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2. Skeletal muscle derived Musclin protects the heart during pathological overload

Author

Szaroszyk, Malgorzata, Kattih, Badder, Martin-Garrido, Abel, Trogisch, Felix A., Dittrich, Gesine M., Grund, Andrea, Abouissa, Aya, Derlin, Katja, Meier, Martin, Holler, Tim, Korf-Klingebiel, Mortimer, Völker, Katharina, Garfias Macedo, Tania, Pablo Tortola, Cristina, Boschmann, Michael, Huang, Nora, Froese, Natali, Zwadlo, Carolin, Malek Mohammadi, Mona, Luo, Xiaojing, Wagner, Michael, Cordero, Julio, Geffers, Robert, Batkai, Sandor, Thum, Thomas, Bork, Nadja, Nikolaev, Viacheslav O., Müller, Oliver J., Katus, Hugo A., El-Armouche, Ali, Kraft, Theresia, Springer, Jochen, Dobreva, Gergana, Wollert, Kai C., Fielitz, Jens, von Haehling, Stephan, Kuhn, Michaela, Bauersachs, Johann, and Heineke, Joerg

Published
2022
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3. Identification of myeloid-derived growth factor as a mechanically-induced, growth-promoting angiocrine signal for human hepatocytes

Author

Große-Segerath, Linda, primary, Follert, Paula, additional, Behnke, Kristina, additional, Ettich, Julia, additional, Buschmann, Tobias, additional, Kirschner, Philip, additional, Hartwig, Sonja, additional, Lehr, Stefan, additional, Korf-Klingebiel, Mortimer, additional, Eberhard, Daniel, additional, Lehwald-Tywuschik, Nadja, additional, Al-Hasani, Hadi, additional, Knoefel, Wolfram Trudo, additional, Heinrich, Stefan, additional, Levkau, Bodo, additional, Wollert, Kai C., additional, Scheller, Jürgen, additional, and Lammert, Eckhard, additional

Published
2024
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4. Hypoxia Attenuates Pressure Overload‐Induced Heart Failure

Author

Froese, Natali, primary, Szaroszyk, Malgorzata, additional, Galuppo, Paolo, additional, Visker, Joseph R., additional, Werlein, Christopher, additional, Korf‐Klingebiel, Mortimer, additional, Berliner, Dominik, additional, Reboll, Marc R., additional, Hamouche, Rana, additional, Gegel, Simona, additional, Wang, Yong, additional, Hofmann, Winfried, additional, Tang, Ming, additional, Geffers, Robert, additional, Wende, Adam R., additional, Kühnel, Mark P., additional, Jonigk, Danny D., additional, Hansmann, Georg, additional, Wollert, Kai C., additional, Abel, E. Dale, additional, Drakos, Stavros G., additional, Bauersachs, Johann, additional, and Riehle, Christian, additional

Published
2024
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6. Myeloid-Derived Growth Factor Protects Against Pressure Overload–Induced Heart Failure by Preserving Sarco/Endoplasmic Reticulum Ca2+-ATPase Expression in Cardiomyocytes

Author

Korf-Klingebiel, Mortimer, Reboll, Marc R., Polten, Felix, Weber, Natalie, Jäckle, Felix, Wu, Xuekun, Kallikourdis, Marinos, Kunderfranco, Paolo, Condorelli, Gianluigi, Giannitsis, Evangelos, Kustikova, Olga S., Schambach, Axel, Pich, Andreas, Widder, Julian D., Bauersachs, Johann, van den Heuvel, Joop, Kraft, Theresia, Wang, Yong, and Wollert, Kai C.

Published
2021
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7. Anti-androgenic therapy with finasteride improves cardiac function, attenuates remodeling and reverts pathologic gene-expression after myocardial infarction in mice

Author

Froese, Natali, Wang, Honghui, Zwadlo, Carolin, Wang, Yong, Grund, Andrea, Gigina, Anna, Hofmann, Melanie, Kilian, Katja, Scharf, Gesine, Korf-Klingebiel, Mortimer, Melchert, Anna, Signorini, Maria Elena Ricci, Halloin, Caroline, Zweigerdt, Robert, Martin, Ulrich, Gruh, Ina, Wollert, Kai C., Geffers, Robert, Bauersachs, Johann, and Heineke, Joerg

Published
2018
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11. TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

Author

Grund, Andrea, Szaroszyk, Malgorzata, Korf‐Klingebiel, Mortimer, Malek Mohammadi, Mona, Trogisch, Felix A, Schrameck, Ulrike, Gigina, Anna, Tiedje, Christopher, Gaestel, Matthias, Kraft, Theresia, Hegermann, Jan, Batkai, Sandor, Thum, Thomas, Perrot, Andreas, Remedios, Cris dos, Riechert, Eva, Völkers, Mirko, Doroudgar, Shirin, Jungmann, Andreas, Bauer, Ralf, Yin, Xiaoke, Mayr, Manuel, Wollert, Kai C, Pich, Andreas, Xiao, Hua, Katus, Hugo A, Bauersachs, Johann, Müller, Oliver J, and Heineke, Joerg

Published
2019
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14. Endothelial Cell GATA2 Modulates the Cardiomyocyte Stress Response through the Regulation of Two Long Non-Coding RNAs

