Your search keyword '"Tempel, Dennie"' showing total 5 results

1. THSD1 preserves vascular integrity and protects against intraplaque haemorrhaging in ApoE-/- mice

Author

Haasdijk, Remco A., Den Dekker, Wijnand K., Cheng, Caroline, Tempel, Dennie, Szulcek, Robert, Bos, Frank L., Hermkens, Dorien M A, Chrifi, Ihsan, Brandt, Maarten M., van Dijk, Chris, Xu, Yan Juan, Van De Kamp, Esther H M, Blonden, Lau A J, Van Bezu, Jan, Sluimer, Judith C., Biessen, Erik A L, Van Nieuw Amerongen, Geerten P., Duckers, Henricus J., Haasdijk, Remco A., Den Dekker, Wijnand K., Cheng, Caroline, Tempel, Dennie, Szulcek, Robert, Bos, Frank L., Hermkens, Dorien M A, Chrifi, Ihsan, Brandt, Maarten M., van Dijk, Chris, Xu, Yan Juan, Van De Kamp, Esther H M, Blonden, Lau A J, Van Bezu, Jan, Sluimer, Judith C., Biessen, Erik A L, Van Nieuw Amerongen, Geerten P., and Duckers, Henricus J.

Published

2016

2. THSD1 preserves vascular integrity and protects against intraplaque haemorrhaging in ApoE-/- mice

Author

Cardiovasculaire Immunologie, Nefro Vasculaire Geneeskunde, Regenerative Medicine and Stem Cells, Circulatory Health, Other research (not in main researchprogram), Hubrecht Institute with UMC, Aios en Stafsecr. Cardiologie, Haasdijk, Remco A., Den Dekker, Wijnand K., Cheng, Caroline, Tempel, Dennie, Szulcek, Robert, Bos, Frank L., Hermkens, Dorien M A, Chrifi, Ihsan, Brandt, Maarten M., van Dijk, Chris, Xu, Yan Juan, Van De Kamp, Esther H M, Blonden, Lau A J, Van Bezu, Jan, Sluimer, Judith C., Biessen, Erik A L, Van Nieuw Amerongen, Geerten P., Duckers, Henricus J., Cardiovasculaire Immunologie, Nefro Vasculaire Geneeskunde, Regenerative Medicine and Stem Cells, Circulatory Health, Other research (not in main researchprogram), Hubrecht Institute with UMC, Aios en Stafsecr. Cardiologie, Haasdijk, Remco A., Den Dekker, Wijnand K., Cheng, Caroline, Tempel, Dennie, Szulcek, Robert, Bos, Frank L., Hermkens, Dorien M A, Chrifi, Ihsan, Brandt, Maarten M., van Dijk, Chris, Xu, Yan Juan, Van De Kamp, Esther H M, Blonden, Lau A J, Van Bezu, Jan, Sluimer, Judith C., Biessen, Erik A L, Van Nieuw Amerongen, Geerten P., and Duckers, Henricus J.

Published

2016

3. Activation of CECR1 in M2-like TAMs promotes paracrine stimulation-mediated glial tumor progression.

Author

Zhu C, Mustafa D, Zheng PP, van der Weiden M, Sacchetti A, Brandt M, Chrifi I, Tempel D, Leenen PJM, Duncker DJ, Cheng C, and Kros JM

Subjects

Brain Neoplasms metabolism, Cell Differentiation, Cell Movement, Cell Proliferation, Disease Progression, Glioma metabolism, Humans, Macrophages metabolism, Microglia metabolism, Mitogen-Activated Protein Kinases metabolism, Signal Transduction, Tumor Cells, Cultured, Adenosine Deaminase metabolism, Brain Neoplasms pathology, Glioma pathology, Intercellular Signaling Peptides and Proteins metabolism, Macrophages pathology, Microglia pathology, Paracrine Communication

Abstract

Background: The majority of glioma-associated microglia/macrophages have been identified as M2-type macrophages with immune suppressive and tumor supportive action. Recently, the extracellular adenosine deaminase protein Cat Eye Syndrome Critical Region Protein 1 (CECR1) was shown to regulate macrophage maturation. In this study, we investigate the role of CECR1 in the regulation of the glioma-associated macrophage response., Methods: Expression of CECR1 was assessed in human glioma samples. CECR1-mediated macrophage response was studied in vitro, using donor derived CD14+ monocytes and the THP-1 monocytic cell line. The response of the human glioma cell line U87 to conditioned medium of macrophages preconditioned with recombinant human CECR1 or CECR1 silencing was also assessed., Results: CECR1 was strongly expressed in high-grade gliomas (P < .001) and correlated positively with the M2 phenotype markers in tumor-associated microglia/macrophages (TAMs) (overall, P < .05). In vitro studies confirmed the presence of a significantly higher level of CECR1 expression in M2-like macrophages exposed to U87 conditioned medium (P < .001). CECR1 knockdown or stimulation of macrophages affected differentiation toward the M2-like phenotype. Stimulation of U87 cells with conditioned medium of CECR1 knockdown or stimulated macrophages affected tumor cell proliferation and migration, coinciding with altered intracellular signaling of mitogen-activated protein kinase (MAPK). In glioma tissue samples, CECR1 expression correlated with Ki67 and MAPK signaling protein., Conclusions: CECR1 is a potent regulator of TAM polarization and is consistently highly expressed by M2-type TAMs, particularly in high-grade glioma. Paracrine effects induced by CECR1 in M2-like TAMs activate MAPK signaling and stimulate the proliferation and migration of glioma cells., (© The Author(s) 2017. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com)

Published

2017

4. Capture of circulatory endothelial progenitor cells and accelerated re-endothelialization of a bio-engineered stent in human ex vivo shunt and rabbit denudation model.

