Use of Stable Isotopically Labeled Tracers to Measure Very Low Density Lipoprotein-triglyceride Turnover

Overview

Journal J Lipid Res

Publisher Elsevier

Specialty Biochemistry

Date 2002 Feb 28

PMID 11861664

Citations 50

Authors

Bruce W Patterson

Bettina Mittendorfer

Nizar Elias

Raj Satyanarayana

Samuel Klein

Affiliations

Soon will be listed here.

Abstract

Tracer methods for VLDL-TG kinetics vary in their ability to account for the effect of tracer recycling, which can influence the calculation of VLDL-TG fractional catabolic rates (FCRs). We evaluated a novel approach, involving stable isotopically labeled glycerol or palmitate tracers in conjunction with compartmental modeling, for measuring VLDL-TG kinetics in normolipidemic human subjects. When administered as a bolus simultaneously, both tracers provided identical VLDL-TG FCRs when the data were analyzed by a compartmental model that accounted for hepatic lipid tracer recycling, but not by non-compartmental analysis. The model-derived FCR was greater than that determined using a non-compartmental approach, and was 2- to 3-fold higher than that usually reported by using a bolus of radioactive [3H]glycerol. When palmitate tracer was given as a constant infusion, VLDL-TG turnover appeared 5-fold slower, because tracer recycling through hepatic lipid pools could not be resolved with the infusion protocol. We conclude that accounting for tracer recycling, particularly the contribution of hepatic glycerolipid pools, is essential to accurately measure VLDL-TG kinetics, and that bolus injection of stable isotopically labeled glycerol or palmitate tracers in conjunction with compartmental modeling analysis offers a reliable approach for measuring VLDL-TG kinetics.

Citing Articles

Very-low-density lipoprotein triglyceride and free fatty acid plasma kinetics in women with high or low brown adipose tissue volume and overweight/obesity.

Chondronikola M, Yoshino J, Ramaswamy R, Giardina J, Laforest R, Wahl R Cell Rep Med. 2024; 5(1):101370.

PMID: 38232692 PMC: 10829791. DOI: 10.1016/j.xcrm.2023.101370.

Measurement of lipid flux to advance translational research: evolution of classic methods to the future of precision health.

Salvador A, Shyu C, Parks E Exp Mol Med. 2022; 54(9):1348-1353.

PMID: 36075949 PMC: 9534914. DOI: 10.1038/s12276-022-00838-5.

Physiological interindividual variability in endogenous estradiol concentration does not influence adipose tissue and hepatic lipid kinetics in women.

Magkos F, Fabbrini E, Patterson B, Mittendorfer B, Klein S Eur J Endocrinol. 2022; 187(3):391-398.

PMID: 35895691 PMC: 9347062. DOI: 10.1530/EJE-22-0410.

Infusion of donor feces affects the gut-brain axis in humans with metabolic syndrome.

Hartstra A, Schuppel V, Imangaliyev S, Schrantee A, Prodan A, Collard D Mol Metab. 2020; 42:101076.

PMID: 32916306 PMC: 7536740. DOI: 10.1016/j.molmet.2020.101076.

Correlation of plasma metabolites with glucose and lipid fluxes in human insulin resistance.

Hartstra A, de Groot P, Bastos D, Levin E, Serlie M, Soeters M Obes Sci Pract. 2020; 6(3):340-349.

PMID: 32523723 PMC: 7278901. DOI: 10.1002/osp4.402.