloperoxidase (MPO) is a highly oxidative, pro-inflammatory enzyme involved in post-myocardial infarction (MI) injury and is a potential therapeutic target. While multiple MPO inhibitors have been developed, the lack of an imaging reporter to select appropriate patients and assess therapeutic efficacy has hampered clinical development. Thus, a translational imaging method to detect MPO activity non-invasively would help to better understand the role MPO plays in MI and facilitate novel therapy development and clinical validation. Interestingly, many MPO inhibitors affect both intracellular and extracellular MPO, but previous MPO imaging methods can only report extracellular MPO activity. In this study, we found that an MPO-specific PET imaging agent (18F-MAPP) can cross cell membranes to report intracellular MPO activity. We showed that 18F-MAPP can track the treatment effect of an MPO inhibitor (PF-2999) at different doses in experimental MI. The imaging results were corroborated by ex vivo autoradiography and gamma counting data. Furthermore, extracellular and intracellular MPO activity assays revealed that 18F-MAPP imaging can report the changes induced by PF-2999 on both intracellular and extracellular MPO activities. These findings support 18F-MAPP as a translational candidate to noninvasively report MPO activity and accelerate drug development against MPO and other related inflammatory targets.
Published: 2023
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25. Brain motor and fear circuits regulate leukocytes during acute stress

Author: Wolfram C. Poller, Jeffrey Downey, Agnes A. Mooslechner, Nargis Khan, Long Li, Christopher T. Chan, Cameron S. McAlpine, Chunliang Xu, Florian Kahles, Shun He, Henrike Janssen, John E. Mindur, Sumnima Singh, Máté G. Kiss, Laura Alonso-Herranz, Yoshiko Iwamoto, Rainer H. Kohler, Lai Ping Wong, Kashish Chetal, Scott J. Russo, Ruslan I. Sadreyev, Ralph Weissleder, Matthias Nahrendorf, Paul S. Frenette, Maziar Divangahi, and Filip K. Swirski
Subjects: Motor Neurons, Multidisciplinary, Lymphoid Tissue, Neutrophils, SARS-CoV-2, Brain, COVID-19, Bone Marrow Cells, Fear, Article, Monocytes, Optogenetics, Mice, Orthomyxoviridae Infections, Neural Pathways, Leukocytes, Animals, Humans, Disease Susceptibility, Lymphocytes, Chemokines, Glucocorticoids, Stress, Psychological, Paraventricular Hypothalamic Nucleus
Abstract: The nervous and immune systems are intricately linked(1). Although psychological stress is known to modulate immune function, mechanistic pathways linking stress networks in the brain to peripheral leukocytes remain poorly understood(2). Here we show that distinct brain regions shape leukocyte distribution and function throughout the body during acute stress in mice. Using optogenetics and chemogenetics, we demonstrate that motor circuits induce rapid neutrophil mobilization from the bone marrow to peripheral tissues through skeletal-muscle-derived neutrophil-attracting chemokines. Conversely, the paraventricular hypothalamus controls monocyte and lymphocyte egress from secondary lymphoid organs and blood to the bone marrow through direct, cell-intrinsic glucocorticoid signalling. These stress-induced, counter-directional, population-wide leukocyte shifts are associated with altered disease susceptibility. On the one hand, acute stress changes innate immunity by reprogramming neutrophils and directing their recruitment to sites of injury. On the other hand, corticotropin-releasing hormone neuron-mediated leukocyte shifts protect against the acquisition of autoimmunity, but impair immunity to SARS-CoV-2 and influenza infection. Collectively, these data show that distinct brain regions differentially and rapidly tailor the leukocyte landscape during psychological stress, therefore calibrating the ability of the immune system to respond to physical threats.
Published: 2022

26. Cerebrospinal fluid can exit into the skull bone marrow and instruct cranial hematopoiesis in mice with bacterial meningitis

Author: Fadi E. Pulous, Jean C. Cruz-Hernández, Chongbo Yang, Ζeynep Kaya, Alexandre Paccalet, Gregory Wojtkiewicz, Diane Capen, Dennis Brown, Juwell W. Wu, Maximilian J. Schloss, Claudio Vinegoni, Dmitry Richter, Masahiro Yamazoe, Maarten Hulsmans, Noor Momin, Jana Grune, David Rohde, Cameron S. McAlpine, Peter Panizzi, Ralph Weissleder, Dong-Eog Kim, Filip K. Swirski, Charles P. Lin, Michael A. Moskowitz, and Matthias Nahrendorf
Subjects: Mice, Bone Marrow, General Neuroscience, Skull, Animals, Brain, Glymphatic System, Cerebrospinal Fluid, Hematopoiesis, Meningitis, Bacterial
Abstract: Interactions between the immune and central nervous systems strongly influence brain health. Although the blood-brain barrier restricts this crosstalk, we now know that meningeal gateways through brain border tissues facilitate intersystem communication. Cerebrospinal fluid (CSF), which interfaces with the glymphatic system and thereby drains the brain's interstitial and perivascular spaces, facilitates outward signaling beyond the blood-brain barrier. In the present study, we report that CSF can exit into the skull bone marrow. Fluorescent tracers injected into the cisterna magna of mice migrate along perivascular spaces of dural blood vessels and then travel through hundreds of sub-millimeter skull channels into the calvarial marrow. During meningitis, bacteria hijack this route to invade the skull's hematopoietic niches and initiate cranial hematopoiesis ahead of remote tibial sites. As skull channels also directly provide leukocytes to meninges, the privileged sampling of brain-derived danger signals in CSF by regional marrow may have broad implications for inflammatory neurological disorders.
Published: 2022

