Copper chelation by tetrathiomolybdate inhibits vascular inflammation and atherosclerotic lesion development in apolipoprotein E-deficient mice

Abstract Endothelial activation, which is characterized by upregulation of cellular adhesion molecules and pro-inflammatory chemokines and cytokines, and consequent monocyte recruitment to the arterial intima are etiologic factors in atherosclerosis. Redox-active transition metal ions, such as coppe...

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Bibliographic Details
Published in:Atherosclerosis 2012-08, Vol.223 (2), p.306-313
Main Authors: Wei, Hao, Zhang, Wei-Jian, McMillen, Timothy S, LeBoeuf, Renee C, Frei, Balz
Format: Article
Language:English
Subjects:
adhesion
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Animals
anti-inflammatory activity
Anti-Inflammatory Agents - pharmacology
aorta
Aorta - drug effects
Aorta - metabolism
Aortic Diseases - genetics
Aortic Diseases - immunology
Aortic Diseases - metabolism
Aortic Diseases - prevention & control
Apolipoproteins E - deficiency
Apolipoproteins E - genetics
Atherosclerosis
Atherosclerosis (general aspects, experimental research)
Atherosclerosis - genetics
Atherosclerosis - immunology
Atherosclerosis - metabolism
Atherosclerosis - prevention & control
Biological and medical sciences
Biomarkers - blood
Blood and lymphatic vessels
blood serum
Cardiology. Vascular system
Cardiovascular
cell adhesion
Cell Adhesion Molecules - genetics
Cell Adhesion Molecules - metabolism
Ceruloplasmin - metabolism
Chelating Agents - pharmacology
chelation
chemokines
copper
Copper - metabolism
Copper chelation
Cytokines - genetics
Cytokines - metabolism
diet
Disease Models, Animal
Emergency and intensive care: renal failure. Dialysis management
Endothelial activation
Female
ferroxidase
gene expression
heart
homeostasis
inflammation
Inflammation - genetics
Inflammation - immunology
Inflammation - metabolism
Inflammation - prevention & control
Inflammation Mediators - metabolism
Intensive care medicine
iron
Iron - blood
Lipids - blood
Liver - drug effects
Liver - metabolism
low density lipoprotein
macrophages
Medical sciences
metal ions
Mice
Mice, Inbred C57BL
Mice, Knockout
Molybdenum - pharmacology
Myocardium - metabolism
oxidative stress
recruitment
signal transduction
Tetrathiomolybdate
Vascular inflammation
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Summary:Abstract Endothelial activation, which is characterized by upregulation of cellular adhesion molecules and pro-inflammatory chemokines and cytokines, and consequent monocyte recruitment to the arterial intima are etiologic factors in atherosclerosis. Redox-active transition metal ions, such as copper and iron, may play an important role in endothelial activation by stimulating redox-sensitive cell signaling pathways. We have shown previously that copper chelation by tetrathiomolybdate (TTM) inhibits LPS-induced acute inflammatory responses in vivo . Here, we investigated whether TTM can inhibit atherosclerotic lesion development in apolipoprotein E-deficient (apoE−/−) mice. We found that 10-week treatment of apoE−/− mice with TTM (33–66 ppm in the diet) reduced serum levels of the copper-containing protein, ceruloplasmin, by 47%, and serum iron by 26%. Tissue levels of “bioavailable” copper, assessed by the copper-to-molybdenum ratio, decreased by 80% in aorta and heart, whereas iron levels of these tissues were not affected by TTM treatment. Furthermore, TTM significantly attenuated atherosclerotic lesion development in whole aorta by 25% and descending aorta by 45% compared to non-TTM treated apoE−/− mice. This anti-atherogenic effect of TTM was accompanied by several anti-inflammatory effects, i.e ., significantly decreased serum levels of soluble vascular cell and intercellular adhesion molecules (VCAM-1 and ICAM-1); reduced aortic gene expression of VCAM-1, ICAM-1, monocyte chemotactic protein-1, and pro-inflammatory cytokines; and significantly less aortic accumulation of M1 type macrophages. In contrast, serum levels of oxidized LDL were not reduced by TTM. These data indicate that TTM inhibits atherosclerosis in apoE−/− mice by reducing bioavailable copper and vascular inflammation, not by altering iron homeostasis or reducing oxidative stress.
ISSN:0021-9150
1879-1484
DOI:10.1016/j.atherosclerosis.2012.06.013