Pediatr Allergy Respir Dis.  2007 Mar;17(1):1-7.

Classification and Character of Plant Food Allergens

Affiliations
  • 1Department of Pediatrics, Samsung Medical Center Sungkyunkwan University School of Medicine, Seoul, Korea. kmaped@smc.samsung.co.kr

Abstract

Food allergy is an adverse food reaction as a result of immune mechanisms. In a sensitized individual, food allergens activate mast cells and basophils by binding with IgE present on the cell surface, resulting in the release of chemical mediators and various cytokines to cause various clinical symptoms of food allergy. Sensitization to food allergens can occur in the gastrointestinal tract (class 1 food allergy) or as a consequence of cross reactivity to structurally homologous inhalant allergens (class 2 food allergy). The class 1 food allergens are water-soluble glycoproteins with 10-70 kD size that are resistant to heat, acid and enzymes. On the other hand, the class 2 food allergens are highly unstable and degraded by heat or enzymatic digestion. Much progress has been made in identifying and isolating food allergen. Recently cDNAs for many proteins have been isolated and recombinant proteins have been generated. These techniques make it easier to characterize each responsible food allergens. Plant food allergens are classified into families and superfamilies by their structural and functional properties. The most of plant food allergens are the cupin and prolamin superfamilies and the protein families of the plant defense system. The cupin superfamily includes allergenic seed storage proteins of 7s globulin (vicilin) and 11s globulin (legumin). 2s albumin seed storage proteins, the nonspecific lipid transfer proteins, and the cereal alpha-amylase and protease inhibitors belong to the prolamin superfamily. Profilins, heveins, and nonspecific lipid transfer proteins are present in a variety of pollens, nuts, seeds, fruits, and vegetables. These are considered as panallergens, causing a significant degree of IgE-mediated cross-reactivity. Detailed informations about the character of food allergens can be used to develop more sophisticated diagnostic methods and treatment modalities in the near future. Further knowledge of food allergens is also useful to assess the allergenicity of novel protein of genetically mo.

Keyword

Food allergy; Plant food allergen; Cupin; Prolamin; Vicilin; Legumin; Nonspecific lipid transfer protein; Profilin; Pathogenesis-related protein; Tree nut

MeSH Terms

Allergens*
alpha-Amylases
Basophils
Edible Grain
Classification*
Cytokines
Digestion
DNA, Complementary
Food Hypersensitivity
Fruit
Gastrointestinal Tract
Glycoproteins
Hand
Hot Temperature
Humans
Immunoglobulin E
Mast Cells
Nuts
Plants*
Pollen
Profilins
Protease Inhibitors
Recombinant Proteins
Seed Storage Proteins
Vegetables
Allergens
Cytokines
DNA, Complementary
Glycoproteins
Immunoglobulin E
Profilins
Protease Inhibitors
Recombinant Proteins
Seed Storage Proteins
alpha-Amylases
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