Author

Froese, Natali, primary, Szaroszyk, Malgorzata, additional, Korf-Klingebiel, Mortimer, additional, Koch, Katrin, additional, Schmitto, Jan D., additional, Geffers, Robert, additional, Hilfiker-Kleiner, Denise, additional, Riehle, Christian, additional, Wollert, Kai C., additional, Bauersachs, Johann, additional, and Heineke, Joerg, additional

Published
2022
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15. Meteorin-like promotes heart repair through endothelial KIT receptor tyrosine kinase

Author

Reboll, Marc R., primary, Klede, Stefanie, additional, Taft, Manuel H., additional, Cai, Chen-Leng, additional, Field, Loren J., additional, Lavine, Kory J., additional, Koenig, Andrew L., additional, Fleischauer, Jenni, additional, Meyer, Johann, additional, Schambach, Axel, additional, Niessen, Hans W., additional, Kosanke, Maike, additional, van den Heuvel, Joop, additional, Pich, Andreas, additional, Bauersachs, Johann, additional, Wu, Xuekun, additional, Zheng, Linqun, additional, Wang, Yong, additional, Korf-Klingebiel, Mortimer, additional, Polten, Felix, additional, and Wollert, Kai C., additional

Published
2022
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16. EMC10 (Endoplasmic Reticulum Membrane Protein Complex Subunit 10) Is a Bone Marrow–Derived Angiogenic Growth Factor Promoting Tissue Repair After Myocardial Infarction

Author

Reboll, Marc R., Korf-Klingebiel, Mortimer, Klede, Stefanie, Polten, Felix, Brinkmann, Eva, Reimann, Ines, Schönfeld, Hans-Joachim, Bobadilla, Maria, Faix, Jan, Kensah, George, Gruh, Ina, Klintschar, Michael, Gaestel, Matthias, Niessen, Hans W., Pich, Andreas, Bauersachs, Johann, Gogos, Joseph A., Wang, Yong, and Wollert, Kai C.

Published
2017
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17. C1q-TNF-Related Protein-9 Promotes Cardiac Hypertrophy and Failure

Author

Appari, Mahesh, Breitbart, Astrid, Brandes, Florian, Szaroszyk, Malgorzata, Froese, Natali, Korf-Klingebiel, Mortimer, Mohammadi, Mona Malek, Grund, Andrea, Scharf, Gesine M., Wang, Honghui, Zwadlo, Carolin, Fraccarollo, Daniela, Schrameck, Ulrike, Nemer, Mona, Wong, G. William, Katus, Hugo A., Wollert, Kai C., Müller, Oliver J., Bauersachs, Johann, and Heineke, Joerg

Published
2017
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18. Myeloid-derived growth factor (C19orf10) mediates cardiac repair following myocardial infarction

Author

Korf-Klingebiel, Mortimer, Reboll, Marc R., Klede, Stefanie, Brod, Torben, Pich, Andreas, Polten, Felix, Napp, L.Christian, Bauersachs, Johann, Ganser, Arnold, Brinkmann, Eva, Reimann, Ines, Kempf, Tibor, Niessen, Hans W., Mizrahi, Jacques, Schonfeld, Hans-Joachim, Iglesias, Antonio, Bobadilla, Maria, Wang, Yong, and Wollert, Kai C.

Subjects
Heart attack -- Genetic aspects -- Care and treatment, Medical research, Medicine, Experimental, Cellular therapy -- Research, Growth factors -- Health aspects, Biological sciences, Health
Abstract

Paracrine-acting proteins are emerging as a central mechanism by which bone marrow cell-based therapies improve tissue repair and heart function after myocardial infarction (MI). We carried out a bioinformatic secretome analysis in bone marrow cells from patients with acute MI to identify novel secreted proteins with therapeutic potential. Functional screens revealed a secreted protein encoded by an open reading frame on chromosome 19 (C19orf10) that promotes cardiac myocyte survival and angiogenesis. We show that bone marrow-derived monocytes and macrophages produce this protein endogenously to protect and repair the heart after MI, and we named it myeloid-derived growth factor (MYDGF). Whereas Mydgf-deficient mice develop larger infarct scars and more severe contractile dysfunction compared to wild-type mice, treatment with recombinant Mydgf reduces scar size and contractile dysfunction after MI. This study is the first to assign a biological function to MYDGF, and it may serve as a prototypical example for the development of protein-based therapies for ischemic tissue repair., An estimated 15 million Americans have coronary artery disease, and ~700,000 will have an acute MI each year (1). Acute MI is caused by a thrombotic occlusion of a coronary [...]

Published
2015
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20. Analysis of myocardial cellular gene expression during pressure overload reveals matrix based functional intercellular communication

Author

Froese, Natali, primary, Cordero, Julio, additional, Abouissa, Aya, additional, Trogisch, Felix A., additional, Grein, Steve, additional, Szaroszyk, Malgorzata, additional, Wang, Yong, additional, Gigina, Anna, additional, Korf-Klingebiel, Mortimer, additional, Bosnjak, Berislav, additional, Davenport, Colin F., additional, Wiehlmann, Lutz, additional, Geffers, Robert, additional, Riechert, Eva, additional, Jürgensen, Lonny, additional, Boileau, Etienne, additional, Lin, Yanzhu, additional, Dieterich, Christoph, additional, Förster, Reinhold, additional, Bauersachs, Johann, additional, Ola, Roxana, additional, Dobreva, Gergana, additional, Völkers, Mirko, additional, and Heineke, Joerg, additional

