AI Article Synopsis
- - Vitamin E (VitE) is essential for fetal development, and its deficiency leads to increased lipid peroxidation and disrupts biochemical pathways necessary for maintaining glutathione (GSH) levels during embryogenesis.
- - In a study comparing embryos with sufficient (E+) and deficient (E-) VitE, researchers found that betaine levels were significantly higher in E- embryos, and various amino acids and thiol compounds showed notable changes at different developmental stages.
- - The results highlight the complex interplay between methyl donors and the methionine cycle in supporting thiol homeostasis, indicating potential dysregulation in the metabolic processes affecting embryo development due to VitE deficiency.
Article Abstract
Vitamin E (α-tocopherol, VitE) was discovered as a nutrient essential to protect fetuses, but its molecular role in embryogenesis remains undefined. We hypothesize that the increased lipid peroxidation due to VitE deficiency drives a complex mechanism of overlapping biochemical pathways needed to maintain glutathione (GSH) homeostasis that is dependent on betaine and its methyl group donation. We assess amino acids and thiol changes that occur during embryogenesis [12, 24 and 48 h post fertilization (hpf)] in VitE-sufficient (E+) and deficient (E-) embryos using two separate, novel protocols to quantitate changes using UPLC-MS/MS. Using partial least squares discriminant analysis, we found that betaine is a critical feature separating embryos by VitE status and is higher in E- embryos at all time points. Other important features include: glutamic acid, increased in E- embryos at 12 hpf; choline, decreased in E- embryos at 24 hpf; GSH, decreased in E- embryos at 48 hpf. By 48 hpf, GSH was significantly lower in E- embryos (P < 0.01), as were both S-adenosylmethionine (SAM, P < 0.05) and S-adenosylhomocysteine (SAH, P < 0.05), while glutamic acid was increased (P < 0.01). Since GSH synthesis requires cysteine (which was unchanged), these data suggest that both the conversion of homocysteine and the uptake of cystine via the X exchanger are dysregulated. Our data clearly demonstrates the highly inter-related dependence of methyl donors (choline, betaine, SAM) and the methionine cycle for maintenance of thiol homeostasis. Additional quantitative flux studies are needed to clarify the quantitative importance of these routes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7658488 | PMC |
| http://dx.doi.org/10.1016/j.redox.2020.101784 | DOI Listing |
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