Your search keyword '"Ter Horst EN"' showing total 11 results

1. Elevated monocyte-specific type I interferon signalling correlates positively with cardiac healing in myocardial infarct patients but interferon alpha application deteriorates myocardial healing in rats

Author

ter Horst, EN, Krijnen, PAJ, Hakimzadeh, N, Robbers, L, Hirsch, Alexander, Nijveldt, R, Lommerse, I, Fontijn, RD, Meinster, E, Delewi, R, van Royen, N, Zijlstra, Felix, van Rossum, AC, van der Schoot, CE, Kraan, T, Horrevoets, AJ, Laan, AM, Niessen, HWM, Piek, JJ, ter Horst, EN, Krijnen, PAJ, Hakimzadeh, N, Robbers, L, Hirsch, Alexander, Nijveldt, R, Lommerse, I, Fontijn, RD, Meinster, E, Delewi, R, van Royen, N, Zijlstra, Felix, van Rossum, AC, van der Schoot, CE, Kraan, T, Horrevoets, AJ, Laan, AM, Niessen, HWM, and Piek, JJ

Published

2018

2. The Netherlands Heart Tissue Bank : Strengthening the cardiovascular research infrastructure with an open access Cardiac Tissue Repository.

Author

Henkens MTHM, van Ast JF, Te Riele ASJM, Houweling AC, Amin AS, Nijveldt R, Antoni ML, Li X, Wehrens SMT, von der Thüsen JH, Damman K, Ter Horst EN, Manintveld OC, Abma-Schouten RY, Niessen HWM, Silljé HHW, Jukema JW, and Doevendans PA

Abstract

Aim: Cardiac diseases remain a leading cause of cardiovascular disease (CVD) related hospitalisation and mortality. That is why research to improve our understanding of pathophysiological processes underlying cardiac diseases is of great importance. There is a strong need for healthy and diseased human cardiac tissue and related clinical data to accomplish this, since currently used animal and in vitro disease models do not fully grasp the pathophysiological processes observed in humans. This design paper describes the initiative of the Netherlands Heart Tissue Bank (NHTB) that aims to boost CVD-related research by providing an open-access biobank., Methods: The NHTB, founded in June 2020, is a non-profit biobank that collects and stores biomaterial (including but not limited to myocardial tissue and blood samples) and clinical data of individuals with and without previously known cardiac diseases. All individuals aged ≥ 18 years living in the Netherlands are eligible for inclusion as a potential future donor. The stored samples and clinical data will be available upon request for cardiovascular researchers., Conclusion: To improve the availability of cardiac tissue for cardiovascular research, the NHTB will include extensive (cardiac) biosamples, medical images, and clinical data of donors with and without a previously known cardiac disease. As such, the NHTB will function as a translational bridge to boost a wide range of cardiac disease-related fundamental and translational studies., (© 2022. The Author(s).)

Published

2023

3. Elevated monocyte-specific type I interferon signalling correlates positively with cardiac healing in myocardial infarct patients but interferon alpha application deteriorates myocardial healing in rats.

Author

Ter Horst EN, Krijnen PAJ, Hakimzadeh N, Robbers LFHJ, Hirsch A, Nijveldt R, Lommerse I, Fontijn RD, Meinster E, Delewi R, van Royen N, Zijlstra F, van Rossum AC, van der Schoot CE, van der Pouw Kraan TCTM, Horrevoets AJ, van der Laan AM, Niessen HWM, and Piek JJ

Subjects

Adult, Aged, Animals, Bone Marrow Transplantation methods, Female, Humans, Interferon Type I pharmacology, Male, Middle Aged, Monocytes metabolism, Myocardial Infarction pathology, Rats, Rats, Wistar, Signal Transduction drug effects, Signal Transduction physiology, Wound Healing drug effects, Wound Healing physiology, Interferon Type I metabolism, Monocytes transplantation, Myocardial Infarction metabolism, Myocardial Infarction therapy, Ventricular Remodeling drug effects