27. B lymphocyte-derived acetylcholine limits steady-state and emergency hematopoiesis

Author: Maximilian J. Schloss, Maarten Hulsmans, David Rohde, I-Hsiu Lee, Nicolas Severe, Brody H. Foy, Fadi E. Pulous, Shuang Zhang, Konstantinos D. Kokkaliaris, Vanessa Frodermann, Gabriel Courties, Chongbo Yang, Yoshiko Iwamoto, Anders Steen Knudsen, Cameron S. McAlpine, Masahiro Yamazoe, Stephen P. Schmidt, Gregory R. Wojtkiewicz, Gustavo Santos Masson, Karin Gustafsson, Diane Capen, Dennis Brown, John M. Higgins, David T. Scadden, Peter Libby, Filip K. Swirski, Kamila Naxerova, and Matthias Nahrendorf
Subjects: B-Lymphocytes, Mice, Immunology, Cholinergic Agents, Animals, Immunology and Allergy, Stem Cell Niche, Acetylcholine, Hematopoiesis
Abstract: Autonomic nerves control organ function through the sympathetic and parasympathetic branches, which have opposite effects. In the bone marrow, sympathetic (adrenergic) nerves promote hematopoiesis; however, how parasympathetic (cholinergic) signals modulate hematopoiesis is unclear. Here, we show that B lymphocytes are an important source of acetylcholine, a neurotransmitter of the parasympathetic nervous system, which reduced hematopoiesis. Single-cell RNA sequencing identified nine clusters of cells that expressed the cholinergic α7 nicotinic receptor (Chrna7) in the bone marrow stem cell niche, including endothelial and mesenchymal stromal cells (MSCs). Deletion of B cell-derived acetylcholine resulted in the differential expression of various genes, including Cxcl12 in leptin receptor
Published: 2022

28. Bone marrow endothelial dysfunction promotes myeloid cell expansion in cardiovascular disease

Author: David Rohde, Katrien Vandoorne, I-Hsiu Lee, Jana Grune, Shuang Zhang, Cameron S. McAlpine, Maximilian J. Schloss, Ribhu Nayar, Gabriel Courties, Vanessa Frodermann, Gregory Wojtkiewicz, Lisa Honold, Qi Chen, Stephen Schmidt, Yoshiko Iwamoto, Yuan Sun, Sebastian Cremer, Friedrich F. Hoyer, Oriol Iborra-Egea, Christian Muñoz-Guijosa, Fei Ji, Bin Zhou, Ralf H. Adams, Joshua D. Wythe, Juan Hidalgo, Hideto Watanabe, Yookyung Jung, Anja M. van der Laan, Jan J. Piek, Youmna Kfoury, Pauline A. Désogère, Claudio Vinegoni, Partha Dutta, Ruslan I. Sadreyev, Peter Caravan, Antoni Bayes-Genis, Peter Libby, David T. Scadden, Charles P. Lin, Kamila Naxerova, Filip K. Swirski, Matthias Nahrendorf, Cardiology, Amsterdam Cardiovascular Sciences, and ACS - Heart failure & arrhythmias
Abstract: Abnormal hematopoiesis advances cardiovascular disease by generating excess inflammatory leukocytes that attack the arteries and the heart. The bone marrow niche regulates hematopoietic stem cell proliferation and hence the systemic leukocyte pool, but whether cardiovascular disease affects the hematopoietic organ’s microvasculature is unknown. Here we show that hypertension, atherosclerosis and myocardial infarction (MI) instigate endothelial dysfunction, leakage, vascular fibrosis and angiogenesis in the bone marrow, altogether leading to overproduction of inflammatory myeloid cells and systemic leukocytosis. Limiting angiogenesis with endothelial deletion of Vegfr2 (encoding vascular endothelial growth factor (VEGF) receptor 2) curbed emergency hematopoiesis after MI. We noted that bone marrow endothelial cells assumed inflammatory transcriptional phenotypes in all examined stages of cardiovascular disease. Endothelial deletion of Il6 or Vcan (encoding versican), genes shown to be highly expressed in mice with atherosclerosis or MI, reduced hematopoiesis and systemic myeloid cell numbers in these conditions. Our findings establish that cardiovascular disease remodels the vascular bone marrow niche, stimulating hematopoiesis and production of inflammatory leukocytes.
Published: 2022

29. Immune cells in cardiac homeostasis and disease: emerging insights from novel technologies

Author: Sabine Steffens, Matthias Nahrendorf, and Rosalinda Madonna
Subjects: Wound Healing, Heart Diseases, cardiovascular system, Myocardial Infarction, Homeostasis, Humans, State of the Art Review, Heart, Cardiology and Cardiovascular Medicine
Abstract: The increasing use of single-cell immune profiling and advanced microscopic imaging technologies has deepened our understanding of the cardiac immune system, confirming that the heart contains a broad repertoire of innate and adaptive immune cells. Leucocytes found in the healthy heart participate in essential functions to preserve cardiac homeostasis, not only by defending against pathogens but also by maintaining normal organ function. In pathophysiological conditions, cardiac inflammation is implicated in healing responses after ischaemic or non-ischaemic cardiac injury. The aim of this review is to provide a concise overview of novel methodological advancements to the non-expert readership and summarize novel findings on immune cell heterogeneity and functions in cardiac disease with a focus on myocardial infarction as a prototypic example. In addition, we will briefly discuss how biological sex modulate the cardiac immune response. Finally, we will highlight emerging concepts for novel therapeutic applications, such as targeting immunometabolism and nanomedicine.
Published: 2021

