Abstract
Atherosclerosis is a progressive disease leading to loss of vascular homeostasis and entails fibrosis, macrophage foam cell formation, and smooth muscle cell proliferation. Recent studies have reported that epidermal growth factor receptor (EGFR) is involved vascular pathophysiology and in the regulation of oxidative stress in macrophages. Although, oxidative stress and inflammation play a critical role in the development of atherosclerosis, the underlying mechanisms are complex and not completely understood. In the present study, we have elucidated the role of EGFR in high-fat diet-induced atherosclerosis in apolipoprotein E null mice. We show increased EGFR phosphorylation and activity in atherosclerotic lesion development. EGFR inhibition prevented oxidative stress, macrophage infiltration, induction of pro-inflammatory cytokines, and SMC proliferation within the lesions. We further show that EGFR is activated through toll-like receptor 4. Disruption of toll-like receptor 4 or the EGFR pathway led to reduced inflammatory activity and foam cell formation. These studies provide evidence that EGFR plays a key role on the pathogenesis of atherosclerosis, and suggests that EGFR may be a potential therapeutic target in the prevention of atherosclerosis development.
Highlights
IntroductionWe have recently shown that inhibition of EGFR effectively protects cardiac damage and remodeling by attenuating oxidative stress in a type 1 diabetic mice model[20]
Inflammatory atherosclerosis in a primate model of atherosclerosis[19]
We evaluated whether EGFR-dependent pathways play a role in the development of atherosclerosis in apolipoprotein E (ApoE)−/− mice
Summary
We have recently shown that inhibition of EGFR effectively protects cardiac damage and remodeling by attenuating oxidative stress in a type 1 diabetic mice model[20]. Taken together, these findings suggest an important role of EGFR in atherosclerosis. We have deciphered the role of EGFR in atherosclerotic lesion formation by utilizing the apolipoprotein E (ApoE) null mice. We have recently shown that these inhibitors effectively block EGFR activation and attenuate angiotensin II-induced cardiac hypertrophy and dysfunction[21]. Inhibition of EGFR prevents oxidative stress, induction of inflammatory cytokines, and foam cell formation. We further show that EGFR activation in macrophages involves toll-like receptor 4
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