Your search keyword '"S. Grundmann"' showing total 3 results

1. Forkhead box protein P1 as a downstream target of transforming growth factor-β induces collagen synthesis and correlates with a more stable plaque phenotype.

Author

Bot PT, Grundmann S, Goumans MJ, de Kleijn D, Moll F, de Boer O, van der Wal AC, van Soest A, de Vries JP, van Royen N, Piek JJ, Pasterkamp G, and Hoefer IE

Subjects

Aged, Cell Differentiation, Cell Proliferation, Female, Fibrosis pathology, HEK293 Cells, Humans, Immunohistochemistry methods, Macrophages cytology, Male, Middle Aged, Phenotype, Thrombosis pathology, Collagen chemistry, Forkhead Transcription Factors metabolism, Monocytes cytology, Plaque, Atherosclerotic pathology, Repressor Proteins metabolism, Transforming Growth Factor beta metabolism

Abstract

Objective: Atherosclerosis is an inflammatory disease, modulated by plaque stabilizing and de-stabilizing cell populations such as infiltrating monocytes and vascular smooth muscle cells (vSMCs). Transcription factors regulating proliferation and differentiation of atherosclerosis relevant cell types are of interest in this context. The forkhead box transcription factor FoxP1 modulates monocyte differentiation. We studied FoxP1 expression in atherosclerotic tissue, correlated FoxP1 expression with plaque characteristics and identified associations between FoxP1 and plaque proteins., Methods: 116 Atherosclerotic plaques from carotid endarterectomy samples were histologically classified (fibrous, fibroatheromatous, atheromatous) and subjected to semi-quantitative protein analysis. Macrophage, SMC content and intraplaque thrombus amount were determined histologically. FoxP1 expression was investigated by western blotting and immunohistochemistry. In addition FoxP1 was overexpressed in vitro to identify causal relations between FoxP1 and plaque proteins., Results: FoxP1 expression was observed in SMCs, macrophages, endothelial cells and T-cells within the plaque. High SMC and collagen content correlated with increased FoxP1 isoform (72 kD and 95 kD) levels. 72 kD FoxP1 expression was lower in plaques containing intraplaque thrombus. FoxP1 correlated with active intraplaque TGFβ signaling. In vitro stimulation of SMCs with TGFβ resulted in increased FoxP1 levels. 72 kD FoxP1 correlated with expression of pro-fibrotic EGR-1 and increased Col1A1 expression., Conclusion: FoxP1 is expressed by different cell types in atherosclerotic lesions and associated with more stable plaque characteristics and intraplaque TGFβ signaling. FoxP1 expression in vitro is induced by TGFβ, resulting in increased collagen and EGR-1 expression, providing a mechanism for the observed association with a more stable plaque phenotype., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2011

2. Leukocyte subpopulations and arteriogenesis: specific role of monocytes, lymphocytes and granulocytes.

Author

Hoefer IE, Grundmann S, van Royen N, Voskuil M, Schirmer SH, Ulusans S, Bode C, Buschmann IR, and Piek JJ

Subjects

Animals, Arteries immunology, Chemokine CCL2 pharmacology, Chemotaxis, Leukocyte drug effects, Collateral Circulation drug effects, Granulocytes physiology, Interleukin-8 pharmacology, Lymphocytes physiology, Lymphokines pharmacology, Monocytes physiology, Neovascularization, Physiologic drug effects, Peptides pharmacology, Rabbits, Sialoglycoproteins pharmacology, beta-Thromboglobulin, Collateral Circulation immunology, Leukocytes physiology, Neovascularization, Physiologic immunology

Abstract

Objective: Circulating leukocytes play a crucial role during arteriogenesis. However, known pro-arteriogenic compounds (MCP-1, GM-CSF) acting via monocytic pathways also exert positive effects on granulocytes and lymphocytes. The role of these two cell types in arteriogenesis remains yet to be clarified, which was the aim of the current study., Methods: Ninety New Zealand White Rabbits received either phosphate buffered saline (PBS), monocyte chemoattractant protein-1 (MCP-1), interleukin-8 (IL-8), neutrophil activating protein-2 (NAP-2) or lymphotactin (Ltn) via osmotic minipumps after unilateral femoral artery ligation. In vitro stimulation and in vivo assessment of chemoattraction confirmed cell-specific action of the compounds in rabbits. Arteriogenesis was evaluated by angiography and collateral conductance measurements using fluorescent microspheres. Quantitative immunohistology was used to quantify transmigrated leukocyte subtypes after infusion of the factors., Results: MCP-1 infusion attracts monocytes and granulocytes, whereas IL-8 attracts all three cell types albeit monocytes to a significantly lower degree than MCP-1. NAP-2 and lymphotactin selectively attract granulocytes, respectively, lymphocytes. Of the tested cytokines, only MCP-1 stimulates arteriogenesis, as assessed by collateral conductance measurements ((ml/(min 100 mmHg)): PBS, 50.70+/-5.15; MCP-1, 216.30+/-12.30; IL-8, 58.91+/-5.56; NAP-2, 66.83+/-8.72; Ltn, 52.80+/-5.37) and angiographic findings., Conclusion: This study for the first time provides evidence that not granulocytes or T-lymphocytes but monocytes are the key mediators of arteriogenesis.

Published

2005

3. Invasive and non-invasive evaluation of spontaneous arteriogenesis in a novel porcine model for peripheral arterial obstructive disease.

Author

Buschmann IR, Voskuil M, van Royen N, Hoefer IE, Scheffler K, Grundmann S, Hennig J, Schaper W, Bode C, and Piek JJ

Subjects

Angiography methods, Animals, Arterial Occlusive Diseases diagnostic imaging, Arterial Occlusive Diseases etiology, Arteriosclerosis etiology, Evaluation Studies as Topic, Female, Hemodynamics physiology, Ligation, Magnetic Resonance Angiography, Male, Models, Animal, Peripheral Vascular Diseases diagnostic imaging, Peripheral Vascular Diseases etiology, Probability, Sensitivity and Specificity, Swine, Swine, Miniature, Arterial Occlusive Diseases pathology, Arteriosclerosis pathology, Collateral Circulation physiology, Femoral Artery diagnostic imaging, Femoral Artery pathology, Peripheral Vascular Diseases pathology

Abstract

Our current knowledge regarding the efficacy of factors stimulating collateral artery growth in the peripheral circulation primarily stems from models in small animals. However, experimental models in large sized animals are a prerequisite for extrapolation of growth factor therapy to patients with peripheral atherosclerotic obstructive disease. Therefore, we have developed a novel porcine femoral artery ligation model using non-invasive and invasive evaluation techniques. In 12 young farm pigs and nine older minipigs, a ligation of the superficial femoral artery was performed. Using an intra-arterial catheter, phosphate buffered saline (PBS) was administered with a first-pass over the collateral vascular bed. Directly after ligation as well as after 2 weeks of continuous infusion of PBS, perfusion of the leg was measured using various flow and pressure parameters. Using a pump driven extracorporal system, collateral conductance was determined under maximal vasodilatation. Conductance decreased after acute ligation to similar levels in both young farm pigs as well as the older minipigs (both 9.3% of normal perfusion) and recovered after 2 weeks to a higher value in farm pigs compared with minipigs (22.4 vs. 12.7% of normal; P<0.05). Angiography using both X-ray and magnetic resonance imaging was performed to visualize the formed collateral arteries. To the best of our knowledge this is the first in vivo pig model for hemodynamic assessment of growth of collateral arteries in the peripheral circulation, that is suitable for evaluation of arteriogenic effects of growth factors or genes.

Published

2003