A Plasma α-Tocopherome Can Be Identified from Proteins Associated with Vitamin E Status in School-Aged Children of Nepal

Overview

Journal J Nutr

Publisher Elsevier

Specialty Nutritional Sciences

Date 2015 Oct 9

PMID 26446483

Citations 9

Authors

Keith P West Jr

Robert N Cole

Sudeep Shrestha

Kerry J Schulze

Sun Eun Lee

Joshua Betz

Bareng As Nonyane

Lee S-F Wu

James D Yager

John D Groopman

Parul Christian

Affiliations

Soon will be listed here.

Abstract

Background: The term vitamin E describes a family of 8 vitamers, 1 of which is α-tocopherol, that is essential for human health. Vitamin E status remains largely unknown in low-income countries because of the complexity and cost of measurement. Quantitative proteomics may offer an approach for identifying plasma proteins for assessing vitamin E status in these populations.

Objective: To improve options for vitamin E status assessment, we sought to detect and quantify a set of plasma proteins associated with α- and γ-tocopherol concentrations in a cohort of 500 rural Nepalese children aged 6-8 y and, based on nutrient-protein associations, to predict the prevalence of vitamin E deficiency (α-tocopherol <12 μmol/L).

Methods: Study children were born to mothers enrolled in an earlier antenatal micronutrient trial in Sarlahi District, Nepal. Plasma α- and γ-tocopherol concentrations were measured by high-performance liquid chromatography. Plasma aliquots were depleted of 6 high-abundance proteins, digested with trypsin, labeled with isobaric mass tags, and assessed for relative protein abundance by tandem mass spectrometry. Linear mixed-effects models were used to evaluate the association between α-tocopherol status and relative protein abundance and to predict deficiency.

Results: We quantified 982 plasma proteins in >10% of all child samples, of which 119 correlated with α-tocopherol (false discovery rate, q < 0.10). Proteins were primarily involved in lipid transport, coagulation, repair, innate host defenses, neural function, and homeostasis. Six proteins [apolipoprotein (apo)C-III; apoB; pyruvate kinase, muscle; forkhead box 04; unc5 homolog C; and regulator of G-protein signaling 8] explained 71% of the variability in plasma α-tocopherol, predicting an in-sample population prevalence of vitamin E deficiency of 51.4% (95% CI: 46.4%, 56.3%) compared with a measured prevalence of 54.8%. Plasma γ-tocopherol was associated with 12 proteins (q < 0.10), 2 of which (apoC-III and Misato 1) explained 20% of its variability.

Conclusions: In this undernourished population of children in South Asia, quantitative proteomics identified a large plasma α-tocopherome from which 6 proteins predicted the prevalence of vitamin E deficiency. The findings illustrate that protein biomarkers, once absolutely quantified, can potentially predict micronutrient deficiencies in populations. The maternal micronutrient supplementation trial from which data were derived as a follow-up activity was registered with clinicaltrials.gov as NCT00115271.

Citing Articles

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PMID: 36974735 PMC: 10122905. DOI: 10.1161/JAHA.122.028821.

Systemic vitamin intake impacting tissue proteomes.

Jeong H, Vacanti N Nutr Metab (Lond). 2020; 17:73.

PMID: 32863845 PMC: 7449053. DOI: 10.1186/s12986-020-00491-7.

Vitamin E Metabolic Effects and Genetic Variants: A Challenge for Precision Nutrition in Obesity and Associated Disturbances.

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Plasma proteome correlates of lipid and lipoprotein: biomarkers of metabolic diversity and inflammation in children of rural Nepal.

Lee S, Schulze K, Stewart C, Cole R, Wu L, Eroglu A J Lipid Res. 2018; 60(1):149-160.

PMID: 30473544 PMC: 6314253. DOI: 10.1194/jlr.P088542.

Novel Plasma Proteins in Nepalese School-aged Children are Associated with a Small Head Size at Birth.

Lee S, West Jr K, Cole R, Schulze K, Wu L, Yager J Sci Rep. 2018; 8(1):6390.

PMID: 29686285 PMC: 5913316. DOI: 10.1038/s41598-018-24640-4.

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