Why Are Some Proteins Allergens?

doi:10.1093/toxsci/55.2.235

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Toxicological Sciences 55, 235-246 (2000)
Copyright © 2000 by the Society of Toxicology

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Why Are Some Proteins Allergens?

Russell D. J. Huby¹, Rebecca J. Dearman and Ian Kimber

AstraZeneca Central Toxicology Laboratory, Alderley Park, Macclesfield, Cheshire, SK10 4TJ United Kingdom

ABSTRACT

The ability of certain proteins to induce an allergic responsein susceptible individuals is well established. Symptoms canrange from mild erythema or rhinitis, to acute, and possiblyfatal, anaphylactic shock. Because such allergic responses requirecomplex interactions between the protein and the immune system,they are notoriously difficult to predict. Nevertheless, itis clear that some proteins are intrinsically more allergenicthan others. The challenge for toxicologists is to identifythose characteristics that confer on proteins the potentialto induce allergic sensitization and allergic disease. Here,we first consider the potential contribution that individualepitopes may make to the allergenicity of a protein. These arethe minimal peptide units within proteins that can be recognizedby the immune system and are a fundamental requirement for allimmune responses, including those resulting in allergic sensitization.It appears that allergens must necessarily contain B-cell epitopesto which immunoglobulin E (IgE) can bind, and T-cell epitopescapable of inducing a type 2 T-lymphocyte response. Nevertheless,it appears doubtful that the presence of appropriate epitopesalone is sufficient to endow a protein with allergenic potential.We therefore consider also the contribution that other featuresand characteristics of proteins may make to their overall allergenicity.In particular, we consider the effects that resistance to proteolysis,post-translational glycosylation, and enzymatic activity mayhave. It appears that relative stability in simulated gastricfluid (SGF) sometimes correlates with allergenic activity. However,this is not universally true, and it is known that there areprotein allergens, such as some of those associated with oralallergy syndrome, that are unstable. Nevertheless, if stabilityin SGF is associated with the intrinsic allergenicity of manyproteins irrespective of the route of exposure, then this mayreflect some more fundamental property of proteins, and possiblytheir stability in other biologic matrices and/or to intracellularproteases. Post-translational modification appears generallyto enhance allergenicity, perhaps by increasing uptake and detectionof the protein by the immune system. Some enzymatic activitiesalso enhance allergenicity through what appear to be severaldifferent mechanisms, including nonspecific activation of cellsparticipating in the immunologic response. Overall, it appearslikely that many factors can contribute to the overall allergenicityof any given protein. Some, such as the presence of epitopeswith allergenic potential, may be essential. Others, such asthe glycosylation status, resistance to proteolysis, and enzymaticactivity, may play a subsidiary but nevertheless criticallyimportant role. By better defining the limits within which thesefactors operate, we can hope to gain a better understandingof the fundamental origins of protein allergenicity, and thereforebe in a position to identify and characterize the hazards andrisks of allergic disease associated with novel proteins.

Key Words: allergenicity; epitopes; proteins; simulated gastric fluid (SGF).

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