Published
2022
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21. Corrigendum to: A mouse model of cardiogenic shock

Author

Wang, Yong, primary, Polten, Felix, additional, Jäckle, Felix, additional, Korf-Klingebiel, Mortimer, additional, Kempf, Tibor, additional, Bauersachs, Johann, additional, Freitag-Wolf, Sandra, additional, Lichtinghagen, Ralf, additional, Pich, Andreas, additional, and Wollert, Kai C, additional

Published
2021
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22. Myeloid-Derived Growth Factor Protects Against Pressure Overload–Induced Heart Failure by Preserving Sarco/Endoplasmic Reticulum Ca 2+ -ATPase Expression in Cardiomyocytes

Author

Korf-Klingebiel, Mortimer, primary, Reboll, Marc R., additional, Polten, Felix, additional, Weber, Natalie, additional, Jäckle, Felix, additional, Wu, Xuekun, additional, Kallikourdis, Marinos, additional, Kunderfranco, Paolo, additional, Condorelli, Gianluigi, additional, Giannitsis, Evangelos, additional, Kustikova, Olga S., additional, Schambach, Axel, additional, Pich, Andreas, additional, Widder, Julian D., additional, Bauersachs, Johann, additional, van den Heuvel, Joop, additional, Kraft, Theresia, additional, Wang, Yong, additional, and Wollert, Kai C., additional

Published
2021
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23. A mouse model of cardiogenic shock

Author

Wang, Yong, primary, Polten, Felix, additional, Jäckle, Felix, additional, Korf-Klingebiel, Mortimer, additional, Kempf, Tibor, additional, Bauersachs, Johann, additional, Freitag-Wolf, Sandra, additional, Lichtinghagen, Ralf, additional, Pich, Andreas, additional, and Wollert, Kai C, additional

Published
2021
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24. GDF-15 is an inhibitor of leukocyte integrin activation required for survival after myocardial infarction in mice

Author

Kempf, Tibor, Zarbock, Alexander, Widera, Christian, Butz, Stefan, Stadtmann, Anika, Rossaint, Jan, Bolomini-Vittori, Matteo, Korf-Klingebiel, Mortimer, Napp, L. Christian, Hansen, Birte, Kanwischer, Anna, Bavendiek, Udo, Beutel, Gernot, Hapke, Martin, Sauer, Martin G., Laudanna, Carlo, Hogg, Nancy, Vestweber, Dietmar, and Wollert, Kai C.

Subjects
Heart attack -- Patient outcomes -- Care and treatment -- Physiological aspects, Integrins -- Properties, Growth factors -- Properties, Biological sciences, Health
Abstract

Inflammatory cell recruitment after myocardial infarction needs to be tightly controlled to permit infarct healing while avoiding fatal complications such as cardiac rupture. Growth differentiation factor-15 (GDF-15), a transforming growth factor-β (TGF-β)-related cytokine, is induced in the infarcted heart of mice and humans. We show that coronary artery ligation in Gdf15-deficient mice led to enhanced recruitment of polymorphonuclear leukocytes (PMNs) into the infarcted myocardium and an increased incidence of cardiac rupture. Conversely, infusion of recombinant GDF-15 repressed PMN recruitment after myocardial infarction. In vitro, GDF-15 inhibited PMN adhesion, arrest under flow and transendothelial migration. Mechanistically, GDF-15 counteracted chemokine-triggered conformational activation and clustering of [β.sub.2] integrins on PMNs by activating the small GTPase Cdc42 and inhibiting activation of the small GTPase Rap1. Intravital microscopy in vivo in 6df15-deficient mice showed that Gdf-15 is required to prevent excessive chemokine-activated leukocyte arrest on the endothelium. Genetic ablation of [β.sub.2] integrins in myeloid cells rescued the mortality of 6df15-deficient mice after myocardial infarction. To our knowledge, GDF-15 is the first cytokine identified as an inhibitor of PMN recruitment by direct interference with chemokine signaling and integrin activation. Loss of this anti-inflammatory mechanism leads to fatal cardiac rupture after myocardial infarction., The wound healing response after myocardial infarction involves a cascade of molecular and cellular events that leads to a replacement of the necrotic area with granulation tissue and, eventually, a [...]

Published
2011
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27. Heparan Sulfate-Editing Extracellular Sulfatases Enhance Vascular Endothelial Growth Factor Bioavailability for Ischemic Heart Repair

Author

Korf-Klingebiel, Mortimer, Reboll, Marc R, Grote, Karsten, Schleiner, Hauke, Wang, Yong, Wu, Xuekun, Klede, Stefanie, Mikhed, Yuliya, Bauersachs, Johann, Klintschar, Michael, Rudat, Carsten, Kispert, Andreas, Niessen, Hans Wm, Lübke, Torben, Dierks, Thomas, and Wollert, Kai C

