PURPOSE
OF REVIEW:
To review recent advances in the area of food allergen processing
and the effect on protein allergenicity.
RECENT
FINDINGS: Heating generally decreases protein allergenicity
by destroying conformational epitopes. In peanut and shrimp,
heat-induced Maillard reaction (glycation) may increase
allergenicity. The majority of milk and egg-allergic children
tolerate extensively heated (baked with wheat matrix) milk
and egg. Introduction of extensively heated milk and egg
proteins is associated with decreasing sizes of skin prick
test wheals and increasing serum food-specific IgG4 levels.
SUMMARY:
Heating and other methods of food processing have different
effects on food allergens, even those contained in the same
complex food. Structural homology does not reliably predict
the effect of processing on allergenicity, and individual
food allergens have to be tested. Interactions with other
proteins, fat, and carbohydrates in the food matrix are
complex and poorly understood. Introduction of extensively
heated milk and egg proteins into the diet of allergic children
may represent an alternative approach to oral tolerance
induction. Better characterization of these aspects of food
allergy is critical for elucidation of food protein interactions
with the gut-associated lymphoid tissue, the ability to
induce IgE sensitization, the potential to trigger hypersensitivity
reactions, and different clinical phenotypes of food allergy
with regard to severity and persistence.