30. Relation of Pre‐Stroke Aspirin Use With Cerebral Infarct Volume and Functional Outcomes

Author: Soo Joo Lee, Beom Joon Kim, Wi Sun Ryu, Sang-Soon Park, Moon-Ku Han, Tai Hwan Park, Jun Lee, Jae-Kwan Cha, Mi Sun Oh, Man Seok Park, Dae-Hyun Kim, Hee-Joon Bae, Kyung Bok Lee, Hong-Kyun Park, Kang-Ho Choi, Kyung-Ho Yu, Kyusik Kang, Dawid Schellingerhout, Jae Guk Kim, Yong-Jin Cho, Sang-Wuk Jeong, Joon-Tae Kim, Keun-Sik Hong, Byung-Chul Lee, Jong-Moo Park, Juneyoung Lee, Matthias Nahrendorf, and Dong-Eog Kim
Subjects: Male, medicine.medical_specialty, medicine.medical_treatment, Severity of Illness Index, Brain Ischemia, Fibrinolytic Agents, Modified Rankin Scale, Internal medicine, Humans, Medicine, cardiovascular diseases, Stroke, Aged, Aged, 80 and over, Aspirin, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, Cerebral Infarction, Thrombolysis, Middle Aged, Atherosclerosis, medicine.disease, Confidence interval, Treatment Outcome, Neurology, Propensity score matching, Infarct volume, Cardiology, Female, Neurology (clinical), business, medicine.drug
Abstract: OBJECTIVE We investigated (1) the associations of pre-stroke aspirin use with thrombus burden, infarct volume, hemorrhagic transformation, early neurological deterioration (END), and functional outcome, and (2) whether stroke subtypes modify these associations in first-ever ischemic stroke. METHODS This multicenter magnetic resonance imaging (MRI)-based study included 5,700 consecutive patients with acute first-ever ischemic stroke, who did not undergo intravenous thrombolysis or endovascular thrombectomy, from May 2011 through February 2014. Propensity score-based augmented inverse probability weighting was performed to estimate adjusted effects of pre-stroke aspirin use. RESULTS The mean age was 67 years (41% women), and 15.9% (n = 907) were taking aspirin before stroke. Pre-stroke aspirin use (vs nonuse) was significantly related to a reduced infarct volume (by 30%), particularly in large artery atherosclerosis stroke (by 45%). In cardioembolic stroke, pre-stroke aspirin use was associated with a ~50% lower incidence of END (adjusted difference = -5.4%, 95% confidence interval [CI] = -8.9 to -1.9). Thus, pre-stroke aspirin use was associated with ~30% higher likelihood of favorable outcome (3-month modified Rankin Scale score
Published: 2021

31. Mischief in the marrow: a root of cardiovascular evil

Author: Peter Libby, Matthias Nahrendorf, and Filip K Swirski
Subjects: Cardiology and Cardiovascular Medicine
Published: 2022

32. Infectious and lifestyle modifiers of immunity and host resilience

Author: Geetika Bajpai and Matthias Nahrendorf
Subjects: 0301 basic medicine, animal diseases, media_common.quotation_subject, Immunology, chemical and pharmacologic phenomena, Inflammation, Dysfunctional family, Disease, Biology, Infections, 03 medical and health sciences, 0302 clinical medicine, Immune system, Immunity, medicine, Animals, Humans, Immunology and Allergy, Life Style, media_common, Innate immune system, biochemical phenomena, metabolism, and nutrition, Immunity, Innate, Vaccination, 030104 developmental biology, Infectious Diseases, Cardiovascular Diseases, Immune System, 030220 oncology & carcinogenesis, bacteria, Disease Susceptibility, Psychological resilience, medicine.symptom
Abstract: The interindividual heterogeneity of the immune system likely determines the personal risk for acquiring infections and developing diseases with inflammatory components. In addition to genetic factors, the immune system's heterogeneity is driven by diverging exposures of leukocytes and their progenitors to infections, vaccinations, and health behavior, including lifestyle-related stimuli such as diet, physical inactivity, and psychosocial stress. We review how such experiences alter immune cell responses to concurrent and subsequent challenges, leading to either improved host resilience or disease susceptibility due to a muted or overzealous immune system, with a primary focus on the contribution of innate immune cells. We explore the involvement of diverse mechanisms, including trained immunity, and their relevance for infections and cardiovascular disease, as these prevalent conditions are heavily influenced by immune cell abundance and phenotypic adaptions. Understanding the mechanistic bases of immune modulations by prior or co-exposures may lead to new therapies targeting dysfunctional inflammation.
Published: 2021

33. Electroimmunology and cardiac arrhythmia

Author: Masahiro Yamazoe, Matthias Nahrendorf, and Jana Grune
Subjects: 0301 basic medicine, Population, Epiphenomenon, Inflammation, 030204 cardiovascular system & hematology, Article, 03 medical and health sciences, 0302 clinical medicine, Immune system, Allergy and Immunology, medicine, Humans, cardiovascular diseases, education, education.field_of_study, business.industry, Cardiac arrhythmia, Arrhythmias, Cardiac, Atrial fibrillation, medicine.disease, Electrophysiological Phenomena, Electrophysiology, 030104 developmental biology, Heart failure, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Neuroscience
Abstract: Conduction disorders and arrhythmias remain difficult to treat and are increasingly prevalent owing to the increasing age and body mass of the general population, because both are risk factors for arrhythmia. Many of the underlying conditions that give rise to arrhythmia - including atrial fibrillation and ventricular arrhythmia, which frequently occur in patients with acute myocardial ischaemia or heart failure - can have an inflammatory component. In the past, inflammation was viewed mostly as an epiphenomenon associated with arrhythmia; however, the recently discovered inflammatory and non-canonical functions of cardiac immune cells indicate that leukocytes can be arrhythmogenic either by altering tissue composition or by interacting with cardiomyocytes; for example, by changing their phenotype or perhaps even by directly interfering with conduction. In this Review, we discuss the electrophysiological properties of leukocytes and how these cells relate to conduction in the heart. Given the thematic parallels, we also summarize the interactions between immune cells and neural systems that influence information transfer, extrapolating findings from the field of neuroscience to the heart and defining common themes. We aim to bridge the knowledge gap between electrophysiology and immunology, to promote conceptual connections between these two fields and to explore promising opportunities for future research.
Published: 2021

34. Magnetic Resonance Fusion Imaging of Chronic Myocardial Ischemia.

Author: Matthias Nahrendorf, Karl-Heinz Hiller, Andreas Greiser, Sascha Köhler, Thomas Neuberger, Kai Hu, Christiane Waller, Georg Ertl, Axel Haase, and Wolfgang R. Bauer
Published: 2003
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35. Short‐Term Cessation of Dabigatran Causes a Paradoxical Prothrombotic State