Abstract

Monocytes are involved in adverse left ventricular (LV) remodelling following myocardial infarction (MI). To provide therapeutic opportunities we aimed to identify gene transcripts in monocytes that relate to post-MI healing and evaluated intervention with the observed gene activity in a rat MI model. In 51 MI patients treated by primary percutaneous coronary intervention (PCI), the change in LV end-diastolic volume index (EDVi) from baseline to 4-month follow-up was assessed using cardiovascular magnetic resonance imaging (CMR). Circulating monocytes were collected at day 5 (Arterioscler Thromb Vasc Biol 35:1066-1070, 2015; Cell Stem Cell 16:477-487, 2015; Curr Med Chem 13:1877-1893, 2006) after primary PCI for transcriptome analysis. Transcriptional profiling and pathway analysis revealed that patients with a decreased LV EDVi showed an induction of type I interferon (IFN) signalling (type I IFN pathway: P value < 0.001; false discovery rate < 0.001). We subsequently administered 15,000 Units of IFN-α subcutaneously in a rat MI model for three consecutive days following MI. Cardiac function was measured using echocardiography and infarct size/cardiac inflammation using (immuno)-histochemical analysis. We found that IFN-α application deteriorated ventricular dilatation and increased infarct size at day 28 post-MI. Moreover, IFN-α changed the peripheral monocyte subset distribution towards the pro-inflammatory monocyte subset whereas in the myocardium, the presence of the alternative macrophage subset was increased at day 3 post-MI. Our findings suggest that induction of type I IFN signalling in human monocytes coincides with adverse LV remodelling. In rats, however, IFN-α administration deteriorated post-MI healing. These findings underscore important but also contradictory roles for the type I IFN response during cardiac healing following MI.

Published

2018

4. p47phox-Dependent Reactive Oxygen Species Stimulate Nuclear Translocation of the FoxO1 Transcription Factor During Metabolic Inhibition in Cardiomyoblasts.

Author

Ter Horst EN, Hahn NE, Geerts D, Musters RJP, Paulus WJ, van Rossum AC, Meischl C, Piek JJ, Niessen HWM, and Krijnen PAJ

Subjects

Animals, Cell Line, Culture Media chemistry, Culture Media pharmacology, Cytosol metabolism, Microscopy, Fluorescence, Myocytes, Cardiac cytology, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism, NADPH Oxidases antagonists & inhibitors, NADPH Oxidases genetics, RNA Interference, RNA, Small Interfering metabolism, Rats, Tyrosine analogs & derivatives, Tyrosine metabolism, Cell Nucleus metabolism, NADPH Oxidases metabolism, Nerve Tissue Proteins metabolism, Reactive Oxygen Species metabolism

Abstract

Reactive oxygen species (ROS) control forkhead box O (FOXO) transcription factor activity by influencing their nuclear translocation. However, knowledge of the ROS cellular source(s) involved herein remains scarce. Recently, we have shown p47 phox -dependent activation of ROS-producing NADPH oxidase (NOX) at the nuclear pore in H9c2 rat cardiomyoblasts in response to ischemia. This localizes NOX perfectly to affect protein nuclear translocation, including that of transcription factors. In the current study, involvement of p47 phox -dependent production of ROS in the nuclear translocation of FOXO1 was analyzed in H9c2 cells following 4 h of metabolic inhibition (MI), which mimics the effects of ischemia. Nuclear translocation of FOXO1 was determined by quantitative digital-imaging fluorescence and western blot analysis. Subsequently, the effect of inhibiting p47 phox -dependent ROS production by short hairpin RNA (shRNA) transfection on FOXO1 translocation was analyzed by digital-imaging microscopy. MI induced a significant translocation of FOXO1 into the nucleus. Transfection with p47 phox -shRNA successfully knocked-down p47 phox expression, reduced nuclear nitrotyrosine production, an indirect marker for ROS production, and inhibited the nuclear translocation of FOXO1 following MI. With these results, we show for the first time that nuclear import of FOXO1 induced by MI in H9c2 depends critically on p47 phox -mediated ROS production.

