Reduction of Atherosclerosis by the Peroxisome Proliferator-activated Receptor α Agonist Fenofibrate in Mice

Hélène Duez,Yu-Sheng Chao,Melba Hernandez,Gérard Torpier,Philippe Poulain,Steven Mundt,Ziad Mallat,Elisabeth Teissier,Charlotte A Burton,Alain Tedgui,Jean-Charles Fruchart,Catherine Fiévet,Sam D Wright,Bart Staels

doi:10.1074/jbc.m206966200

Abstract

Several clinical and angiographic intervention trials have shown that fibrate treatment leads to a reduction of the coronary events associated to atherosclerosis. Fibrates are ligands for peroxisome proliferator-activated receptor alpha (PPARalpha) that modulate risk factors related to atherosclerosis by acting at both systemic and vascular levels. Here, we investigated the effect of treatment with the PPARalpha agonist fenofibrate (FF) on the development of atherosclerotic lesions in apolipoprotein (apo) E-deficient mice and human apoA-I transgenic apoE-deficient (hapoA-I Tg x apoE-deficient) mice fed a Western diet. In apoE-deficient mice, plasma lipid levels were increased by FF treatment with no alteration in the cholesterol distribution profile. FF treatment did not reduce atherosclerotic lesion surface area in the aortic sinus of 5-month-old apoE-deficient mice. By contrast, FF treatment decreased total cholesterol and esterified cholesterol contents in descending aortas of these mice, an effect that was more pronounced in older mice exhibiting more advanced lesions. Furthermore, FF treatment reduced MCP-1 mRNA levels in the descending aortas of apoE-deficient mice, whereas ABCA-1 expression levels were maintained despite a significant reduction of aortic cholesterol content. In apoE-deficient mice expressing a human apoA-I transgene, FF increased human apoA-I plasma and hepatic mRNA levels without affecting plasma lipid levels. This increase in human apoA-I expression was accompanied by a significant reduction in the lesion surface area in the aortic sinus. These data indicate that the PPARalpha agonist fenofibrate reduces atherosclerosis in these animal models of atherosclerosis.

Highlights

Several clinical and angiographic intervention trials have shown that fibrate treatment leads to a reduction of the coronary events associated to atherosclerosis
Human apoA-I transgenic mice were crossed with apoE-deficient mice and subsequently fed a control or FF (0.05% w/w corresponding to 100 mg/kg/day) supplemented Western diet for 8 weeks and atherosclerotic lesion surface areas in the aortic sinus were determined. human apoA-I (hapoA-I) Tg ϫ apoE-deficient FF-treated mice showed significantly decreased atherosclerotic lesion surface areas (Ϫ31%) when compared with control mice (160,802 Ϯ 19,259 versus 110,236 Ϯ 12,856 ␮m2, p Ͻ 0.05) (Fig. 4)
PPAR␣ is an important regulator of lipid and lipoprotein metabolism, thereby positively affecting plasma lipid risk factors related to atherosclerosis [28]

Summary

Introduction

Several clinical and angiographic intervention trials have shown that fibrate treatment leads to a reduction of the coronary events associated to atherosclerosis. PPAR␣ is expressed in the major cell types found in the atherosclerotic lesion (macrophages, endothelial, and smooth muscle cells) [15,16,17], and increasing evidence indicates that PPAR␣ agonists exert a potent anti-inflammatory action directly at the level of the vascular wall [18, 19]. Both lipid-related and direct vascular activities may account for the overall beneficial action of fibrates on atherosclerosis. To assess the influence of hapoA-I induction by FF on atherosclerosis, human apoA-I transgenic apoE-deficient

Objectives

Results

Conclusion