Until recently, glycan epitopes have not been documented by the WHO/IUIS Allergen Nomenclature Sub-Committee. This was in part due to scarce or incomplete information on these oligosaccharides, but also due to the widely held opinion that IgE to these epitopes had little or no relevance to allergic symptoms. Most IgE binding glycans recognized up to 2008 were considered to be "classical" cross-reactive carbohydrate determinants (CCD) that occur in insects, some helminths and throughout the plant kingdom. Since 2008, theprevailing opinion on lack of clinical relevance of IgE binding glycans has been subject to a reevaluation. This was becauseIgE specific for the mammalian disaccharide galactosealpha-1,3-galactose (alpha-gal) was identified as a cause of delayed anaphylaxis to mammalian meat in the U.S.A., an observation that has been confirmed by allergists in many parts of the world. Several experimental studies have shown that oligosaccharides with one or more terminal alpha-gal epitopes can be attached as a hapten to many different mammalian proteins or lipids. The classical CCDs also behave like haptens since they can be expressed on proteins from multiple species. This is the explanation for extensive in vitrocross-reactivity related to CCDs. Because of these developments, theAllergen Nomenclature Sub-Committee recently decided to include glycans as potentially allergenic epitopes in an adjunct section of its website (www.allergen.org). In this article, the features of the mainglycan groups known to be involved in IgE recognition are revisited, and their characteristic structural, functional, and clinical features are discussed.
Bibliographical noteThis article is protected by copyright. All rights reserved.
Fields of Science and Technology Classification 2012
- 106 Biology
- 303 Health Sciences
- 304 Medical Biotechnology