Author: Seong Soo Jang, Su Kyoung Lee, Dong-Eog Kim, Dawid Schellingerhout, Kwangmeyung Kim, Han Jin Cho, Seungbum Choi, Hee Jeong Jang, Matthias Nahrendorf, Sangmin Jeon, Wi Sun Ryu, Hye Yeon Choi, Jiwon Kim, Ick Chan Kwon, Ha Kim, Kyung-Yul Lee, and Young Dae Kim
Subjects: Male, 0301 basic medicine, Platelet Aggregation, Computed Tomography Angiography, medicine.medical_treatment, Pilot Projects, Ferric Compounds, Severity of Illness Index, Mice, Deprescriptions, 0302 clinical medicine, Rivaroxaban, Thrombophilia, Platelet, Saline, Noxae, Aged, 80 and over, Aspirin, Arachidonic Acid, Cerebral infarction, Thrombin, Cerebral Infarction, Dabigatran, Substance Withdrawal Syndrome, Neurology, Coagulation, Anesthesia, Female, Mean Platelet Volume, medicine.drug, Pyridones, Antithrombins, 03 medical and health sciences, Chlorides, medicine, Animals, Humans, Carotid Artery Thrombosis, Thrombus, Aged, Ischemic Stroke, Platelet Count, business.industry, X-Ray Microtomography, medicine.disease, 030104 developmental biology, Pyrazoles, Neurology (clinical), business, Magnetic Resonance Angiography, Platelet Aggregation Inhibitors, 030217 neurology & neurosurgery, Factor Xa Inhibitors
Abstract: Objective It is unclear if stopping treatment with dabigatran, a new oral anticoagulant (NOAC), induces a paradoxical rebound prothrombotic state. We investigated if short-term (1-3 days) dabigatran cessation is associated with a higher thrombus volume than expected from a simple reversal of the anticoagulant effect. Methods Ten-week-old C57Bl/6 mice (n=338) received one of the following oral treatments: phosphate-buffered saline (PBS), dabigatran for 7 days with or without 1-4 day cessation, and aspirin in either a single dose or daily for 7 days. Some of the animals that ceased dabigatran for 1-3 days received single-dose aspirin. Thereafter, we induced FeCl3 -mediated carotid thrombosis in 130 mice, after which we performed microCT thrombus imaging. The other 208 mice underwent coagulation assays or platelet function tests. As an explorative pilot study, we reviewed the medical records of 18 consecutive patients with NOAC cessation-related cerebral infarction in a large acute stroke cohort. Results We observed a higher volume of carotid thrombus after dabigatran cessation at 1-3 days than after vehicle treatment and showed that this effect could be prevented by single-dose aspirin pretreatment. Dabigatran cessation unduly increased platelet aggregability for 2 days after drug cessation, an effect mediated through arachidonic acid or thrombin, which effect was significantly attenuated by single-dose aspirin pretreatment. In patients, short-term (≤3 day) cessation of NOAC therapy, compared with longer-term (≥5 days) cessation, tended to be associated with relatively high stroke severity. Interpretation We provide the first preclinical evidence that a rebound prothrombotic state follows short-term cessation of dabigatran therapy. This article is protected by copyright. All rights reserved.
Published: 2020

36. In Vivo Assessment of Rat Hearts with and without Myocardial Infarction by Cine NMR - Comparison of the NMR Method to Invasive Techniques and Application to Intervention Studies.

Author: Matthias Nahrendorf, Karl-Heinz Hiller, Kai Hu, Christiane Waller, Frank Wiesmann, Jan Ruff, Georg Ertl, Axel Haase, and Wolfgang R. Bauer
Published: 2001
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37. Bone Marrow Endothelial Cells Regulate Myelopoiesis in Diabetes Mellitus

Author: Xinyi Zhang, Cameron S. McAlpine, Yoshiko Iwamoto, Partha Dutta, David Rohde, Maximilian J. Schloss, Sathish Babu Vasamsetti, Friedrich Felix Hoyer, Peter Libby, Emilie Coppin, Filip K. Swirski, Kamila Naxerova, Matthias Nahrendorf, and Ganesh Modugu
Subjects: 0303 health sciences, medicine.medical_specialty, education.field_of_study, business.industry, Public health, Population, 030204 cardiovascular system & hematology, medicine.disease, 03 medical and health sciences, Haematopoiesis, 0302 clinical medicine, medicine.anatomical_structure, Increased risk, Physiology (medical), Diabetes mellitus, Immunology, medicine, Bone marrow, Myelopoiesis, Cardiology and Cardiovascular Medicine, education, business, 030304 developmental biology
Abstract: Background: Diabetes mellitus is a prevalent public health problem that affects about one-third of the US population and leads to serious vascular complications with increased risk for coronary artery disease. How bone marrow hematopoiesis contributes to diabetes mellitus complications is incompletely understood. We investigated the role of bone marrow endothelial cells in diabetic regulation of inflammatory myeloid cell production. Methods: In 3 types of mouse diabetes mellitus, including streptozotocin, high-fat diet, and genetic induction using leptin-receptor-deficient db/db mice, we assayed leukocytes, hematopoietic stem and progenitor cells (HSPC). In addition, we investigated bone marrow endothelial cells with flow cytometry and expression profiling. Results: In diabetes mellitus, we observed enhanced proliferation of HSPC leading to augmented circulating myeloid cell numbers. Analysis of bone marrow niche cells revealed that endothelial cells in diabetic mice expressed less Cxcl12 , a retention factor promoting HSPC quiescence. Transcriptome-wide analysis of bone marrow endothelial cells demonstrated enrichment of genes involved in epithelial growth factor receptor (Egfr) signaling in mice with diet-induced diabetes mellitus. To explore whether endothelial Egfr plays a functional role in myelopoiesis, we generated mice with endothelial-specific deletion of Egfr ( Cdh5 Cre Egfr fl/fl ). We found enhanced HSPC proliferation and increased myeloid cell production in Cdh5 Cre Egfr fl/fl mice compared with wild-type mice with diabetes mellitus. Disrupted Egfr signaling in endothelial cells decreased their expression of the HSPC retention factor angiopoietin-1. We tested the functional relevance of these findings for wound healing and atherosclerosis, both implicated in complications of diabetes mellitus. Inflammatory myeloid cells accumulated more in skin wounds of diabetic Cdh5 Cre Egfr fl/fl mice, significantly delaying wound closure. Atherosclerosis was accelerated in Cdh5 Cre Egfr fl/fl mice, leading to larger and more inflamed atherosclerotic lesions in the aorta. Conclusions: In diabetes mellitus, bone marrow endothelial cells participate in the dysregulation of bone marrow hematopoiesis. Diabetes mellitus reduces endothelial production of Cxcl12, a quiescence-promoting niche factor that reduces stem cell proliferation. We describe a previously unknown counterregulatory pathway, in which protective endothelial Egfr signaling curbs HSPC proliferation and myeloid cell production.
Published: 2020

