Paradoxical Enhancement of Atherosclerosis by Probucol Treatment in Apolipoprotein Eðdeficient Mice

Paradoxical Enhancement of Atherosclerosis by Probucol Treatment in Apolipoprotein Eðdeficient Mice

Paradoxical Enhancement of Atherosclerosis by Probucol Treatment in Apolipoprotein E–deficient Mice Sunny H. Zhang,* Robert L. Reddick,* Elena Avdievich,* L. Kester Surles,* Robert G. Jones,* John B. Reynolds,* Steven H. Quarfordt,‡ and Nobuyo Maeda* *Department of Pathology, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599-7525; and ‡Department of Medicine, Durham VA Hospital and Duke University Medical Center, Durham, North Carolina 27705 Abstract and antioxidants is, therefore, a rational means of trying to prevent the development of atherosclerosis. Dietary administration of probucol (0.5%, wt/wt) efficiently Probucol is a drug that has both cholesterol-lowering and reduced total plasma cholesterol levels in apolipoprotein antioxidant effects. With a free radical–scavenging phenol E–deficient mice (apoE2/2) by 40%, with decreases in high structure and high lipid solubility, probucol is carried within li- density lipoprotein (HDL) and apoAI by 70 and 50%, re- poprotein particles, and essentially prevents the oxidation of spectively. Paradoxically, however, aortic atherosclerotic LDL (3). Probucol is able to reduce LDL levels via an LDL re- plaques in the probucol-treated apoE2/2 mice formed ceptor–independent pathway (4), since the drug can effectively more rapidly than in the untreated apoE2/2 mice, and the reduce cholesterol levels in homozygous LDL receptor–defi- lesions were two to four times larger and more mature re- cient patients. Probucol reduces HDL levels to an even greater gardless of sex, age, and genetic background (P , 1026). degree. In addition, probucol reduces the storage of lipid in Histologically, lesions in probucol-treated mice contained macrophages (5), and has been shown to reverse xanthomas in increased fibrous materials and cells other than foam cells, some severely hypercholesterolemic patients (5). and were commonly associated with focal inflammation In experimental animal models, probucol reduced lesion and aneurysmal dilatation. Probucol treatment also acceler- development when administered to Watanabe heritable hy- ated lesion development in apoE1/2 mice fed an athero- perlipidemic (WHHL)1 rabbits in some, but not all experi- genic diet, indicating that the adverse effect is not depen- ments (6–9). Probucol also inhibited atherosclerosis induced dent on the complete absence of apoE. Furthermore, mice by high-fat, high-cholesterol diet in the nonhuman primate lacking apoE and apoAI have plasma lipoprotein profiles (10), but not in cholesterol-fed rabbits (11). The effects of pro- very similar to the probucol-treated apoE2/2 mice, but do bucol on human patients are likewise not well established. For not have accelerated plaque development. Thus, the en- example, a recent human trial (Probucol Quantitative Regres- hanced atherosclerosis in the probucol-treated animals is sion Swedish Trial, PQRST) has shown the ineffectiveness of unlikely to be caused by the reduction of HDL and apoAI probucol in retarding femoral artery atherosclerosis, despite levels. Our data indicate that a reduction in plasma choles- the presence of a drug-induced reduction in cholesterol levels terol caused by probucol does not necessarily lead to an an- and antioxidant effects (12, 13). tiatherogenic effect. (J. Clin. Invest. 1997. 99:2858–2866.) In this study, we have tested the effects of probucol on mice Key words: hypercholesterolemia • disease models • hypo- genetically lacking apolipoprotein E (apoE). These apoE2/2 cholesterolemic agent • apolipoprotein AI • inflammation mice have spontaneously elevated plasma cholesterol levels, and develop atherosclerosis even on a regular low-fat/low-cho- Introduction lesterol diet (14, 15). The time-dependent progression of ath- erosclerotic lesions in the apoE2/2 mice leads to lesions simi- Atherosclerosis results from multiple complex interactions be- lar in histopathology to those observed in humans and other tween injurious stimuli and the responses of the arterial wall species (16, 17). Our results show that probucol effectively that occur in a hyperlipidemic environment. The cytotoxic ac- lowers the total plasma cholesterol levels in the apoE2/2 tivity of oxidized low density lipoproteins (LDL) and peroxi- mice, but unexpectedly accelerates the development of their dized lipids may damage the endothelium and contribute to aortic atherosclerotic plaques. the initiation of atherogenesis as a result of free radical chain reactions (1, 2). The administration of hypolipidemic drugs Methods Animals and experimental design. Mice were bred in-house and main- tained on regular chow. Four sets of dietary probucol treatments (0.5/ Address correspondence to Dr. Nobuyo Maeda, Department of Pa- 100 g chow) were conducted using age-matched (within 10 d of birth) thology and Laboratory Medicine, The University of North Carolina and sex-matched mice. Body weight and plasma lipid levels were at Chapel Hill, Chapel Hill, NC 27599-7525. Phone: 919-966-6914; monitored before the treatment, and then at every 4 wk. 2 2 FAX: 919-966-8800. Sunny H. Zhang’s current address is Department Three experiments (1a through 1c) were performed with apoE / of Obstetrics and Gynecology, University of Iowa Hospital and Clin- homozygotes with regular chow. In experiments 1a and 1b, we used 2 2 . ics, Iowa City, IA 52242. Robert L. Reddick’s current address is De- apoE / mice with 99% C57BL/6J (B6) genetic background as a partment of Pathology, University of Texas Health Science Center, result of backcrossing B6:129 F1 heterozygotes (18) to B6 for six gen- 2 2 San Antonio, TX 78284-7750. erations before intercrossing to obtain the apoE / homozygotes. In Received for publication 24 January 1997 and accepted in revised form 19 March 1997. 