Published

2018

5. Sufentanil-medetomidine anaesthesia compared with fentanyl/fluanisone-midazolam is associated with fewer ventricular arrhythmias and death during experimental myocardial infarction in rats and limits infarct size following reperfusion.

Author

Ter Horst EN, Krijnen PAJ, Flecknell P, Meyer KW, Kramer K, van der Laan AM, Piek JJ, and Niessen HWM

Subjects

Animals, Butyrophenones adverse effects, Fentanyl adverse effects, Male, Medetomidine adverse effects, Midazolam adverse effects, Myocardial Infarction mortality, Rats, Wistar, Retrospective Studies, Sufentanil adverse effects, Anesthetics, Combined adverse effects, Arrhythmias, Cardiac physiopathology, Myocardial Infarction physiopathology, Rats physiology

Abstract

To improve infarct healing following myocardial infarction in humans, therapeutic interventions can be applied during the inflammatory response. Animal models are widely used to study this process. However, induction of MI in rodents is associated with high mortality due to ventricular fibrillation (VF) during coronary artery ligation. The anaesthetic agent used during the procedure appears to influence the frequency of this complication. In this retrospective study, the effect on ventricular arrhythmia incidence during ligation and infarct size following in vivo reperfusion of two anaesthetic regimens, sufentanil-medetomidine (SM) and fentanyl/fluanisone-midazolam (FFM) was evaluated in rats. Anaesthetics were administered subcutaneously using fentanyl/fluanisone (0.5 mL/kg) with midazolam (5 mg/kg) (FFM group, n = 48) or sufentanil (0.05 mg/kg) with medetomidine (0.15 mg/kg) (SM group, n = 47). The coronary artery was ligated for 40 min to induce MI. Heart rate and ventricular arrhythmias were recorded during ligation, and infarct size was measured via histochemistry after three days of reperfusion. In the SM group, heart rate and VF incidence were lower throughout the experiment compared with the FFM group (6% versus 30%) ( P < 0.01). Fatal VF did not occur in the SM group whereas this occurred in 25% of the animals in the FFM group. Additionally, after three days of reperfusion, the infarcted area following SM anaesthesia was less than half as large as that following FFM anaesthesia (8.5 ± 6.4% versus 20.7 ± 5.6%) ( P < 0.01). Therefore, to minimize the possibility of complications related to VF and acute death arising during ligation, SM anaesthesia is recommended for experimental MI in rats.

Published

2018

6. Dopamine induces lipid accumulation, NADPH oxidase-related oxidative stress, and a proinflammatory status of the plasma membrane in H9c2 cells.

Author

Begieneman MP, Ter Horst EN, Rijvers L, Meinster E, Leen R, Pankras JE, Fritz J, Kubat B, Musters RJ, van Kuilenburg AB, Stap J, Niessen HW, and Krijnen PA

Subjects

Adenosine Diphosphate metabolism, Adenosine Triphosphate metabolism, Animals, Caspase 3 drug effects, Caspase 3 metabolism, Cell Line, Cell Membrane drug effects, Cell Membrane metabolism, Cell Survival, Flow Cytometry, Guanosine Diphosphate metabolism, Guanosine Triphosphate metabolism, Hydrogen-Ion Concentration, Microscopy, Electron, Microscopy, Fluorescence, Myoblasts, Cardiac metabolism, Myoblasts, Cardiac ultrastructure, NADH, NADPH Oxidoreductases drug effects, NADH, NADPH Oxidoreductases metabolism, NADPH Oxidase 1, NADPH Oxidase 4, NADPH Oxidases metabolism, Nuclear Proteins drug effects, Nuclear Proteins metabolism, Peroxidase drug effects, Peroxidase metabolism, Rats, Reactive Oxygen Species metabolism, Soluble N-Ethylmaleimide-Sensitive Factor Attachment Proteins, Tyrosine analogs & derivatives, Tyrosine drug effects, Tyrosine metabolism, Dopamine pharmacology, Dopamine Agents pharmacology, Inflammation metabolism, Lipid Metabolism drug effects, Myoblasts, Cardiac drug effects, NADPH Oxidases drug effects, Oxidative Stress drug effects

