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The TBK1/IKKε inhibitor amlexanox improves dyslipidemia and prevents atherosclerosis
Peng Zhao, Xiaoli Sun, Zhongji Liao, Hong Yu, Dan Li, Zeyang Shen, Christopher K. Glass, Joseph L. Witztum, Alan R. Saltiel
Peng Zhao, Xiaoli Sun, Zhongji Liao, Hong Yu, Dan Li, Zeyang Shen, Christopher K. Glass, Joseph L. Witztum, Alan R. Saltiel
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Research Article Metabolism

The TBK1/IKKε inhibitor amlexanox improves dyslipidemia and prevents atherosclerosis

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Abstract

Cardiovascular diseases, especially atherosclerosis and its complications, are a leading cause of death. Inhibition of the noncanonical IκB kinases TANK-binding kinase 1 and IKKε with amlexanox restores insulin sensitivity and glucose homeostasis in diabetic mice and human patients. Here we report that amlexanox improves diet-induced hypertriglyceridemia and hypercholesterolemia in Western diet–fed (WD-fed) Ldlr–/– mice and protects against atherogenesis. Amlexanox ameliorated dyslipidemia, inflammation, and vascular dysfunction through synergistic actions that involve upregulation of bile acid synthesis to increase cholesterol excretion. Transcriptomic profiling demonstrated an elevated expression of key bile acid synthesis genes. Furthermore, we found that amlexanox attenuated monocytosis, eosinophilia, and vascular dysfunction during WD-induced atherosclerosis. These findings demonstrate the potential of amlexanox as a therapy for hypercholesterolemia and atherosclerosis.

Authors

Peng Zhao, Xiaoli Sun, Zhongji Liao, Hong Yu, Dan Li, Zeyang Shen, Christopher K. Glass, Joseph L. Witztum, Alan R. Saltiel

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Figure 1

Amlexanox improves dyslipidemia and protects against atherosclerosis.

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Amlexanox improves dyslipidemia and protects against atherosclerosis.
Ld...
Ldlr–/– mice were fed WD for 3 weeks, then orally gavaged with vehicle or amlexanox (25 mg/kg BW) for 8 weeks with the continuation of WD feeding. (A) Schematic diagram of experimental design and mouse model. (B) En face staining of aorta. (C) Quantification of lesion areas in B. (D) Van Gieson elastic staining of aortic roots. Scale bar, 300 μm. (E) Quantification of aortic root staining in D. (F) Photo of serum from WD-fed Ldlr–/– mice treated with vehicle or amlexanox. (G) Fasting serum cholesterol level. (H) Fasting serum triglycerides level. (I and J) Distribution of plasma cholesterol (I) and triglycerides (J) by fast performance liquid chromatography (FPLC) in pools of equal aliquots of plasma from vehicle- or amlexanox-treated WD-fed Ldlr–/– mice (n = 5). (K) Hepatic cholesterol levels. (L) Hepatic triglyceride levels. Mean ± SEM. *, P < 0.05, Student’s unpaired t test.

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