David Manka1, Tapan K Chatterjee2, Lynn L Stoll1, Joshua E Basford1, Eddy S Konaniah1, Ramprasad Srinivasan1, Vladimir Y Bogdanov1, Yaoliang Tang1, Andra L Blomkalns1, David Y Hui1, Neal L Weintraub1. 1. From the Department of Internal Medicine, Division of Cardiovascular Diseases (D.M.), Department of Pathology and Laboratory Medicine (J.E.B., E.S.K., D.Y.H.), Department of Internal Medicine, Division of Hematology/Oncology (R.S., V.Y.B.), and Department of Emergency Medicine (A.L.B.), University of Cincinnati, OH; Department of Internal Medicine, Vascular Biology Center, Georgia Regents University, Augusta (T.K.C., Y.T., N.L.W.); and Department of Emergency Medicine, University of Iowa, Iowa City (retired) (L.L.S.). 2. From the Department of Internal Medicine, Division of Cardiovascular Diseases (D.M.), Department of Pathology and Laboratory Medicine (J.E.B., E.S.K., D.Y.H.), Department of Internal Medicine, Division of Hematology/Oncology (R.S., V.Y.B.), and Department of Emergency Medicine (A.L.B.), University of Cincinnati, OH; Department of Internal Medicine, Vascular Biology Center, Georgia Regents University, Augusta (T.K.C., Y.T., N.L.W.); and Department of Emergency Medicine, University of Iowa, Iowa City (retired) (L.L.S.). tchatterjee@gru.edu.
Abstract
OBJECTIVE: Perivascular adipose tissue (PVAT) expands during obesity, is highly inflamed, and correlates with coronary plaque burden and increased cardiovascular risk. We tested the hypothesis that PVAT contributes to the vascular response to wire injury and investigated the underlying mechanisms. APPROACH AND RESULTS: We transplanted thoracic aortic PVAT from donor mice fed a high-fat diet to the carotid arteries of recipient high-fat diet-fed low-density lipoprotein receptor knockout mice. Two weeks after transplantation, wire injury was performed, and animals were euthanized 2 weeks later. Immunohistochemistry was performed to quantify adventitial macrophage infiltration and neovascularization and neointimal lesion composition and size. Transplanted PVAT accelerated neointimal hyperplasia, adventitial macrophage infiltration, and adventitial angiogenesis. The majority of neointimal cells in PVAT-transplanted animals expressed α-smooth muscle actin, consistent with smooth muscle phenotype. Deletion of monocyte chemoattractant protein-1 in PVAT substantially attenuated the effects of fat transplantation on neointimal hyperplasia and adventitial angiogenesis, but not adventitial macrophage infiltration. Conditioned medium from perivascular adipocytes induced potent monocyte chemotaxis in vitro and angiogenic responses in cultured endothelial cells. CONCLUSIONS: These findings indicate that PVAT contributes to the vascular response to wire injury, in part through monocyte chemoattractant protein-1-dependent mechanisms.
OBJECTIVE: Perivascular adipose tissue (PVAT) expands during obesity, is highly inflamed, and correlates with coronary plaque burden and increased cardiovascular risk. We tested the hypothesis that PVAT contributes to the vascular response to wire injury and investigated the underlying mechanisms. APPROACH AND RESULTS: We transplanted thoracic aortic PVAT from donormice fed a high-fat diet to the carotid arteries of recipient high-fat diet-fed low-density lipoprotein receptor knockout mice. Two weeks after transplantation, wire injury was performed, and animals were euthanized 2 weeks later. Immunohistochemistry was performed to quantify adventitial macrophage infiltration and neovascularization and neointimal lesion composition and size. Transplanted PVAT accelerated neointimalhyperplasia, adventitial macrophage infiltration, and adventitial angiogenesis. The majority of neointimal cells in PVAT-transplanted animals expressed α-smooth muscle actin, consistent with smooth muscle phenotype. Deletion of monocyte chemoattractant protein-1 in PVAT substantially attenuated the effects of fat transplantation on neointimalhyperplasia and adventitial angiogenesis, but not adventitial macrophage infiltration. Conditioned medium from perivascular adipocytes induced potent monocyte chemotaxis in vitro and angiogenic responses in cultured endothelial cells. CONCLUSIONS: These findings indicate that PVAT contributes to the vascular response to wire injury, in part through monocyte chemoattractant protein-1-dependent mechanisms.
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