Abstract

Excess catecholamine levels are suggested to be cardiotoxic and to underlie stress-induced heart failure. The cardiotoxic effects of norepinephrine and epinephrine are well recognized. However, although cardiac and circulating dopamine levels are also increased in stress cardiomyopathy patients, knowledge regarding putative toxic effects of excess dopamine levels on cardiomyocytes is scarce. We now studied the effects of elevated dopamine levels in H9c2 cardiomyoblasts. H9c2 cells were cultured and treated with dopamine (200 μM) for 6, 24, and 48 h. Subsequently, the effects on lipid accumulation, cell viability, flippase activity, reactive oxygen species (ROS) production, subcellular NADPH oxidase (NOX) protein expression, and ATP/ADP and GTP/GDP levels were analyzed. Dopamine did not result in cytotoxic effects after 6 h. However, after 24 and 48 h dopamine treatment induced a significant increase in lipid accumulation, nitrotyrosine levels, indicative of ROS production, and cell death. In addition, dopamine significantly reduced flippase activity and ATP/GTP levels, coinciding with phosphatidylserine exposure on the outer plasma membrane. Furthermore, dopamine induced a transient increase in cytoplasmic and (peri)nucleus NOX1 and NOX4 expression after 24 h that subsided after 48 h. Moreover, while dopamine induced a similar transient increase in cytoplasmic NOX2 and p47 phox expression, in the (peri)nucleus this increased expression persisted for 48 h where it colocalized with ROS. Exposure of H9c2 cells to elevated dopamine levels induced lipid accumulation, oxidative stress, and a proinflammatory status of the plasma membrane. This can, in part, explain the inflammatory response in patients with stress-induced heart failure., (Copyright © 2016 the American Physiological Society.)

Published

2016

7. Modulators of Macrophage Polarization Influence Healing of the Infarcted Myocardium.

Author

ter Horst EN, Hakimzadeh N, van der Laan AM, Krijnen PA, Niessen HW, and Piek JJ

Subjects

Animals, Cell Polarity, Cytokines physiology, Humans, Intercellular Signaling Peptides and Proteins metabolism, Myocardial Infarction pathology, Myocardium immunology, Myocardium pathology, Nerve Tissue Proteins metabolism, Regeneration, Signal Transduction, Ventricular Remodeling, Macrophages physiology, Myocardial Infarction immunology

Abstract

To diminish heart failure development after acute myocardial infarction (AMI), several preclinical studies have focused on influencing the inflammatory processes in the healing response post-AMI. The initial purpose of this healing response is to clear cell debris of the injured cardiac tissue and to eventually resolve inflammation and support scar tissue formation. This is a well-balanced reaction. However, excess inflammation can lead to infarct expansion, adverse ventricular remodeling and thereby propagate heart failure development. Different macrophage subtypes are centrally involved in both the promotion and resolution phase of inflammation. Modulation of macrophage subset polarization has been described to greatly affect the quality and outcome of healing after AMI. Therefore, it is of great interest to reveal the process of macrophage polarization to support the development of therapeutic targets. The current review summarizes (pre)clinical studies that demonstrate essential molecules involved in macrophage polarization that can be modulated and influence cardiac healing after AMI.

Published

2015

8. Acute myocardial infarction does not affect functional characteristics of adipose-derived stem cells in rats, but reduces the number of stem cells in adipose tissue.