38. Reduced Nhe1 (Na + -H + Exchanger-1) Function Protects ApoE-Deficient Mice From Ang II (Angiotensin II)–Induced Abdominal Aortic Aneurysms

Author: Tianxiao Liu, Peter Libby, Xin Liu, Gregory R. Wojtkiewicz, Matthias Nahrendorf, Yunzhe Wang, Samuel Achilefu, Xiao-Fang Wang, Cong-Lin Liu, Jin Ying Zhang, Zhiyong Deng, Guo-Ping Shi, Galina K. Sukhova, and Rui Tang
Subjects: 0301 basic medicine, Cathepsin, Chemistry, Cell, 030204 cardiovascular system & hematology, Matrix metalloproteinase, Mast cell, Molecular biology, Angiotensin II, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Apoptosis, Internal Medicine, medicine, Extracellular, Fragmentation (cell biology)
Abstract: IgE-mediated activation of Nhe1 (Na + -H + exchanger-1) induces aortic cell extracellular acidification and promotes cell apoptosis. A pH-sensitive probe pHrodo identified acidic regions at positions of macrophage accumulation, IgE expression, and cell apoptosis in human and mouse abdominal aortic aneurysm (AAA) lesions. Ang II (angiotensin II)–induced AAA in Nhe1-insufficient Apoe −/− Nhe1 +/− mice and Apoe −/− Nhe1 +/+ littermates tested Nhe1 activity in experimental AAA, because Nhe1 −/− mice develop ataxia and epileptic-like seizures and die early. Nhe1 insufficiency reduced AAA incidence and size, lesion macrophage and T-cell accumulation, collagen deposition, elastin fragmentation, cell apoptosis, smooth muscle cell loss, and MMP (matrix metalloproteinase) activity. Nhe1 insufficiency also reduced blood pressure and the plasma apoptosis marker TCTP (translationally controlled tumor protein) but did not affect plasma IgE. While pHrodo localized the acidic regions to macrophage clusters, IgE expression, and cell apoptosis in AAA lesions from Apoe −/− Nhe1 +/+ mice, such acidic areas were much smaller in lesions from Apoe −/− Nhe1 +/− mice. Nhe1-FcεR1 colocalization in macrophages from AAA lesions support a role of IgE-mediated Nhe1 activation. Gelatin zymography, immunoblot, and real-time polymerase chain reaction analyses demonstrated that Nhe1 insufficiency reduced the MMP activity, cysteinyl cathepsin expression, IgE-induced apoptosis, and NF-κB activation in macrophages and blocked IgE-induced adhesion molecule expression in endothelial cells. A near-infrared fluorescent probe (LS662) together with fluorescence reflectance imaging of intact aortas showed reduced acidity in AAA lesions from Nhe-1-insufficient mice. This study revealed extracellular acidity at regions rich in macrophages, IgE expression, and cell apoptosis in human and mouse AAA lesions and established a direct role of Nhe1 in AAA pathogenesis.
Published: 2020

39. Hematopoiesis and Cardiovascular Disease

Author: Matthias Nahrendorf, Filip K. Swirski, and Wolfram C. Poller
Subjects: Physiology, business.industry, Vascular disease, Disease, Atherosclerosis, medicine.disease, Article, Hematopoiesis, Haematopoiesis, medicine.anatomical_structure, Immune system, Cardiovascular Diseases, Immunology, Leukocytes, medicine, Animals, Humans, Endothelium, Vascular, Bone marrow, Myocardial infarction, Stem cell, Cardiology and Cardiovascular Medicine, business, Stroke
Abstract: A central feature of atherosclerosis, the most prevalent chronic vascular disease and root cause of myocardial infarction and stroke, is leukocyte accumulation in the arterial wall. These crucial immune cells are produced in specialized niches in the bone marrow, where a complex cell network orchestrates their production and release. A growing body of clinical studies has documented a correlation between leukocyte numbers and cardiovascular disease risk. Understanding how leukocytes are produced and how they contribute to atherosclerosis and its complications is, therefore, critical to understanding and treating the disease. In this review, we focus on the key cells and products that regulate hematopoiesis under homeostatic conditions, during atherosclerosis and after myocardial infarction.
Published: 2020

40. Sleep exerts lasting effects on hematopoietic stem cell function and diversity

Author: Cameron S. McAlpine, Máté G. Kiss, Faris M. Zuraikat, David Cheek, Giulia Schiroli, Hajera Amatullah, Pacific Huynh, Mehreen Z. Bhatti, Lai-Ping Wong, Abi G. Yates, Wolfram C. Poller, John E. Mindur, Christopher T. Chan, Henrike Janssen, Jeffrey Downey, Sumnima Singh, Ruslan I. Sadreyev, Matthias Nahrendorf, Kate L. Jeffrey, David T. Scadden, Kamila Naxerova, Marie-Pierre St-Onge, and Filip K. Swirski
Subjects: Immunology, Immunology and Allergy, Humans, Hematopoietic Stem Cells, Sleep, Cells, Cultured, Hematopoiesis
Abstract: A sleepless night may feel awful in its aftermath, but sleep’s revitalizing powers are substantial, perpetuating the idea that convalescent sleep is a consequence-free physiological reset. Although recent studies have shown that catch-up sleep insufficiently neutralizes the negative effects of sleep debt, the mechanisms that control prolonged effects of sleep disruption are not understood. Here, we show that sleep interruption restructures the epigenome of hematopoietic stem and progenitor cells (HSPCs) and increases their proliferation, thus reducing hematopoietic clonal diversity through accelerated genetic drift. Sleep fragmentation exerts a lasting influence on the HSPC epigenome, skewing commitment toward a myeloid fate and priming cells for exaggerated inflammatory bursts. Combining hematopoietic clonal tracking with mathematical modeling, we infer that sleep preserves clonal diversity by limiting neutral drift. In humans, sleep restriction alters the HSPC epigenome and activates hematopoiesis. These findings show that sleep slows decay of the hematopoietic system by calibrating the hematopoietic epigenome, constraining inflammatory output, and maintaining clonal diversity.
Published: 2022

