© 1998 American Heart Association, Inc.
Original Contributions |
Vitamin E Combined With Selenium Inhibits Atherosclerosis in Hypercholesterolemic Rabbits Independently of Effects on Plasma Cholesterol Concentrations
From the Department of Pathology (D.C.S.), Wake Forest University School of Medicine, Winston-Salem, NC, and Ross Products Division of Abbott Laboratories (S.R.B.), Columbus, Ohio.
Abstract—Several antioxidants
inhibit atherosclerosis. This study investigated the
hypothesis that combining vitamin E, a lipophilic antioxidant, with
vitamin C, a hydrophilic antioxidant, and/or selenium, a cofactor of
peroxidases that detoxify lipid peroxides, would inhibit
atherosclerosis more effectively than vitamin E alone.
We also considered whether regional variation in inhibition of
atherosclerosis by antioxidants would be associated
with regional variation in aortic lipophilic antioxidants. Rabbits were
fed an atherogenic diet (control) or an atherogenic diet supplemented
with vitamin E, vitamins E and C, vitamin E+selenium, vitamins E and
C+selenium, or probucol (positive control). Supplements were as
follows: vitamin E, 146 IU/d; vitamin C, 791 mg/d; selenium, 22 µg/d;
or probucol, 406 mg/d. Vitamin C did not influence
atherosclerosis. After 22 weeks of treatment, rank
order of aortic atherosclerosis was control>vitamin E
(with or without vitamin C)>vitamin E+selenium (with or without
vitamin C)>probucol. Antioxidant treatment reduced aortic
cholesterol concentrations 21% to 56%, 29% to 86%, and
19% to 75% for the aortic arch, descending thoracic aorta, and
abdominal aorta, respectively (P<0.025 to
P<0.0003 by ANOVA), with slightly greatly reductions
for areas of atherosclerotic lesions. Some treatments reduced plasma
cholesterol concentrations, but none altered the
distribution of cholesterol among lipoproteins. Corrected
for differences in plasma cholesterol concentrations,
aortic cholesterol concentrations were reduced up to 72%
(P<0.02) by the antioxidant treatments, with equal
reductions by vitamin E+selenium and by probucol. Aortic
-tocopherol standardized by aortic
cholesterol as a measure of aortic lipids was lower in the
abdominal aorta than in the aortic arch of rabbits not given
-tocopherol and increased relatively more in the
abdominal aorta than in the aortic arch with -tocopherol
supplementation. The results of this study suggest that vitamin
E+selenium inhibited atherosclerosis as effectively as
an equally hypocholesterolemic dose of probucol by a
mechanism(s) that is in part independent of effects on plasma and
lipoprotein cholesterol concentrations. The tendency for
greater efficacy of antioxidant treatments in the abdominal aorta than
aortic arch may relate to the lower concentrations of
-tocopherol in the abdominal aorta of
unsupplemented rabbits.
Key Words: vitamin E • selenium • atherosclerosis • antioxidant • aorta
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