Abstract
ScopeDuring food processing, the Maillard reaction (МR) may occur, resulting in the formation of glycated proteins. Glycated proteins are of particular importance in food allergies because glycation may influence interactions with the immune system. This study compared native and extensively glycated milk allergen β‐lactoglobulin (BLG), in their interactions with cells crucially involved in allergy.Methods and resultsBLG was glycated in MR and characterized. Native and glycated BLG were tested in experiments of epithelial transport, uptake and degradation by DCs, T‐cell cytokine responses, and basophil cell degranulation using ELISA and flow cytometry. Glycation of BLG induced partial unfolding and reduced its intestinal epithelial transfer over a Caco‐2 monolayer. Uptake of glycated BLG by bone marrow–derived dendritic cells (BMDC) was increased, although both BLG forms entered BMDC via the same mechanism, receptor‐mediated endocytosis. Once inside the BMDC, glycated BLG was degraded faster, which might have led to observed lower cytokine production in BMDC/CD4+ T‐cells coculture. Finally, glycated BLG was less efficient in induction of degranulation of BLG‐specific IgE sensitized basophil cells.ConclusionsThis study suggests that glycation of BLG by MR significantly alters its fate in processes involved in immunogenicity and allergenicity, pointing out the importance of food processing in food allergy.
Highlights
ObjectivesThe aim of this study was to glycate BLG with glucose to a high extent and to conduct a comparative analysis, relative to its native form, regarding their behavior in processes that are involved in immunogenicity and allergenicity
Nowadays, the majority of food is subjected to thermal treatment prior to consumption, which induces structural and chemical modifications of food proteins
Products of MR are very diverse and give rise to a variety of glycation structures covalently attached to food proteins that are collecof glycated BLG by bone marrow–derived dendritic cells (BMDC) was tively termed as advanced glycation endincreased, both BLG forms entered BMDC via the same mechanism, receptor-mediated endocytosis
Summary
The aim of this study was to glycate BLG with glucose to a high extent and to conduct a comparative analysis, relative to its native form, regarding their behavior in processes that are involved in immunogenicity and allergenicity. We aimed to describe how glycation reaction of the major milk allergen, BLG, influences handling and processing by epithelial and dendritic cells
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