Author

Larsen K, Cheng C, Tempel D, Parker S, Yazdani S, den Dekker WK, Houtgraaf JH, de Jong R, Swager-ten Hoor S, Ligtenberg E, Hanson SR, Rowland S, Kolodgie F, Serruys PW, Virmani R, and Duckers HJ

Subjects

Aged, Angioplasty, Balloon, Coronary methods, Animals, Antigens, CD34 metabolism, Biomarkers metabolism, Cardiac Catheterization methods, Coronary Restenosis prevention & control, Cytokines metabolism, Disease Models, Animal, Endothelium, Vascular cytology, Female, Graft Occlusion, Vascular prevention & control, Humans, Leukocytes, Mononuclear physiology, Male, Microscopy, Electron, Middle Aged, Papio, Platelet Adhesiveness physiology, Rabbits, Arteriovenous Shunt, Surgical methods, Bioengineering, Coronary Artery Disease therapy, Endothelial Cells physiology, Stem Cells physiology, Stents

Abstract

Aims: The Genous™ Bio-engineered R™ stent (GS) aims to promote vascular healing by capture of circulatory endothelial progenitor cells (EPCs) to the surface of the stent struts, resulting in accelerated re-endothelialization. Here, we assessed the function of the GS in comparison to bare-metal stent (BMS), when exposed to the human and animal circulation., Methods and Results: First, 15 patients undergoing coronary angiography received an extracorporeal femoral arteriovenous (AV) shunt containing BMS and GS. Macroscopical mural thrombi were observed in BMS, whereas GS remained visibly clean. Confocal and scanning electron microscopic (SEM) analysis of GS showed an increase in strut coverage. Quantitative polymerase chain reaction (qPCR) analysis of captured cells on the GS demonstrated increased expression of endothelial markers KDR/VEGFR2 and E-selectin, and a decrease in pro-thrombogenic markers tissue factor pathway inhibitor and plasminogen activator inhibitor-1 compared with BMS. Secondly, a similar primate AV shunt model was used to validate these findings and occlusion of BMS was observed, while GS remained patent, as demonstrated by live imaging of indium-labelled platelets. Thirdly, in an in vitro cell-capture assay, GS struts showed increased coverage by EPCs, whereas monocyte coverage remained similar to BMS. Finally, the assessment of re-endothelialization was studied in a rabbit denudation model. Twenty animals received BMS and GS in the aorta and iliac arteries for 7 days. Scanning electron microscopic analysis showed a trend towards increased strut coverage, confirmed by qPCR analysis revealing increased levels of endothelial markers (Tie2, CD34, PCD31, and P-selectin) in GS., Conclusion: In this proof-of-concept study, we have demonstrated that the bio-engineered EPC-capture stent, Genous™ R™ stent, is effective in EPC capture, resulting in accelerated re-endothelialization and reduced thrombogenicity.

Published

2012

5. In vivo temperature heterogeneity is associated with plaque regions of increased MMP-9 activity.

Author

Krams R, Verheye S, van Damme LC, Tempel D, Mousavi Gourabi B, Boersma E, Kockx MM, Knaapen MW, Strijder C, van Langenhove G, Pasterkamp G, van der Steen AF, and Serruys PW

Subjects

Animals, Aorta enzymology, Atherosclerosis enzymology, Atherosclerosis pathology, Macrophages physiology, Male, Models, Animal, Muscle, Smooth, Vascular enzymology, Muscle, Smooth, Vascular pathology, Myocytes, Smooth Muscle enzymology, Myocytes, Smooth Muscle pathology, Rabbits, Thermography, Cold Temperature, Hot Temperature, Macrophages enzymology, Matrix Metalloproteinase 9 metabolism

Abstract

Aims: Plaque rupture has been associated with a high matrix metalloproteinase (MMP) activity. Recently, regional temperature variations have been observed in atherosclerotic plaques in vivo and ascribed to the presence of macrophages. As macrophages are a major source of MMPs, we examined whether regional temperature changes are related to local MMP activity and macrophage accumulation., Methods and Results: Plaques were experimentally induced in rabbit (n=11) aortas, and at the day of sacrifice, a pull-back was performed with a thermography catheter. Hot (n=10), cold (n=10), and reference (n=11) regions were dissected and analysed for smooth muscle cell (SMC), lipids (L), collagen (COL), and macrophage (MPhi) cell densities (%); a vulnerability index (VI) was calculated as VI=MPhi+L/(SMC+COL). In addition, accumulation and activity of MMP-2 and MMP-9 were determined with zymography. Ten hot regions were identified with an average temperature of 0.40+/-0.03 degrees C (P<0.05 vs. reference) and 10 cold regions with 0.07+/-0.03 degrees C (P<0.05 vs. hot). In the hot regions, a higher macrophage density (173%), less SMC density (77%), and a higher VI (100%) were identified. In addition, MMP-9 (673%) activity was increased. A detailed regression analysis revealed that MMP-9 predicted hot regions better than macrophage accumulation alone., Conclusion: In vivo temperature measurements enable to detect plaques that contain more macrophages, less SMCs, and a higher MMP-9 activity.

Published

2005