41. Impact of cholesterol on proinflammatory monocyte production by the bone marrow

Author: Lotte C.A. Stiekema, Carlijn Voermans, Erik S.G. Stroes, S. Matthijs Boekholdt, Koen H.M. Prange, Matthias Nahrendorf, Lisa Willemsen, Menno P.J. de Winther, Jeffrey Kroon, Yannick Kaiser, Nicholas J. Wareham, Carlijn Kuijk, Graduate School, Vascular Medicine, ACS - Atherosclerosis & ischemic syndromes, Medical Biochemistry, AII - Inflammatory diseases, Cardiology, Experimental Vascular Medicine, ACS - Microcirculation, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, ACS - Heart failure & arrhythmias, Willemsen, Lisa [0000-0002-9676-9249], Prange, Koen HM [0000-0002-9835-1735], Wareham, Nicholas J [0000-0003-1422-2993], Boekholdt, S Matthijs [0000-0002-0861-0765], de Winther, Menno PJ [0000-0002-4038-6636], Nahrendorf, Matthias [0000-0002-4021-1887], Stroes, Erik SG [0000-0001-9555-6260], Kroon, Jeffrey [0000-0001-9983-6614], and Apollo - University of Cambridge Repository
Subjects: CD34, Trained immunity, Vascular Biology and Medicine, Monocytes, Proinflammatory cytokine, chemistry.chemical_compound, Clinical Research, Bone Marrow, Lipid droplet, Medicine, Humans, AcademicSubjects/MED00200, Prospective Studies, Progenitor cell, Transcriptomics, Hypercholesterolaemia, Cholesterol, business.industry, Monocyte, Cholesterol, LDL, Atherosclerosis, Hematopoiesis, Haematopoiesis, medicine.anatomical_structure, chemistry, Receptors, LDL, Immunology, Bone marrow, Cardiology and Cardiovascular Medicine, business
Abstract: Aim Preclinical work indicates that low-density lipoprotein cholesterol (LDL-C) not only drives atherosclerosis by directing the innate immune response at plaque level but also augments proinflammatory monocyte production in the bone marrow (BM) compartment. In this study, we aim to unravel the impact of LDL-C on monocyte production in the BM compartment in human subjects. Methods and results A multivariable linear regression analysis in 12 304 individuals of the EPIC-Norfolk prospective population study showed that LDL-C is associated with monocyte percentage (β = 0.131 [95% CI: 0.036–0.225]; P = 0.007), at the expense of granulocytes (β = −0.876 [95% CI: −1.046 to −0.705]; P < 0.001). Next, we investigated whether altered haematopoiesis could explain this monocytic skewing by characterizing CD34+ BM haematopoietic stem and progenitor cells (HSPCs) of patients with familial hypercholesterolaemia (FH) and healthy normocholesterolaemic controls. The HSPC transcriptomic profile of untreated FH patients showed increased gene expression in pathways involved in HSPC migration and, in agreement with our epidemiological findings, myelomonocytic skewing. Twelve weeks of cholesterol-lowering treatment reverted the myelomonocytic skewing, but transcriptomic enrichment of monocyte-associated inflammatory and migratory pathways persisted in HSPCs post-treatment. Lastly, we link hypercholesterolaemia to perturbed lipid homeostasis in HSPCs, characterized by lipid droplet formation and transcriptomic changes compatible with increased intracellular cholesterol availability. Conclusions Collectively, these data highlight that LDL-C impacts haematopoiesis, promoting both the number and the proinflammatory activation of circulating monocytes. Furthermore, this study reveals a potential contributory role of HSPC transcriptomic reprogramming to residual inflammatory risk in FH patients despite cholesterol-lowering therapy., Graphical Abstract LDL-C impacts hematopoiesis, promoting both the number and the proinflammatory activation of circulating monocytes.
Published: 2021

42. Abstract 105: Chronic Stress Primes Innate Immune Responses In Mice And Humans

Author: Tessa J Barrett, Emma Corr, Coen Solingen, Florencia Schlamp, Emily J Brown, Graeme J KOELWYN, Angela Lee, Lianne Shanley, Tanya Spruill, Fazli Bozal, Annika De Jong, Alexandra Newman, Kamelia Drenkova, Michele Silvestro, Bhama Rhamkhelawon, Harmony Reynolds, Judith S Hochman, Matthias Nahrendorf, Filip K Swirski, Edward A A Fisher, Jeffrey S Berger, and Kathryn J Moore
Subjects: Cardiology and Cardiovascular Medicine
Abstract: Psychological stress is associated with elevated circulating markers of inflammation, including inflammatory cytokines and acute phase reactants that accelerate progression of chronic inflammatory diseases (e.g., atherosclerosis, metabolic syndrome, autoimmune diseases and cancer). However, the mechanisms underlying inflammatory reactivity to stress and how it confers future health risk are poorly understood. Monocyte-derived macrophages play key roles in sustaining tissue inflammation, and recent studies show that they can maintain epigenetic memory of pathogen or sterile inflammatory insults, leading to a heightened inflammatory state upon secondary stimulation. We show herein that psychological stress induces transcriptomic and epigenomic reprogramming of monocytes which primes them for a heightened inflammatory immune response following challenge. Monocytes isolated from stressed mice or humans with high reported levels of psychological stress exhibit a common signature of heightened inflammatory gene expression and produce increased levels of proinflammatory cytokines upon ex vivo stimulation with Toll-like receptor ligands. RNA and ATAC sequencing studies revealed that monocytes from stressed mice and humans exhibit activation of cellular metabolic pathways, including mTOR and PI3Kinase pathways, and reduced chromatin accessibility at loci associated with mitochondrial respiration. Taken together, our findings suggest that psychological stress primes the reprogramming of innate immune cells resulting in a hyperresponsive inflammatory state, which may explain its deleterious association with inflammatory disease risk.
Published: 2021

