Smooth muscle glucose metabolism promotes monocyte recruitment and atherosclerosis in a mouse model of metabolic syndrome
Valerie Z. Wall, Shelley Barnhart, Jenny E. Kanter, Farah Kramer, Masami Shimizu-Albergine, Neeta Adhikari, Thomas N. Wight, Jennifer L. Hall, Karin E. Bornfeldt
Valerie Z. Wall, Shelley Barnhart, Jenny E. Kanter, Farah Kramer, Masami Shimizu-Albergine, Neeta Adhikari, Thomas N. Wight, Jennifer L. Hall, Karin E. Bornfeldt
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Research Article Vascular biology

Smooth muscle glucose metabolism promotes monocyte recruitment and atherosclerosis in a mouse model of metabolic syndrome

Abstract

Metabolic syndrome contributes to cardiovascular disease partly through systemic risk factors. However, local processes in the artery wall are becoming increasingly recognized to exacerbate atherosclerosis both in mice and humans. We show that arterial smooth muscle cell (SMC) glucose metabolism markedly synergizes with metabolic syndrome in accelerating atherosclerosis progression, using a low-density lipoprotein receptor–deficient mouse model. SMCs in proximity to atherosclerotic lesions express increased levels of the glucose transporter GLUT1. Cytokines, such as TNF-α produced by lesioned arteries, promote GLUT1 expression in SMCs, which in turn increases expression of the chemokine CCL2 through increased glycolysis and the polyol pathway. Furthermore, overexpression of GLUT1 in SMCs, but not in myeloid cells, accelerates development of larger, more advanced lesions in a mouse model of metabolic syndrome, which also exhibits elevated levels of circulating Ly6Chi monocytes expressing the CCL2 receptor CCR2. Accordingly, monocyte tracing experiments demonstrate that targeted SMC GLUT1 overexpression promotes Ly6Chi monocyte recruitment to lesions. Strikingly, SMC-targeted GLUT1 overexpression fails to accelerate atherosclerosis in mice that do not exhibit the metabolic syndrome phenotype or monocytosis. These results reveal a potentially novel mechanism whereby arterial smooth muscle glucose metabolism synergizes with metabolic syndrome to accelerate monocyte recruitment and atherosclerosis progression.

Authors

Valerie Z. Wall, Shelley Barnhart, Jenny E. Kanter, Farah Kramer, Masami Shimizu-Albergine, Neeta Adhikari, Thomas N. Wight, Jennifer L. Hall, Karin E. Bornfeldt

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Figure 8

SMC GLUT1 promotes monocyte recruitment in vivo.

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SMC GLUT1 promotes monocyte recruitment in vivo. (A) Study design. WT an...
(A) Study design. WT and SM-GLUT1 mice were fed DDC for 16 weeks before monocytes were depleted with clodronate liposomes (Clod. lip). Sixteen hours after clodronate injection, yellow-green (YG) microparticles were injected retro-orbitally to label newly formed monocytes (predominantly Ly6Chi monocytes). Three days after YG-bead injection, labeling efficiency was determined by flow cytometry. The experiment was terminated 4 days after labeling. (B) Flow cytometric analysis of the level of depletion of monocytes in the blood (>98%) in a Clod. lip–injected mouse compared with noninjected mouse. (C) Flow cytometric analysis of labeling efficiency in the circulation in a Clod. lip– and YG-bead–injected mouse compared with mouse not injected with Clod. lip or YG-beads. (D) Labeling efficiency as % of total monocytes (Ly6Chi monocytes constitutes >80% of all monocytes 4 days after depletion), and as % of total CD45+ cells. (E) Representative images from brachiocephalic artery (BCA). Green, YG-beads (white arrows) and elastic lamina; red, Mac-2 (macrophages); blue, DAPI (nuclei). (F) Quantification of YG-beads/BCA with and without normalizing to percent of labeled monocytes. n = 11–17. Statistical analysis was performed by 2-tailed unpaired Student’s t test. *P < 0.05; **P < 0.01.