Abstract

RATIONALE: Mechanistic insight into the inflammatory response after acute myocardial infarction (MI) may inform new molecularly-targeted treatment strategies to prevent chronic heart failure.; OBJECTIVE: We identified the sulfatase SULF2 in an in silico secretome analysis in bone marrow cells from patients with acute MI and detected increased sulfatase activity in myocardial autopsy samples. SULF2 (Sulf2 in mice) and its isoform SULF1 (Sulf1) act as endo-sulfatases removing 6 O sulfate groups from heparan sulfate (HS) in the extracellular space, thus eliminating docking sites for HS binding proteins. We hypothesized that the Sulfs have a role in tissue repair after MI.; METHODS AND RESULTS: Both Sulfs were dynamically upregulated after coronary artery ligation in mice, attaining peak expression and activity levels during the first week after injury. Sulf2 was expressed by monocytes and macrophages, Sulf1 by endothelial cells and fibroblasts. Infarct border-zone capillarization was impaired, scar size increased, and cardiac dysfunction more pronounced in mice with a genetic deletion of either Sulf1 or Sulf2. Studies in bone marrow-chimeric Sulf-deficient mice and Sulf-deficient cardiac endothelial cells established that inflammatory cell-derived Sulf2 and endothelial cell-autonomous Sulf1 promote angiogenesis. Mechanistically, both Sulfs reduced HS sulfation in the infarcted myocardium, thereby diminishing vascular endothelial growth factor A (Vegfa) interaction with HS. Along this line, both Sulfs rendered infarcted mouse heart explants responsive to the angiogenic effects of HS-binding Vegfa164 but did not modulate the angiogenic effects of non-HS-binding Vegfa120. Treating wild-type mice systemically with the small molecule HS antagonist surfen (bis 2 methyl-4-amino-quinolyl-6-carbamide, 1 mg/kg/day) for 7 days after MI released Vegfa from HS, enhanced infarct border-zone capillarization, and exerted sustained beneficial effects on cardiac function and survival.; CONCLUSIONS: These findings establish HS-editing Sulfs as critical inducers of postinfarction angiogenesis and identify HS sulfation as a therapeutic target for ischemic tissue repair.

Published
2019

28. TIP 30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

Author

Grund, Andrea, primary, Szaroszyk, Malgorzata, additional, Korf‐Klingebiel, Mortimer, additional, Malek Mohammadi, Mona, additional, Trogisch, Felix A, additional, Schrameck, Ulrike, additional, Gigina, Anna, additional, Tiedje, Christopher, additional, Gaestel, Matthias, additional, Kraft, Theresia, additional, Hegermann, Jan, additional, Batkai, Sandor, additional, Thum, Thomas, additional, Perrot, Andreas, additional, Remedios, Cris dos, additional, Riechert, Eva, additional, Völkers, Mirko, additional, Doroudgar, Shirin, additional, Jungmann, Andreas, additional, Bauer, Ralf, additional, Yin, Xiaoke, additional, Mayr, Manuel, additional, Wollert, Kai C, additional, Pich, Andreas, additional, Xiao, Hua, additional, Katus, Hugo A, additional, Bauersachs, Johann, additional, Müller, Oliver J, additional, and Heineke, Joerg, additional

Published
2019
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29. The transcription factor GATA 4 promotes myocardial regeneration in neonatal mice

Author

Malek Mohammadi, Mona, primary, Kattih, Badder, additional, Grund, Andrea, additional, Froese, Natali, additional, Korf‐Klingebiel, Mortimer, additional, Gigina, Anna, additional, Schrameck, Ulrike, additional, Rudat, Carsten, additional, Liang, Qiangrong, additional, Kispert, Andreas, additional, Wollert, Kai C, additional, Bauersachs, Johann, additional, and Heineke, Joerg, additional

Published
2019
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30. Corrigendum to “Anti-androgenic therapy with finasteride improves cardiac function, attenuates remodeling and reverts pathologic gene-expression after myocardial infarction in mice” Journal of Molecular and Cellular Cardiology 122 (2018) 114–124

Author

Froese, Natali, primary, Wang, Honghui, additional, Zwadlo, Carolin, additional, Wang, Yong, additional, Grund, Andrea, additional, Gigina, Anna, additional, Hofmann, Melanie, additional, Kilian, Katja, additional, Scharf, Gesine, additional, Korf-Klingebiel, Mortimer, additional, Melchert, Anna, additional, Signorini, Maria Elena Ricci, additional, Halloin, Caroline, additional, Zweigerdt, Robert, additional, Martin, Ulrich, additional, Gruh, Ina, additional, Wollert, Kai C., additional, Geffers, Robert, additional, Bauersachs, Johann, additional, and Heineke, Joerg, additional

Published
2018
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31. Angiogenesis after acute myocardial infarction.

Author

Wu, Xuekun, Reboll, Marc R, Korf-Klingebiel, Mortimer, and Wollert, Kai C

Subjects
MYOCARDIAL infarction, FATE mapping (Genetics), NEOVASCULARIZATION, CARDIOVASCULAR diseases risk factors, CELL populations, CELL communication
Abstract