43. Cerebrospinal fluid outflow through skull channels instructs cranial hematopoiesis

Author: Schloss Mj, Dmitry Richter, Matthias Nahrendorf, Filip K. Swirski, Diane E. Capen, Jana Grune, Ralph Weissleder, Chongbo Yang, David Rohde, Michael A. Moskowitz, Zeynep Kaya, Jean C. Cruz-Hernández, Gregory R. Wojtkiewicz, Claudio Vinegoni, Dong-Eog Kim, Juwell W. Wu, Fadi E. Pulous, Peter Panizzi, Charles P. Lin, Cameron S. McAlpine, Dennis Brown, and Masahiro Yamazoe
Subjects: Pathology, medicine.medical_specialty, business.industry, Meninges, medicine.disease, Cisterna magna, Skull, Haematopoiesis, medicine.anatomical_structure, Lymphatic system, Cerebrospinal fluid, medicine, Subarachnoid space, business, Meningitis
Abstract: Interactions between the immune and central nervous systems strongly influence brain health. Although the blood-brain barrier restricts this crosstalk, we now know that meningeal gateways through brain border tissues, particularly dural lymphatic vessels that allow cerebrospinal fluid outflow, facilitate intersystem communication. Here we observe that cerebrospinal fluid exits into the skull bone marrow. Fluorescent tracers injected into the cisterna magna of mice travel through hundreds of sub-millimeter skull channels into the calvarial marrow. During meningitis, bacteria usurp this perivascular route to infect the skull’s hematopoietic niches and initiate cranial hematopoiesis ahead of remote tibial sites. Because skull channels also directly provide leukocytes to meninges, the privileged sampling of brain-derived danger signals in cerebrospinal fluid by regional marrow has broad implications for neurological disorders.One-Sentence SummarySkull channels transport cerebrospinal fluid from the subarachnoid space to the cranial bone marrow via a perivascular route, which bacteria use during meningitis.
Published: 2021

44. Multiorgan Imaging of Comorbidity and Cardiovascular Risk

Author: Matthias Nahrendorf
Subjects: medicine.medical_specialty, business.industry, Internal medicine, Psoriasis, MEDLINE, Medicine, Radiology, Nuclear Medicine and imaging, Inflammation, medicine.symptom, Cardiology and Cardiovascular Medicine, business, medicine.disease, Comorbidity
Published: 2020

45. Aortic-intima-resident macrophages are guardians of arterial health

Author: Fadi E. Pulous and Matthias Nahrendorf
Published: 2022

46. The Myocardium

Author: Filip K. Swirski, Matthias Nahrendorf, and Peter Libby
Subjects: Pathology, medicine.medical_specialty, business.industry, Inflammation, medicine.disease, Extracellular matrix, Fibrocyte, Medicine, Macrophage, Myocyte, Myocardial infarction, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Wound healing, Myofibroblast
Published: 2019

47. An acute immune response underlies the benefit of cardiac stem cell therapy

Author: Jeffery D. Molkentin, Anne Katrine Z. Johansen, Sakthivel Sadayappan, Jennifer A. Schwanekamp, Vincent Huang, Marjorie Maillet, Matthias Nahrendorf, Michelle A. Sargent, Hadi Khalil, Allen J. York, and Ronald J. Vagnozzi
Subjects: 0301 basic medicine, Cardiac function curve, Multidisciplinary, Innate immune system, business.industry, Cellular differentiation, Heart, 030204 cardiovascular system & hematology, Article, Cardiovascular Physiological Phenomena, Cell therapy, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, Cancer research, Humans, Medicine, Myocyte, Stem cell, business, Stem Cell Transplantation, Adult stem cell
Abstract: Clinical trials using adult stem cells to regenerate damaged heart tissue continue to this day1,2, despite ongoing questions of efficacy and a lack of mechanistic understanding of the underlying biological effect3. The rationale for these cell therapy trials is derived from animal studies that show a modest but reproducible improvement in cardiac function in models of cardiac ischaemic injury4,5. Here we examine the mechanistic basis for cell therapy in mice after ischaemia-reperfusion injury, and find that-although heart function is enhanced-it is not associated with the production of new cardiomyocytes. Cell therapy improved heart function through an acute sterile immune response characterized by the temporal and regional induction of CCR2+ and CX3CR1+ macrophages. Intracardiac injection of two distinct types of adult stem cells, cells killed by freezing and thawing or a chemical inducer of the innate immune response all induced a similar regional accumulation of CCR2+ and CX3CR1+ macrophages, and provided functional rejuvenation to the heart after ischaemia-reperfusion injury. This selective macrophage response altered the activity of cardiac fibroblasts, reduced the extracellular matrix content in the border zone and enhanced the mechanical properties of the injured area. The functional benefit of cardiac cell therapy is thus due to an acute inflammatory-based wound-healing response that rejuvenates the infarcted area of the heart.
Published: 2019

48. Exercise reduces inflammatory cell production and cardiovascular inflammation via instruction of hematopoietic progenitor cells

Author: Kamila Naxerova, Hajera Amatullah, Vanessa Frodermann, Gerard Pasterkamp, I-Hsiu Lee, Fanny Herisson, Nicolas Severe, David Rohde, Gregory R. Wojtkiewicz, Paul M. Ridker, Jana Grune, Friedrich Felix Hoyer, Matthias Nahrendorf, Saskia C. A. de Jager, Yoshiko Iwamoto, Karin Gustafsson, Peter Libby, Lisa Honold, Sebastian Cremer, Gustavo Santos Masson, Ruslan I. Sadreyev, Shuang Zhang, Kate L. Jeffrey, Filip K. Swirski, Gabriel Courties, Fei Ji, Cameron S. McAlpine, Stephen P. Schmidt, Maximilian J. Schloss, Jean G. MacFadyen, Ian D. van Koeverden, and David T. Scadden
Subjects: 0301 basic medicine, Stromal cell, Leukocytosis, Adipose tissue, Inflammation, Biochemistry, General Biochemistry, Genetics and Molecular Biology, Epigenome, Mice, 03 medical and health sciences, 0302 clinical medicine, Physical Conditioning, Animal, Leukocytes, Animals, Humans, Medicine, Progenitor cell, Exercise, Homeodomain Proteins, Leptin receptor, Biochemistry, Genetics and Molecular Biology(all), business.industry, Leptin, General Medicine, Atherosclerosis, Hematopoietic Stem Cells, Hematopoiesis, 030104 developmental biology, medicine.anatomical_structure, Adipose Tissue, Cardiovascular Diseases, 030220 oncology & carcinogenesis, Immunology, Receptors, Leptin, Bone marrow, Sedentary Behavior, medicine.symptom, Transcriptome, business, Genetics and Molecular Biology(all)
Abstract: A sedentary lifestyle, chronic inflammation and leukocytosis increase atherosclerosis; however, it remains unclear whether regular physical activity influences leukocyte production. Here we show that voluntary running decreases hematopoietic activity in mice. Exercise protects mice and humans with atherosclerosis from chronic leukocytosis but does not compromise emergency hematopoiesis in mice. Mechanistically, exercise diminishes leptin production in adipose tissue, augmenting quiescence-promoting hematopoietic niche factors in leptin-receptor-positive stromal bone marrow cells. Induced deletion of the leptin receptor in Prrx1-creERT2; Leprfl/fl mice reveals that leptin’s effect on bone marrow niche cells regulates hematopoietic stem and progenitor cell (HSPC) proliferation and leukocyte production, as well as cardiovascular inflammation and outcomes. Whereas running wheel withdrawal quickly reverses leptin levels, the impact of exercise on leukocyte production and on the HSPC epigenome and transcriptome persists for several weeks. Together, these data show that physical activity alters HSPCs via modulation of their niche, reducing hematopoietic output of inflammatory leukocytes. The beneficial effects of exercise on cardiovascular disease are linked to decreased inflammation through crosstalk between adipose tissue and hematopoietic progenitor cells in the bone marrow.
Published: 2019

