Maternal supplementation with α-tocopherol inhibits the development of offspring food allergy, H1R signaling and ultimately anaphylaxis early in life.

Food allergy has had a rapid rise in prevalence, and thus it is important to identify approaches to limit the development of food allergy early in life. Because maternal dietary supplementation with α-tocopherol (α-T), an isoform of vitamin E, during pregnancy and nursing increases neonate plasma levels of α-T and can limit neonate development of other allergies, we hypothesized that α-T can limit development of food allergy. To assess this, male mice with mutations in their skin barrier genes (FT-/- mice) were mated with wild-type females that received a diet supplemented with α-tocopherol or a control diet. Starting at postnatal day 3, these FT+/- pups were sensitized 4 to 5 times over 2.5 weeks by skin co-exposure to the food allergen peanut extract (PNE) and the environmental allergen Alternaria alternata (Alt). Control pups were exposed to saline, PNE only or Alt only. Supplementation with α-T blocked Alt+PNE sensitization (anti-PNE-specific IgE), without blocking Alt+PNE-stimulated skin IL33, Areg, OSM, CCL11, TSLP or plasma MCPT1. However, supplementation with α-T blocked mast cell activation, the increase in plasma histamine in Alt+PNE sensitized pups, histamine receptor stimulation of endothelial PKCα signaling, and ultimately oral PNE-induced anaphylaxis in Alt+PNE sensitized mice. Thus, maternal supplementation with α-tocopherol reduced development of food allergy and anaphylaxis in neonates. These results have implications for supplementation of mothers with α-tocopherol to limit development of food allergy in neonates with skin barrier mutations.