Acute myocardial infarction (MI) inflicts massive injury to the coronary microcirculation leading to vascular disintegration and capillary rarefication in the infarct region. Tissue repair after MI involves a robust angiogenic response that commences in the infarct border zone and extends into the necrotic infarct core. Technological advances in several areas have provided novel mechanistic understanding of postinfarction angiogenesis and how it may be targeted to improve heart function after MI. Cell lineage tracing studies indicate that new capillary structures arise by sprouting angiogenesis from pre-existing endothelial cells (ECs) in the infarct border zone with no meaningful contribution from non-EC sources. Single-cell RNA sequencing shows that ECs in infarcted hearts may be grouped into clusters with distinct gene expression signatures, likely reflecting functionally distinct cell populations. EC-specific multicolour lineage tracing reveals that EC subsets clonally expand after MI. Expanding EC clones may arise from tissue-resident ECs with stem cell characteristics that have been identified in multiple organs including the heart. Tissue repair after MI involves interactions among multiple cell types which occur, to a large extent, through secreted proteins and their cognate receptors. While we are only beginning to understand the full complexity of this intercellular communication, macrophage and fibroblast populations have emerged as major drivers of the angiogenic response after MI. Animal data support the view that the endogenous angiogenic response after MI can be boosted to reduce scarring and adverse left ventricular remodelling. The improved mechanistic understanding of infarct angiogenesis therefore creates multiple therapeutic opportunities. During preclinical development, all proangiogenic strategies should be tested in animal models that replicate both cardiovascular risk factor(s) and the pharmacotherapy typically prescribed to patients with acute MI. Considering that the majority of patients nowadays do well after MI, clinical translation will require careful selection of patients in need of proangiogenic therapies. [ABSTRACT FROM AUTHOR]

Published
2021
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32. A gene therapeutic approach to inhibit calcium and integrin binding protein 1 ameliorates maladaptive remodelling in pressure overload

Author

Grund, Andrea, primary, Szaroszyk, Malgorzata, additional, Döppner, Janina K, additional, Malek Mohammadi, Mona, additional, Kattih, Badder, additional, Korf-Klingebiel, Mortimer, additional, Gigina, Anna, additional, Scherr, Michaela, additional, Kensah, George, additional, Jara-Avaca, Monica, additional, Gruh, Ina, additional, Martin, Ulrich, additional, Wollert, Kai C, additional, Gohla, Antje, additional, Katus, Hugo A, additional, Müller, Oliver J, additional, Bauersachs, Johann, additional, and Heineke, Joerg, additional

Published
2018
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33. Intracoronary autologous bone marrow cell transfer after myocardial infarction: the BOOST-2 randomised placebo-controlled clinical trial

Author

Wollert, Kai C., Meyer, Gerd P., Mueller-Ehmsen, Jochen, Tschope, Carsten, Bonarjee, Vernon, Larsen, Alf Inge, May, Andreas E., Empen, Klaus, Chorianopoulos, Emmanuel, Tebbe, Ulrich, Waltenberger, Johannes, Mahrholdt, Heiko, Ritter, Benedikta, Pirr, Jens, Fischer, Dieter, Korf-Klingebiel, Mortimer, Arseniev, Lubomir, Heuft, Hans-Gert, Brinchmann, Jan E., Messinger, Diethelm, Hertenstein, Bernd, Ganser, Arnold, Katus, Hugo A., Felix, Stephan B., Gawaz, Meinrad P., Dickstein, Kenneth, Schultheiss, Heinz-Peter, Ladage, Dennis, Greulich, Simon, Bauersachs, Johann, Wollert, Kai C., Meyer, Gerd P., Mueller-Ehmsen, Jochen, Tschope, Carsten, Bonarjee, Vernon, Larsen, Alf Inge, May, Andreas E., Empen, Klaus, Chorianopoulos, Emmanuel, Tebbe, Ulrich, Waltenberger, Johannes, Mahrholdt, Heiko, Ritter, Benedikta, Pirr, Jens, Fischer, Dieter, Korf-Klingebiel, Mortimer, Arseniev, Lubomir, Heuft, Hans-Gert, Brinchmann, Jan E., Messinger, Diethelm, Hertenstein, Bernd, Ganser, Arnold, Katus, Hugo A., Felix, Stephan B., Gawaz, Meinrad P., Dickstein, Kenneth, Schultheiss, Heinz-Peter, Ladage, Dennis, Greulich, Simon, and Bauersachs, Johann

Abstract

Aims Intracoronary infusion of autologous nucleated bone marrow cells (BMCs) enhanced the recovery of left ventricular ejection fraction (LVEF) after ST-segment elevation myocardial infarction (STEMI) in the randomised-controlled, open-label BOOST trial. We reassessed the therapeutic potential of nucleated BMCs in the randomised placebo-controlled, double-blind BOOST-2 trial conducted in 10 centres in Germany and Norway. Methods and results Using a multiple arm design, we investigated the dose-response relationship and explored whether gamma-irradiation which eliminates the clonogenic potential of stem and progenitor cells has an impact on BMC efficacy. Between 9 March 2006 and 16 July 2013, 153 patients with large STEMI were randomly assigned to receive a single intracoronary infusion of placebo (control group), high-dose (hi) BMCs, low-dose (lo) BMCs, irradiated hiBMCs, or irradiated loBMCs 8.1 +/- 2.6 days after percutaneous coronary intervention (PCI) in addition to guideline-recommended medical treatment. Change in LVEF from baseline (before cell infusion) to 6 months as determined by MRI was the primary endpoint. The trial is registered at Current Controlled Trials (ISRCTN17457407). Baseline LVEF was 45.0 +/- 8.5% in the overall population. At 6 months, LVEF had increased by 3.3 percentage points in the control group and 4.3 percentage points in the hiBMC group. The estimated treatment effect was 1.0 percentage points (95% confidence interval, -2.6 to 4.7; P = 0.57). The treatment effect of loBMCs was 0.5 percentage points (-3.0 to 4.1; P = 0.76). Likewise, irradiated BMCs did not have significant treatment effects. BMC transfer was safe and not associated with adverse clinical events. Conclusion The BOOST-2 trial does not support the use of nucleated BMCs in patients with STEMI and moderately reduced LVEF treated according to current standards of early PCI and drug therapy.

