Department of Physiology, Faculty of Biology, Campus Mare Nostrum (CMN), University of Murcia, Biomedical Research Institute of Murcia (IMIB), Murcia, Spain.
Department of Plant Biology (Plant Physiology), University of Murcia, Murcia, Spain.
Ann Nutr Metab. 2023;79(2):228-237. doi: 10.1159/000529375. Epub 2023 Jan 26.
Low dietary intake of vitamin E is a global public health issue. RRR-α-tocopherol (RRR-αT) is the only naturally occurring vitamin E stereoisomer, but the equimolecular mixture of all eight stereoisomers, synthetic vitamin E (S-αT), is commonly consumed. The objective of this study was to evaluate bioavailability and antioxidant activity of RRR-αT versus S-αT, in both mother and fetus, after maternal supplementation during pregnancy.
Female rats (7 weeks of age) received a modified AIN-93G diet supplemented with 75 IU/kg of RRR-αT (NVE, n = 20) or S-αT (SVE, n = 17). At delivery, the levels of αT, stereoisomer distribution, and antioxidant capacity were analyzed in maternal and fetal plasma.
NVE administration significantly increased the proportion of RRR-αT stereoisomer in maternal and fetal plasma. The percentage of RRR-αT increased from 32.76% to 88.33% in maternal plasma, and 35.25% to 97.94% in fetal plasma, in the NVE group compared to SVE. Fetal plasma from the NVE group was found to have higher total antioxidant capacity compared to SVE. Lastly, fetal plasma RRR-αT stereoisomer percentage was positively associated with expression levels of scavenger receptor class B type 1 (SR-B1) in the placenta.
Both natural and synthetic sources of vitamin E showed similar bioavailability. Still, NVE supplementation increased the proportion of RRR-αT and promoted higher antioxidant activity in fetal plasma at birth. Placental SR-B1 might be involved in the stereoselective transfer of RRR-αT stereoisomer across the placenta and may improve αT bioactivity in the fetus.
维生素 E 摄入量低是一个全球性的公共健康问题。RRR-α-生育酚(RRR-αT)是唯一天然存在的维生素 E 立体异构体,但通常消费的是所有八种立体异构体的等分子混合物,即合成维生素 E(S-αT)。本研究旨在评估母体在妊娠期间补充后,RRR-αT 与 S-αT 在母体和胎儿中的生物利用度和抗氧化活性。
雌性大鼠(7 周龄)接受改良的 AIN-93G 饮食补充 75IU/kg 的 RRR-αT(NVE,n=20)或 S-αT(SVE,n=17)。分娩时,分析母鼠和胎鼠血浆中 αT、立体异构体分布和抗氧化能力。
NVE 给药显著增加了母体和胎儿血浆中 RRR-αT 立体异构体的比例。与 SVE 相比,NVE 组母体血浆中 RRR-αT 立体异构体的比例从 32.76%增加到 88.33%,胎儿血浆中从 35.25%增加到 97.94%。与 SVE 相比,NVE 组胎儿血浆具有更高的总抗氧化能力。最后,胎儿血浆中 RRR-αT 立体异构体的比例与胎盘上清道夫受体 B 型 1(SR-B1)的表达水平呈正相关。
天然和合成来源的维生素 E 均具有相似的生物利用度。然而,NVE 补充增加了 RRR-αT 的比例,并在出生时促进了胎儿血浆中更高的抗氧化活性。胎盘上的 SR-B1 可能参与了 RRR-αT 立体异构体在胎盘上的立体选择性转运,并可能提高胎儿中 αT 的生物活性。