1. Abbreviations used in this paper: FPLC, fast protein liquid chroma- The Journal of Clinical Investigation tography; IDL, intermediate density lipoprotein; WHHL, Watanabe Volume 99, Number 12, June 1997, 2858–2866 heritable hyperlipidemic. 2858 Zhang et al. experiment 1a, nine 2-mo-old female mice were fed chow with probu- procedure. All the measurements were done in duplicates. The col for 3 mo, and nine were fed regular chow. In experiment 1b, six apoAI amounts in plasma samples were compared by densitometric 3-mo-old female and four 4-mo-old male apoE2/2 mice were on the analysis of Coomassie blue–stained or silver-stained bands after non- probucol diet for 3 mo, and five 3-mo-old female and three 4-mo-old reducing SDS-polyacrylamide gel electrophoresis (21). Relative lev- male apoE2/2 mice were on the probucol-free diet for 3 mo before els of plasma apoAI, apoAIV, and apoE were also measured densito- death. metrically using a chemiluminescent procedure (ECL kit; Amersham In experiment 1c, 2-mo-old mice with mixed 129 and C57BL/6J Corp., Arlington Heights, IL) on Western blots using rabbit antisera (B6) genetic backgrounds were used. 13 apoE2/2 mice (five male, against mouse apoAI or apoAIV (gifts from Dr. H. DeSilva, Univer- eight female) were fed the probucol-containing chow (see below), sity of North Carolina, Charlotte), and goat anti–human apoE antise- and 14 apoE2/2 mice (six male, eight female) received regular chow rum (Calbiochem Corp., San Diego, CA). Total lipoproteins from for 2 mo. All males and five females were killed after 2 mo of treat- pooled plasma were isolated by ultracentrifugation with density ad- ment. Two female mice were fed the probucol diet for an additional justed to 1.21 g/ml using KBr (14). Lipoprotein fractions, equivalent 2 mo before being killed. Control animals included both wild-type to 100 ml plasma in control mice and 30 ml plasma in apoE2/2 mice, (apoE1/1) and heterozygous (apoE1/2) littermates of the apoE2/2 were loaded in each lane and subjected to SDS-PAGE using a 4–20% mice. Six female and six male controls were fed regular chow, and gradient gel; staining was with Coomassie blue. The size distributions four female and six male controls were fed probucol-containing diet of plasma lipoproteins were analyzed by fast protein liquid chroma- for 2 mo. tography (FPLC) using a Superose 6 HR10/30 column (Pharmacia In experiment 2, apoE1/2 heterozygotes were generated by LKB Biotechnology Inc., Piscataway, NJ) with pooled plasma (50 or crossing the B6-backcrossed apoE2/2 mice with wild-type B6 ani- 100 ml). 0.5-ml fractions were collected at a flow rate of 0.4 ml/min. mals. Six 3-mo-old apoE1/2 females were fed an atherogenic diet Evaluation of atherosclerotic lesions. Mice were killed with an (see below) with probucol for 3 mo, and six were fed the atherogenic overdose of Avertin (Aldrich Chemical Co., Milwaukee, WI). The heart diet without probucol. and the arterial tree were perfused with phosphate-buffered paraform- Mice deficient for apolipoprotein AI (apoAI) were also in B6 ge- aldehyde (4%, pH 7.4) under physiological pressure. Serial cryosec- netic background generated by backcrossing 129/B6 F1 heterozygotes tions of the proximal aorta and the aortic sinus were made and stained (19) to B6 for seven generations before intercrossing to obtain ho- with Sudan IVB (Fisher Scientific Co., Pittsburgh, PA), and counter- mozygotes. ApoAI2/2 mice were crossed with backcrossed apoE2/2 stained with hematoxylin. Hematoxylin and eosin–stained sections mice to generate mice doubly deficient for apoE and apoAI. were used for histological evaluations. Average lesion sizes of four sec- The animal protocols used in this study have been approved by tions, spanning the region from the very proximal aorta to the point in institutional review panels. the aortic sinus that contains three complete valve leaflets, were used Diets. All of the regular mouse chow used in experiment 1 had for the morphometric evaluations based on the methods by Paigen et 4.5% fat (wt/wt) and 0.022% cholesterol, although the supplier var- al. (22). Whole aortas, from the descending aorta to the iliac bifurca- ied. All mice were fed relevant control diet without probucol for 2 wk tion, were isolated from each mouse, and all the fatty tissue in the ad- before commencement of the experiment.

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