Metabolomic analysis of serum alpha-tocopherol among men in the Alpha-Tocopherol, Beta-Carotene Cancer Prevention (ATBC) Study

• Published in: European journal of clinical nutrition Vol. 76; no. 9; pp. 1254 - 1265
• Main Authors: Lawrence, Wayne R., Lim, Jung-Eun, Huang, Jiaqi, Sampson, Joshua N., Weinstein, Stephanie J., Albanes, Demetrius
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 01.09.2022; Nature Publishing Group
• Subjects: 692/308/174; 692/53; alpha-Tocopherol; Amino Acids; beta Carotene; Cancer; Cardiovascular diseases; Carotene; Clinical Nutrition; Disease prevention; Epidemiology; Etiology; Fatty acids; Glycerol; Health risks; High-performance liquid chromatography; Humans; Internal Medicine; Isoleucine; Leucine; Lipid metabolism; Lipids; Liquid chromatography; Male; Medicine; Medicine & Public Health; Metabolic Diseases; Metabolites; Metabolomics; Neoplasms - prevention & control; Public Health; Sphingomyelin; Supplements; Tocopherol; Valine; Vitamin E; β-Carotene
• ISSN: 0954-3007; 1476-5640; 1476-5640
• DOI: 10.1038/s41430-022-01112-7

Background/Objectives The role of vitamin E in chronic disease risk remains incompletely understood, particularly in an un-supplemented state, and evidence is sparse regarding the biological actions and pathways involved in its influence on health outcomes. Identifying vitamin-E-associated metabolites through agnostic metabolomics analyses can contribute to elucidating the specific associations and disease etiology. This study aims to investigate the association between circulating metabolites and serum α-tocopherol concentration in an un-supplemented state. Subjects/Methods Metabolomic analysis of 4,294 male participants was conducted based on pre-supplementation fasting serum in the Alpha-Tocopherol, Beta-Carotene Cancer Prevention Study. The associations between 1,791 known metabolites measured by ultra-high-performance LC–MS/GC–MS and HPLC-determined α-tocopherol concentration were estimated using multivariable linear regression. Differences in metabolite levels per unit difference in α-tocopherol concentration were calculated as standardized β-coefficients and standard errors. Results A total of 252 metabolites were associated with serum α-tocopherol at the Bonferroni-corrected p value ( p  < 2.79 × 10 −5 ). Most of these metabolites were of lipid and amino acid origin, with the respective subclasses of dicarboxylic fatty acids, and valine, leucine, and isoleucine metabolism, being highly represented. Among lipids, the strongest signals were observed for linoleoyl-arachidonoyl-glycerol (18:2/20:4)[2]( β  = 0.149; p  = 8.65 × 10 −146 ) and sphingomyelin (D18:2/18:1) ( β  = 0.035; p  = 1.36 × 10 −30 ). For amino acids, the strongest signals were aminoadipic acid ( β  = 0.021; p  = 5.01 × 10 −13 ) and l -leucine ( β  = 0.007; p  = 1.05 × 10 −12 ). Conclusions The large number of metabolites, particularly lipid and amino acid compounds associated with serum α-tocopherol provide leads regarding potential mechanisms through which vitamin E influences human health, including its role in cardiovascular disease and cancer.