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Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity

Laurentya Olga, Janna A. van Diepen, Ivana Bobeldijk‐Pastorova, Gabriele Gross, Philippa Prentice, Stuart G. Snowden, Samuel Furse, T. Kooistra, Ieuan A. Hughes, Marieke H. Schoemaker, Eric A.F. van Tol, Wim van Duyvenvoorde, Peter Y. Wielinga, Ken K. Ong, David B. Dunger, Robert Kleemann, Albert Koulman

2021EBioMedicine23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Altered lipid metabolism in early life has been associated with subsequent weight gain and predicting this could aid in obesity prevention and risk management. Here, a lipidomic approach was used to identify circulating markers for future obesity risk in translational murine models and validate in a human infant cohort. METHODS: Lipidomics was performed on the plasma of APOE*3 Leiden, Ldlr-/-.Leiden, and the wild-type C57BL/6J mice to capture candidate biomarkers predicting subsequent obesity parameters after exposure to high-fat diet. The identified candidate biomarkers were mapped onto corresponding lipid metabolism pathways and were investigated in the Cambridge Baby Growth Study. Infants' growth and adiposity were measured at 0-24 months. Capillary dried blood spots were sampled at 3 months for lipid profiling analysis. FINDINGS: From the mouse models, cholesteryl esters were correlated with subsequent weight gain and other obesity parameters after HFD period (Spearman's r≥0.5, FDR p values <0.05) among APOE*3 Leiden and Ldlr-/-.Leiden mice, but not among the wild-type C57BL/6J. Pathway analysis showed that those identified cholesteryl esters were educts or products of desaturases activities: stearoyl-CoA desaturase-1 (SCD1) and fatty acid desaturase (FADS) 1 and 2. In the human cohort, lipid ratios affected by SCD1 at 3 months was inversely associated with 3-12 months weight gain (B±SE=-0.31±0.14, p=0.027), but positively with 12-24 months weight and adiposity gains (0.17±0.07, p=0.02 and 0.17±0.07, 0.53±0.26, p=0.04, respectively). Lipid ratios affected by SCD1 and FADS2 were inversely associated with adiposity gain but positively with height gain between 3-12 months. INTERPRETATION: From murine models to human setting, the ratios of circulating lipid species indicating key desaturase activities in lipid metabolism were associated with subsequent body size increase, providing a potential tool to predict early life weight gain.

Topics & Concepts

Lipid metabolismLipidomicsEndocrinologyInternal medicineWeight gainObesityFADS2MedicineLDL receptorBiologyChemistryLipoproteinFatty acidCholesterolBiochemistryBody weightDocosahexaenoic acidPolyunsaturated fatty acidFatty Acid Research and HealthBirth, Development, and HealthMetabolomics and Mass Spectrometry Studies
Lipid ratios representing SCD1, FADS1, and FADS2 activities as candidate biomarkers of early growth and adiposity | Litcius