High Basal Fractional Cholesterol Synthesis is Associated with Nonresponse of Plasma LDL Cholesterol to Plant Sterol Therapy

Overview

Journal Am J Clin Nutr

Publisher Elsevier

Specialty Nutritional Sciences

Date 2010 May 7

PMID 20444957

Citations 19

Authors

Todd C Rideout

Scott V Harding

Dylan Mackay

Suhad S AbuMweis

Peter Jh Jones

Affiliations

Soon will be listed here.

Abstract

Background: The cholesterol-lowering effectiveness of plant sterol (PS) therapy is hindered by wide-ranging variability in LDL-cholesterol responsiveness across individuals. To capitalize on the LDL-cholesterol-lowering potential of PS in the clinical setting, it is paramount to characterize the metabolic factors that underlie this heterogeneity of responsiveness.

Objective: The objective was to investigate the relation between cholesterol synthesis and plasma LDL-cholesterol reductions in response to PS consumption.

Design: We evaluated previously conducted clinical PS interventions incorporating stable-isotope measures of cholesterol synthesis and conducted feeding studies in animal models of response (Syrian Golden hamsters) and nonresponse (C57BL/6J mice) to PS consumption.

Results: From our clinical study population (n = 113), we identified 47 nonresponders (3.73 +/- 1.10% change in LDL cholesterol) and 66 responders (-15.16 +/- 1.04% change in LDL cholesterol) to PS therapy. The basal cholesterol fractional synthesis rate (FSR) as measured by direct deuterium incorporation was 23% higher (P = 0.003) in the nonresponder subgroup than in responders to PS therapy. The basal cholesterol FSR correlated (r = 0.22, P = 0.02) with the percentage change in LDL cholesterol after PS intervention. In support of our clinical observations, nonresponding mice showed a 77% higher (P = 0.001) basal cholesterol FSR than that of responding hamsters. Compared with control mice, PS-fed mice showed an increase in hepatic nuclear sterol regulatory element binding protein 2 abundance (1.3-fold of control, P = 0.04) and beta-hydroxy-beta-methylglutaryl coenzyme A reductase-mRNA expression (2.4-fold of control, P = 0.00).

Conclusion: The results suggest that subjects with high basal cholesterol synthesis are less responsive to PS treatment than are subjects with low basal cholesterol synthesis.

Citing Articles

Sterols in Inflammatory Diseases: Implications and Clinical Utility.

Yalcinkaya A, Oztas Y, Sabuncuoglu S Adv Exp Med Biol. 2023; 1440:261-275.

PMID: 38036884 DOI: 10.1007/978-3-031-43883-7_13.

Plasma lathosterol measures rates of cholesterol synthesis and efficiency of dietary phytosterols in reducing the plasma cholesterol concentration.

Nunes V, Ilha A, Ferreira G, Bombo R, Afonso M, Lavrador M Clinics (Sao Paulo). 2022; 77:100028.

PMID: 35397367 PMC: 8989763. DOI: 10.1016/j.clinsp.2022.100028.

The Bioavailability and Biological Activities of Phytosterols as Modulators of Cholesterol Metabolism.

Li X, Xin Y, Mo Y, Marozik P, He T, Guo H Molecules. 2022; 27(2).

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Phytosterols, Cholesterol Control, and Cardiovascular Disease.

Poli A, Marangoni F, Corsini A, Manzato E, Marrocco W, Martini D Nutrients. 2021; 13(8).

PMID: 34444970 PMC: 8399210. DOI: 10.3390/nu13082810.

Genetic basis for prediction of non-responders to dietary plant sterol intervention (GenePredict-PS): a study protocol for a double-blind, placebo-controlled, randomized two-period crossover study.

Shamloo M, Granger M, Trautwein E, House J, Mackay D Trials. 2020; 21(1):452.

PMID: 32487131 PMC: 7268371. DOI: 10.1186/s13063-020-04364-5.