49. Spectroscopic Assessment of Gold Nanoparticle Biodistribution Using Surface Plasmon Resonance Phenomena

Author: Jiwon Kim, Dong-Eog Kim, Matthias Nahrendorf, Kwangmeyung Kim, Su Kyoung Lee, Dawid Schellingerhout, and Jongseong Kim
Subjects: Biomaterials, Biodistribution, Ultraviolet visible spectroscopy, Materials science, Colloidal gold, Surface plasmon, Biomedical Engineering, Nanoparticle, Nanotechnology, Surface plasmon resonance, Inductively coupled plasma mass spectrometry, Nanomaterials
Abstract: Pharmacokinetic (PK) evaluation of nanomaterials are crucial for further clinical development of imaging nanomaterials. In spite of huge advances in nanoparticle-based biomedical research, PK assessment typically requires substantial resources. Here, we show a simple, inexpensive, and yet precise analytical method applicable to the PK interrogation of gold nanoparticles (AuNPs) in the body. We have developed a UV-vis spectroscopic technique that utilizes mechanochemical treatments to separate AuNPs from tissues and then employs surface plasmon of extracted AuNPs to quantify their distribution in the body. This method allows the detection of 10 μg/mL of AuNPs in solution, as was confirmed by using inductively coupled plasma mass spectrometry. We demonstrate biodistribution of fibrin-targeted AuNPs that enable microCT-based visualization of arterial thrombi in mice: blood and thrombi as well as various organs. We believe that our method is generally applicable to most PK studies utilizing AuNPs in medical applications.
Published: 2019

50. Sleep modulates hematopoiesis and protects against atherosclerosis

Author: Peter Libby, Vanessa Frodermann, Friedrich Felix Hoyer, Christoph J. Binder, Christopher T. Chan, Annemijn F. Gregory, Yoshiko Iwamoto, Anne Vassalli, Cameron S. McAlpine, Matthias Nahrendorf, Atsushi Anzai, Filip K. Swirski, Thomas E. Scammell, Shun He, Florian Kahles, Wolfram C. Poller, Ashley M. Fenn, Mehdi Tafti, John E. Mindur, Colin Valet, Sara Rattik, Lennard Halle, and M. Kiss
Subjects: Male, 0301 basic medicine, medicine.medical_specialty, Lateral hypothalamus, Neutrophils, Bone Marrow Cells, Monocytes, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Monocytosis, Orexin Receptors, Internal medicine, mental disorders, medicine, Animals, Antigens, Ly, Antigens, Ly/metabolism, Atherosclerosis/metabolism, Atherosclerosis/pathology, Atherosclerosis/prevention & control, Bone Marrow Cells/metabolism, Female, Hematopoiesis/drug effects, Hematopoiesis/physiology, Hypothalamic Area, Lateral/metabolism, Monocytes/drug effects, Monocytes/metabolism, Myelopoiesis/drug effects, Neutrophils/metabolism, Orexin Receptors/deficiency, Orexin Receptors/metabolism, Orexins/biosynthesis, Orexins/deficiency, Orexins/metabolism, Orexins/pharmacology, Sleep/drug effects, Sleep/physiology, Sleep Deprivation/metabolism, Sleep Deprivation/physiopathology, Sleep Deprivation/prevention & control, Fragmentation (cell biology), Pathological, Myelopoiesis, Orexins, Multidisciplinary, business.industry, Macrophage Colony-Stimulating Factor, Atherosclerosis, medicine.disease, Sleep in non-human animals, Hematopoiesis, 3. Good health, Haematopoiesis, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, nervous system, Hypothalamic Area, Lateral, Sleep Deprivation, Bone marrow, Sleep, business, psychological phenomena and processes, 030217 neurology & neurosurgery
Abstract: Sleep is integral to life 1 . Although insufficient or disrupted sleep increases the risk of multiple pathological conditions, including cardiovascular disease 2 , we know little about the cellular and molecular mechanisms by which sleep maintains cardiovascular health. Here we report that sleep regulates haematopoiesis and protects against atherosclerosis in mice. We show that mice subjected to sleep fragmentation produce more Ly-6C high monocytes, develop larger atherosclerotic lesions and produce less hypocretin-a stimulatory and wake-promoting neuropeptide-in the lateral hypothalamus. Hypocretin controls myelopoiesis by restricting the production of CSF1 by hypocretin-receptor-expressing pre-neutrophils in the bone marrow. Whereas hypocretin-null and haematopoietic hypocretin-receptor-null mice develop monocytosis and accelerated atherosclerosis, sleep-fragmented mice with either haematopoietic CSF1 deficiency or hypocretin supplementation have reduced numbers of circulating monocytes and smaller atherosclerotic lesions. Together, these results identify a neuro-immune axis that links sleep to haematopoiesis and atherosclerosis.
Published: 2019

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