CORRESPONDENCE: LETTER TO THE EDITOR
Serum Plant Sterols and Atherosclerosis: Is There a Place for Statin-Ezetimibe Combination?
Régis P. Radermecker, MD* and
André J. Scheen, MD, PhD
* Division of Diabetes, Nutrition, and Metabolic Disorders, Department of Medicine, CHU Liège, University of Liège, B-4000 Liège, Belgium (Email: regis.radermecker{at}ulg.ac.be).
We read with interest the paper by Miettinen et al. (1) demonstrating that the higher the absorption of cholesterol, the higher the plant sterol contents are in serum resulting in their higher contents in atherosclerotic plaque. The prospective Cardiovascular Münster (PROCAM) study found that people in the upper quartile of sitosterol levels had a 1.8-fold increased risk of major coronary events compared with those in the lower three quartiles (2). Statin treatment decreases cholesterol synthesis but increases absorption of plant sterols (3). In the Scandinavian Simvastatin Survival Study (4S), no reduction was observed in recurrence of coronary heart disease with the use of simvastatin in patients with high baseline plant sterol contents and with marked increase of serum plant sterols during the five-year treatment period (4). Additional treatment with inhibition of sterol absorption (e.g., with plant stanol esters) was suggested for this particular group of patients (3,4). To this respect, we were surprised that Miettinen et al. (1) did not consider the potential of combining ezetimibe with statin. Indeed, in addition to inhibiting intestinal cholesterol absorption, a well-known effect, ezetimibe also reduces plasma concentrations of the non-cholesterol sterols sitosterol and campesterol, suggesting an effect on the absorption of these compounds as well (5). It has been demonstrated recently that the Niemann-Pick C1-like 1 (NPC1L1) transporter is most likely responsible for the transport of cholesterol and plant sterols from the brush border membrane into the intestinal mucosa (6). The intestinal absorption of plant sterols differs markedly from that of cholesterol and their biliary excretion as well. The presence of two specific ABCG5/ABCG8 transporters in the intestinal wall is responsible for rapid resecretion of plant sterols into the intestine lumen and thus rather low intestinal absorption of campesterol and sitosterol, and their presence in the liver explains why plant sterols are excreted much faster in the bile than cholesterol (7,8). Ezetimibe interferes with NPC1L1, reducing the intestinal uptake of cholesterol and plant sterols (6–8). Interestingly, the reduction of plant sterol serum levels with ezetimibe was significantly more pronounced than the reduction of serum cholesterol (7,8). Clinical data on ezetimibe could demonstrate that the concept of inhibiting intestinal absorption of neutral sterols is beneficial in both patients with hypercholesterolemia as well in patients with hypersitosterolemia, an inherited disease with identified mutations in ABCG5/ABCG8 transporters that leads to a high prevalence of cardiovascular disease (9). Recent observations, such as those by Miettinen et al. (1), that elevated serum plant sterols pose an increased cardiovascular risk suggest that increases of serum plant sterol levels should be avoided, especially in atherosclerosis-prone individuals (1). Therefore, subjects with high cholesterol absorption and low synthesis may need a therapy combining statin and ezetimibe to lower more effectively their serum cholesterol levels and prevent an increase in the levels of plant sterols (3). The question remains, however, as to whether lowering serum levels of plant sterols (especially in high-absorber patients on statin therapy) with a drug such as ezetimibe will decrease the incidence of coronary artery disease.
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1. Miettinen TA, Railo M, Lepäntalo M, Gylling H. Plant sterols in serum and in atherosclerotic plaques of patients undergoing carotid endarterectomy J Am Coll Cardiol 2005;45:1794-1801.[Abstract/Free Full Text]2. Assmann G, Cullen P, Erbey JR, et al. Elevation in plasma sitosterol concentration is associated with an increased risk for coronary events in the PROCAM study(abstr) Circulation 2003;108:IV730. 3. Miettinen TA, Strandberg TE, Gylling H, for the Finnish Investigators of the Scandinavian Simvastatin Survival Study Group Noncholesterol sterols and cholesterol lowering by long-term simvastatin treatment in coronary patients. Relation to basal serum cholesterol Arterioscler Thromb Vasc Biol 2000;20:1340-1346.[Abstract/Free Full Text] 4. Miettinen TA, Gylling H, Strandberg T, Sarna S, for the Finnish 4S Investigators Baseline serum cholestanol as predictor of recurrent coronary events in subgroup of Scandinavian simvastatin survival study BMJ 1998;316:1127-1130.[Abstract/Free Full Text] 5. Sudhop T, Lütjohann D, Kodal A, et al. Inhibition of intestinal cholesterol absorption by ezetimibe in humans Circulation 2002;106:1943-1948.[Abstract/Free Full Text] 6. Davis HR, Zhu LJ, Hoos LM, et al. Niemann-Pick C1 Like 1 (NPC1L1) is the intestinal phytosterol and cholesterol transporter and a key modulator of whole body cholesterol homeostasis J Biol Chem 2004;279:33586-33592.[Abstract/Free Full Text] 7. von Bergmann K, Sudhop T, Lütjohann D. Cholesterol and plant sterol absorptionrecent insights. Am J Cardiol 2005;96(Suppl):10D-14D.[Web of Science][Medline] 8. Sudhop T, Lütjohann D, von Bergmann K. Sterol transporterstargets of natural sterols and new lipid lowering drugs. Pharmacol Ther 2005;105:333-341.[CrossRef][Medline] 9. Salen G, von Bergmann K, Lütjohann D, et al. Ezetimibe effectively reduces plasma plant sterols in patients with sitosterolemia Circulation 2004;109:966-971.[Abstract/Free Full Text]
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