Abstract
BackgroundThe naturally occurring α-tocopherol (α-T) stereoisomer, RRR-α-tocopherol (RRR-α-T), is known to be more bioactive than all-rac-α-tocopherol (all-rac-α-T), a synthetic racemic mixture of 8 stereoisomers. There is widespread use of all-rac-α-T in maternal supplements. ObjectiveThe aim of the study was to thoroughly describe the α-T stereoisomer profile of human milk. MethodsWe measured the α-T stereoisomer profile in milk from 2 cohorts of women: a cohort of 121 women who provided milk on days 30 and 60 of lactation (study 1) and a separate cohort of 51 women who provided milk on days 10, 21, 71, and 120 of lactation (study 2). ResultsRRR-α-T was the predominant stereoisomer (P < 0.0001) in all samples in both studies despite a large intrasubject range in total α-T (0.7–22 μg/mL). On average, RRR-α-T comprised 73–76% of total α-T, but average values for the synthetic stereoisomers were RRS, 8–14%; RSR, 6–8%; RSS, 5–6%; and the sum of 2S stereoisomers (Σ2S), 3–5%. Despite the predominance of RRR-α-T, the sum of the synthetic stereoisomers comprised as much as 48% of total α-T. We calculated the ratio of RRR to the sum of the synthetic 2R (RRS + RSR + RSS) stereoisomers (s2R) to assess the degree to which RRR is favored in milk. Consistent with discrimination among 2R stereoisomers in mammary tissue, RRR/s2R values ranged from 2.8 to 3.6, as opposed to the expected ratio of 0.33 if there was no discrimination. However, the RRR to s2R ratio did not correlate with milk α-T concentration, but both components of the ratio did. ConclusionsRRR-α-T is the predominant stereoisomer in human milk, concentrations of synthetic 2R stereoisomers were notable, and the relation between milk total α-T and stereoisomer profile is complex. Due to the wide range found in milk α-T stereoisomer profile, investigation into its impact on α-T status and functional outcomes in breastfed infants is warranted.
Highlights
RRR-α-T is the predominant stereoisomer in human milk, concentrations of synthetic 2R stereoisomers were notable, and the relation between milk total α-T and stereoisomer profile is complex
Due to the wide range found in milk α-T stereoisomer profile, investigation into its impact on α-T status and functional outcomes in breastfed infants is warranted
Vitamin E is an essential nutrient known to be important in the nervous system, because deficiency in humans leads to ataxia and myopathy [1,2,3]
Summary
Vitamin E is an essential nutrient known to be important in the nervous system, because deficiency in humans leads to ataxia and myopathy [1,2,3]. Infants acquire vitamin E from human milk derived via the maternal diet, or from infant formulas that are required to be supplemented with levels of vitamin E that meet infant requirements. Vitamin E activity can be derived from 4 tocopherol structural isomers (α-, β-, γ -, and δ-) and the corresponding 4 tocotrienols (α-, β-, γ -, and δ-). Of the structural isomers, only α-tocopherol (α-T) can fulfill human vitamin E requirements [4]. Α-T is widely accepted to play an important role in protecting membrane-bound unsaturated FAs from oxidation through its potent lipid-soluble, chain-breaking antioxidant activity [5]. There is widespread use of all-rac-α-T in maternal supplements
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