Author

Naaijkens BA, Krijnen PA, Meinster E, ter Horst EN, Vo K, Musters RJ, Kamp O, Niessen HW, Juffermans LJ, and van Dijk A

Subjects

Animals, Cell Count, Cell Differentiation, Cell Lineage, Cells, Cultured, Male, Rats, Wistar, Stromal Cells cytology, Adipose Tissue cytology, Myocardial Infarction pathology, Stem Cells cytology

Abstract

In most pre-clinical animal studies investigating stem cell therapy in acute myocardial infarction (AMI), the administered stem cells are isolated from healthy donors. In clinical practice, however, patients who suffer from AMI will receive autologous cells, for example using adipose-derived stem cells (ASC). During AMI, inflammation is induced and we hypothesized that this might affect characteristics of ASC. To investigate this, ASC were isolated from rat adipose tissue 1 day (1D group, n = 5) or 7 days (7D group, n = 6) post-AMI, and were compared with ASC from healthy control rats (Control group, n = 6) and sham-operated rats (Sham 1D group, n = 5). We found that significantly fewer ASC were present 1 day post-AMI in the stromal vascular fraction (SVF), determined by a colony-forming-unit assay (p < 0.001 vs. Control and 7D). These data were confirmed by flow cytometry, showing fewer CD90-positive cells in SVF of the 1D group. When cultured, no differences were found in proliferation rate and cell size between the groups in the first three passages. Also, no difference in the differentiation capacity of ASC was found. In conclusion, it was shown that significantly fewer stem cells were present in the SVF 1 day post-AMI; however, the stem cells that were present showed no functional differences.

Published

2015

9. Monocyte subset accumulation in the human heart following acute myocardial infarction and the role of the spleen as monocyte reservoir.

Author

van der Laan AM, Ter Horst EN, Delewi R, Begieneman MP, Krijnen PA, Hirsch A, Lavaei M, Nahrendorf M, Horrevoets AJ, Niessen HW, and Piek JJ

Subjects

Aged, Antigens, CD metabolism, Bone Marrow Cells physiology, Case-Control Studies, Female, Humans, Immunohistochemistry, Male, Monocytes classification, Myocardial Infarction immunology, Myocardium pathology, Spleen immunology, Monocytes physiology, Myocardial Infarction pathology, Spleen physiology

Abstract

Aims: Monocytes are critical mediators of healing following acute myocardial infarction (AMI), making them an interesting target to improve myocardial repair. The purpose of this study was a gain of insight into the source and recruitment of monocytes following AMI in humans., Methods and Results: Post-mortem tissue specimens of myocardium, spleen and bone marrow were collected from 28 patients who died at different time points after AMI. Twelve patients who died from other causes served as controls. The presence and localization of monocytes (CD14(+) cells), and their CD14(+)CD16(-) and CD14(+)CD16(+) subsets, were evaluated by immunohistochemical and immunofluorescence analyses. CD14(+) cells localized at distinct regions of the infarcted myocardium in different phases of healing following AMI. In the inflammatory phase after AMI, CD14(+) cells were predominantly located in the infarct border zone, adjacent to cardiomyocytes, and consisted for 85% (78-92%) of CD14(+)CD16(-) cells. In contrast, in the subsequent post-AMI proliferative phase, massive accumulation of CD14(+) cells was observed in the infarct core, containing comparable proportions of both the CD14(+)CD16(-) [60% (31-67%)] and CD14(+)CD16(+) subsets [40% (33-69%)]. Importantly, in AMI patients, of the number of CD14(+) cells was decreased by 39% in the bone marrow and by 58% in the spleen, in comparison with control patients (P = 0.02 and <0.001, respectively)., Conclusions: Overall, this study showed a unique spatiotemporal pattern of monocyte accumulation in the human myocardium following AMI that coincides with a marked depletion of monocytes from the spleen, suggesting that the human spleen contains an important reservoir function for monocytes.