Published
2017

34. Abstract 247: The Endothelial Transcription Factor GATA2 Prevents the Development of Heart Failure During Pressure Overload Through Suppression of the Two Secreted Long Non-coding RNAs GADLOR1 and 2

Author

Froese, Natali, primary, Szaroszyk, Malgorzata, additional, Kattih, Badder, additional, Korf-Klingebiel, Mortimer, additional, Camper, Sally A., additional, Molkentin, Jeffery D, additional, Wollert, Kai C, additional, Bauersachs, Johann, additional, and Heineke, Jörg, additional

Published
2017
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35. Intracoronary autologous bone marrow cell transfer after myocardial infarction: the BOOST-2 randomised placebo-controlled clinical trial

Author

Wollert, Kai C, primary, Meyer, Gerd P, additional, Müller-Ehmsen, Jochen, additional, Tschöpe, Carsten, additional, Bonarjee, Vernon, additional, Larsen, Alf Inge, additional, May, Andreas E, additional, Empen, Klaus, additional, Chorianopoulos, Emmanuel, additional, Tebbe, Ulrich, additional, Waltenberger, Johannes, additional, Mahrholdt, Heiko, additional, Ritter, Benedikta, additional, Pirr, Jens, additional, Fischer, Dieter, additional, Korf-Klingebiel, Mortimer, additional, Arseniev, Lubomir, additional, Heuft, Hans-Gert, additional, Brinchmann, Jan E, additional, Messinger, Diethelm, additional, Hertenstein, Bernd, additional, Ganser, Arnold, additional, Katus, Hugo A, additional, Felix, Stephan B, additional, Gawaz, Meinrad P, additional, Dickstein, Kenneth, additional, Schultheiss, Heinz-Peter, additional, Ladage, Dennis, additional, Greulich, Simon, additional, and Bauersachs, Johann, additional

Published
2017
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36. The transcription factor GATA 4 promotes myocardial regeneration in neonatal mice

Author

Malek Mohammadi, Mona, primary, Kattih, Badder, additional, Grund, Andrea, additional, Froese, Natali, additional, Korf‐Klingebiel, Mortimer, additional, Gigina, Anna, additional, Schrameck, Ulrike, additional, Rudat, Carsten, additional, Liang, Qiangrong, additional, Kispert, Andreas, additional, Wollert, Kai C, additional, Bauersachs, Johann, additional, and Heineke, Joerg, additional

Published
2017
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37. A gene therapeutic approach to inhibit calcium and integrin binding protein 1 ameliorates maladaptive remodelling in pressure overload.

Author

Grund, Andrea, Szaroszyk, Malgorzata, Döppner, Janina K, Mohammadi, Mona Malek, Kattih, Badder, Korf-Klingebiel, Mortimer, Gigina, Anna, Scherr, Michaela, Kensah, George, Jara-Avaca, Monica, Gruh, Ina, Martin, Ulrich, Wollert, Kai C, Gohla, Antje, Katus, Hugo A, Müller, Oliver J, Bauersachs, Johann, and Heineke, Joerg

Abstract

Aims Chronic heart failure is becoming increasingly prevalent and is still associated with a high mortality rate. Myocardial hypertrophy and fibrosis drive cardiac remodelling and heart failure, but they are not sufficiently inhibited by current treatment strategies. Furthermore, despite increasing knowledge on cardiomyocyte intracellular signalling proteins inducing pathological hypertrophy, therapeutic approaches to target these molecules are currently unavailable. In this study, we aimed to establish and test a therapeutic tool to counteract the 22 kDa calcium and integrin binding protein (CIB) 1, which we have previously identified as nodal regulator of pathological cardiac hypertrophy and as activator of the maladaptive calcineurin/NFAT axis. Methods and results Among three different sequences, we selected a shRNA construct (shCIB1) to specifically down-regulate CIB1 by 50% upon adenoviral overexpression in neonatal rat cardiomyocytes (NRCM), and upon overexpression by an adeno-associated-virus (AAV) 9 vector in mouse hearts. Overexpression of shCIB1 in NRCM markedly reduced cellular growth, improved contractility of bioartificial cardiac tissue and reduced calcineurin/NFAT activation in response to hypertrophic stimulation. In mice, administration of AAV-shCIB1 strongly ameliorated eccentric cardiac hypertrophy and cardiac dysfunction during 2 weeks of pressure overload by transverse aortic constriction (TAC). Ultrastructural and molecular analyses revealed markedly reduced myocardial fibrosis, inhibition of hypertrophy associated gene expression and calcineurin/NFAT as well as ERK MAP kinase activation after TAC in AAV-shCIB1 vs. AAV-shControl treated mice. During long-term exposure to pressure overload for 10 weeks, AAV-shCIB1 treatment maintained its anti-hypertrophic and anti-fibrotic effects, but cardiac function was no longer improved vs. AAV-shControl treatment, most likely resulting from a reduction in myocardial angiogenesis upon downregulation of CIB1. Conclusions Inhibition of CIB1 by a shRNA-mediated gene therapy potently inhibits pathological cardiac hypertrophy and fibrosis during pressure overload. While cardiac function is initially improved by shCIB1, this cannot be kept up during persisting overload. [ABSTRACT FROM AUTHOR]

