Abstract
Leukocytes play a central role in vein graft neointimal hyperplasia, which is significantly augmented under low shear conditions. The current concept is that shear force regulates leukocyte adhesion predominately through up-regulation of chemokines and growth factors within the graft wall. Using rabbit and murine vein graft models, we demonstrate that CC chemokine receptor 2/monocyte chemoattractant protein-1 mediated monocyte recruitment and a low shear environment act synergistically to augment neointimal hyperplasia development and removal of either of the conditions leads to a significant reduction in neointimal thickening. We propose a novel concept that the shear stress response element phenotypically stems from the complex interplay of the biological and physical microenvironments.
Publication types
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Research Support, N.I.H., Extramural
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Research Support, Non-U.S. Gov't
MeSH terms
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Animals
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Cell Movement
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Chemokine CCL2 / genetics
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Gene Deletion
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Gene Expression Regulation
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Hemodynamics
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Hyperplasia / etiology
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Hyperplasia / metabolism
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Hyperplasia / pathology
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Hyperplasia / physiopathology
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Leukocytes / cytology
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Leukocytes / metabolism
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Male
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Mice
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Postoperative Complications / etiology
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Postoperative Complications / metabolism
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Postoperative Complications / pathology
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Postoperative Complications / physiopathology
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Rabbits
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Receptors, CCR2 / deficiency
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Receptors, CCR2 / genetics
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Receptors, CCR2 / metabolism*
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Shear Strength*
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Signal Transduction*
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Transplants / adverse effects*
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Tunica Intima / metabolism*
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Tunica Intima / pathology*
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Veins / transplantation*
Substances
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Chemokine CCL2
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Receptors, CCR2