Published

2014

10. Induction of a monocyte/macrophage phenotype switch by mesenchymal stem cells might contribute to improved infarct healing postacute myocardial infarction.

Author

Ter Horst EN, Naaijkens BA, Krijnen PA, Van Der Laan AM, Piek JJ, and Niessen HW

Subjects

Animals, Cicatrix, Heart Failure etiology, Heart Failure prevention & control, Humans, Inflammation physiopathology, Macrophages metabolism, Mesenchymal Stem Cells metabolism, Monocytes metabolism, Myocardial Infarction metabolism, Myocardial Infarction physiopathology, Phenotype, Time Factors, Inflammation therapy, Mesenchymal Stem Cell Transplantation methods, Myocardial Infarction therapy

Abstract

Inadequate healing following acute myocardial infarction (AMI) can lead to the development of heart failure. The ischemic myocardium triggers an inflammatory response that clears cell debris and initiates the onset of scar tissue formation. The duration and intensity of this inflammatory response have been linked to the cardiac functioning post-AMI. In order to diminish scar tissue formation and stimulate regeneration of cardiac tissue, mesenchymal stem cell (MSC) have been applied post-AMI and showed beneficial effects on cardiac function. However, other than the expected regeneration of cardiac tissue, modulation of the inflammatory response post-AMI, especially related to an effect on monocytes/macrophages, was recently found to be an important aspect of MSC therapy. In healing post-AMI, monocytes and macrophages are key players that can either stimulate or repress inflammation using different phenotypes. Increased levels of the proinflammatory phenotype have clinically been associated with poor cardiac functional outcome post-AMI. MSC have been suggested to switch the monocytes/macrophages phenotype into a more anti-inflammatory state and might therefore beneficially influence the duration and intensity of the inflammatory response and subsequent cardiac function post-AMI. To gain more insight into this effect of MSC, this review provides an overview of the most relevant studies regarding this modulatory effect of MSC on monocytes/macrophages including its mechanisms to improve cardiac functioning post-AMI.

Published

2013

11. GATA6 is required for proliferation, migration, secretory cell maturation, and gene expression in the mature mouse colon.

Author

Beuling E, Aronson BE, Tran LM, Stapleton KA, ter Horst EN, Vissers LA, Verzi MP, and Krasinski SD

Subjects

Animals, Cell Differentiation, Cell Line, Colon ultrastructure, Epithelial Cells cytology, Epithelial Cells metabolism, Female, Gene Deletion, Gene Expression Regulation, Goblet Cells cytology, Goblet Cells metabolism, Intestinal Mucosa ultrastructure, Male, Mice, Colon cytology, Colon metabolism, GATA6 Transcription Factor genetics, GATA6 Transcription Factor metabolism, Intestinal Mucosa cytology, Intestinal Mucosa metabolism

Abstract

Controlled renewal of the epithelium with precise cell distribution and gene expression patterns is essential for colonic function. GATA6 is expressed in the colonic epithelium, but its function in the colon is currently unknown. To define GATA6 function in the colon, we conditionally deleted Gata6 throughout the epithelium of small and large intestines of adult mice. In the colon, Gata6 deletion resulted in shorter, wider crypts, a decrease in proliferation, and a delayed crypt-to-surface epithelial migration rate. Staining techniques and electron microscopy indicated deficient maturation of goblet cells, and coimmunofluorescence demonstrated alterations in specific hormones produced by the endocrine L cells and serotonin-producing cells. Specific colonocyte genes were significantly downregulated. In LS174T, the colonic adenocarcinoma cell line, Gata6 knockdown resulted in a significant downregulation of a similar subset of goblet cell and colonocyte genes, and GATA6 was found to occupy active loci in enhancers and promoters of some of these genes, suggesting that they are direct targets of GATA6. These data demonstrate that GATA6 is necessary for proliferation, migration, lineage maturation, and gene expression in the mature colonic epithelium.

Published

2012