Published
2019
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38. Corrigendum: myeloid-derived growth factor (C19orf10) mediates cardiac repair following myocardial infarction

Author

Korf-Klingebiel, Mortimer, Reboll, Marc R., Klede, Stefanie, Brod, Torben, Pich, Andreas, Polten, Felix, Napp, L. Christian, Bauersachs, Johann, Ganser, Arnold, Brinkmann, Eva, Reimann, Ines, Kempf, Tibor, Niessen, Hans W., Mizrahi, Jacques, Schonfeld, Hans-Joachim, Iglesias, Antonio, Bobadilla, Maria, Wang, Yong, and Wollert, Kai C.

Subjects
Biological sciences, Health
Abstract

In the version of this article initially published, the article number in reference 13 is incorrectly stated as '100ra190' and should be '100ra90'. The error has been corrected in the [...]

Published
2016

39. Iron-regulatory proteins secure iron availability in cardiomyocytes to prevent heart failure

Author

Haddad, Saba, primary, Wang, Yong, additional, Galy, Bruno, additional, Korf-Klingebiel, Mortimer, additional, Hirsch, Valentin, additional, Baru, Abdul M., additional, Rostami, Fatemeh, additional, Reboll, Marc R., additional, Heineke, Jörg, additional, Flögel, Ulrich, additional, Groos, Stephanie, additional, Renner, André, additional, Toischer, Karl, additional, Zimmermann, Fabian, additional, Engeli, Stefan, additional, Jordan, Jens, additional, Bauersachs, Johann, additional, Hentze, Matthias W., additional, Wollert, Kai C., additional, and Kempf, Tibor, additional

Published
2016
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40. Abstract 72: The Tumor Suppressor Gene Tip30 Supports Cardiac Compensation During Overload and Inhibits Myocardial Protein Synthesis

Author

Grund, Andrea, primary, Szaroszyk, Malgorzata, additional, Korf-Klingebiel, Mortimer, additional, Tiedje, Christopher, additional, Gaestel, Matthias, additional, Batkai, Sandor, additional, Thum, Thomas, additional, Jungmann, Andreas, additional, Bauer, Ralf, additional, Yin, Xiaoke, additional, Mayr, Manuel, additional, Wollert, Kai C, additional, Pich, Andreas, additional, Xiao, Hua, additional, Katus, Hugo A, additional, Bauersachs, Johann, additional, Müller, Oliver J, additional, and Heineke, Joerg, additional

Published
2016
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41. Erratum: Corrigendum: Myeloid-derived growth factor (C19orf10) mediates cardiac repair following myocardial infarction

Author

Korf-Klingebiel, Mortimer, primary, Reboll, Marc R, additional, Klede, Stefanie, additional, Brod, Torben, additional, Pich, Andreas, additional, Polten, Felix, additional, Napp, L Christian, additional, Bauersachs, Johann, additional, Ganser, Arnold, additional, Brinkmann, Eva, additional, Reimann, Ines, additional, Kempf, Tibor, additional, Niessen, Hans W, additional, Mizrahi, Jacques, additional, Schönfeld, Hans-Joachim, additional, Iglesias, Antonio, additional, Bobadilla, Maria, additional, Wang, Yong, additional, and Wollert, Kai C, additional

Published
2016
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43. Intracoronary autologous bonemarrow cell transfer aftermyocardial infarction: the BOOST-2 randomised placebo-controlled clinical trial.

Author

Wollert, Kai C., Meyer, Gerd P., Müller-Ehmsen, Jochen, Tschöpe, Carsten, Bonarjee, Vernon, Larsen, Alf Inge, May, Andreas E., Empen, Klaus, Chorianopoulos, Emmanuel, Tebbe, Ulrich, Waltenberger, Johannes, Mahrholdt, Heiko, Ritter, Benedikta, Pirr, Jens, Fischer, Dieter, Korf-Klingebiel, Mortimer, Arseniev, Lubomir, Heuft, Hans-Gert, Brinchmann, Jan E., and Messinger, Diethelm

Abstract

Aims: Intracoronary infusion of autologous nucleated bone marrow cells (BMCs) enhanced the recovery of left ventricular ejection fraction (LVEF) after ST-segment elevation myocardial infarction (STEMI) in the randomised-controlled, open-label BOOST trial. We reassessed the therapeutic potential of nucleated BMCs in the randomised placebocontrolled, double-blind BOOST-2 trial conducted in 10 centres in Germany and Norway. Methods and Results: Using a multiple arm design, we investigated the dose-response relationship and explored whether c-irradiation which eliminates the clonogenic potential of stem and progenitor cells has an impact on BMC efficacy. Between 9 March 2006 and 16 July 2013, 153 patients with large STEMI were randomly assigned to receive a single intracoronary infusion of placebo (control group), high-dose (hi)BMCs, low-dose (lo)BMCs, irradiated hiBMCs, or irradiated loBMCs 8.1 ± 2.6 days after percutaneous coronary intervention (PCI) in addition to guideline-recommended medical treatment. Change in LVEF from baseline (before cell infusion) to 6 months as determined by MRI was the primary endpoint. The trial is registered at Current Controlled Trials (ISRCTN17457407). Baseline LVEF was 45.0 ± 8.5% in the overall population. At 6 months, LVEF had increased by 3.3 percentage points in the control group and 4.3 percentage points in the hiBMC group. The estimated treatment effect was 1.0 percentage points (95% confidence interval, -2.6 to 4.7; P = 0.57). The treatment effect of loBMCs was 0.5 percentage points (-3.0 to 4.1; P = 0.76). Likewise, irradiated BMCs did not have significant treatment effects. BMC transfer was safe and not associated with adverse clinical events. Conclusion: The BOOST-2 trial does not support the use of nucleated BMCs in patients with STEMI and moderately reduced LVEF treated according to current standards of early PCI and drug therapy. [ABSTRACT FROM AUTHOR]

Published
2017
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44. Iron-regulatory proteins secure iron availability in cardiomyocytes to prevent heart failure.

Author

Haddad, Saba, Yong Wang, Galy, Bruno, Korf-Klingebiel, Mortimer, Hirsch, Valentin, Baru, Abdul M., Rostami, Fatemeh, Reboll, Marc R., Heineke, Jörg, Flögel, Ulrich, Groos, Stephanie, Renner, André, Toischer, Karl, Zimmermann, Fabian, Engeli, Stefan, Jordan, Jens, Bauersachs, Johann, Hentze, Matthias W., Wollert, Kai C., and Kempf, Tibor

Abstract

Aims Iron deficiency (ID) is associated with adverse outcomes in heart failure (HF) but the underlying mechanisms are incompletely understood. Intracellular iron availability is secured by two mRNA-binding iron-regulatory proteins (IRPs), IRP1 and IRP2. We generated mice with a cardiomyocyte-targeted deletion of Irp1 and Irp2 to explore the functional implications of ID in the heart independent of systemic ID and anaemia. Methods and results Iron content in cardiomyocytes was reduced in Irp-targeted mice. The animals were not anaemic and did not show a phenotype under baseline conditions. Irp-targeted mice, however, were unable to increase left ventricular (LV) systolic function in response to an acute dobutamine challenge. After myocardial infarction, Irp-targeted mice developed more severe LV dysfunction with increased HF mortality. Mechanistically, the activity of the iron–sulphur cluster-containing complex I of the mitochondrial electron transport chain was reduced in left ventricles from Irp-targeted mice. As demonstrated by extracellular flux analysis in vitro, mitochondrial respiration was preserved at baseline but failed to increase in response to dobutamine in Irp-targeted cardiomyocytes. As shown by 31P-magnetic resonance spectroscopy in vivo, LV phosphocreatine/ATP ratio declined during dobutamine stress in Irp-targeted mice but remained stable in control mice. Intravenous injection of ferric carboxymaltose replenished cardiac iron stores, restored mitochondrial respiratory capacity and inotropic reserve, and attenuated adverse remodelling after myocardial infarction in Irp-targeted mice but not in control mice. As shown by electrophoretic mobility shift assays, IRP activity was significantly reduced in LV tissue samples from patients with advanced HF and reduced LV tissue iron content. Conclusions ID in cardiomyocytes impairs mitochondrial respiration and adaptation to acute and chronic increases in workload. Iron supplementation restores cardiac energy reserve and function in iron-deficient hearts. [ABSTRACT FROM AUTHOR]

Published
2017
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46. Incremental Prognostic Value of Biomarkers beyond the GRACE (Global Registry of Acute Coronary Events) Score and High-Sensitivity Cardiac Troponin T in Non-ST-Elevation Acute Coronary Syndrome

Author

Widera, Christian, primary, Pencina, Michael J, primary, Bobadilla, Maria, primary, Reimann, Ines, primary, Guba-Quint, Anja, primary, Marquardt, Ivonne, primary, Bethmann, Kerstin, primary, Korf-Klingebiel, Mortimer, primary, Kempf, Tibor, primary, Lichtinghagen, Ralf, primary, Katus, Hugo A, primary, Giannitsis, Evangelos, primary, and Wollert, Kai C, primary

Published
2013
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49. Identification of Follistatin-Like 1 by Expression Cloning as an Activator of the Growth Differentiation Factor 15 Gene and a Prognostic Biomarker in Acute Coronary Syndrome

Author

Widera, Christian, primary, Giannitsis, Evangelos, primary, Kempf, Tibor, primary, Korf-Klingebiel, Mortimer, primary, Fiedler, Beate, primary, Sharma, Sarita, primary, Katus, Hugo A, primary, Asaumi, Yasuhide, primary, Shimano, Masayuki, primary, Walsh, Kenneth, primary, and Wollert, Kai C, primary

Published
2012
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50. Conditional Transgenic Expression of Fibroblast Growth Factor 9 in the Adult Mouse Heart Reduces Heart Failure Mortality After Myocardial Infarction

Author

Korf-Klingebiel, Mortimer, primary, Kempf, Tibor, additional, Schlüter, Klaus-Dieter, additional, Willenbockel, Christian, additional, Brod, Torben, additional, Heineke, Jörg, additional, Schmidt, Volker J., additional, Jantzen, Franziska, additional, Brandes, Ralf P., additional, Sugden, Peter H., additional, Drexler, Helmut, additional, Molkentin, Jeffery D., additional, and Wollert, Kai C., additional

Published
2011
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