Type I skin reactivity to native and recombinant phospholipase A sub(2) from honeybee venom is similar

Phospholipase A sub(2) is the major allergen in honeybee venom. Recombinant phospholipase A sub(2) was produced in prokaryotes and tested for its biologic activity by intracutaneous skin testing with serial 10-fold dilutions in comparison with native and deglycosylated phospholipase A sub(2) in pati...

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Bibliographic Details
Published in:Journal of allergy and clinical immunology 1995-01, Vol.96 (3), p.395-402
Main Authors: Mueller, U R, Dudler, T, Schneider, T, Crameri, R, Fischer, H, Skrbic, D, Maibach, R, Blaser, K, Suter, M
Format: Article
Language:English
Subjects:
Apidae
Apis mellifera
Hymenoptera
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Summary:Phospholipase A sub(2) is the major allergen in honeybee venom. Recombinant phospholipase A sub(2) was produced in prokaryotes and tested for its biologic activity by intracutaneous skin testing with serial 10-fold dilutions in comparison with native and deglycosylated phospholipase A sub(2) in patients allergic to bee venom. Linear regressions of the log of the wheal area versus the log of the allergen concentration were calculated for all allergens in each patient. The relative allergenic potency of the various preparations was analyzed by comparing the linear regressions. Native phospholipase A sub(2) was about 10 times more potent than whole bee venom. None of 58 patients allergic to bee venom was missed by testing with native phospholipase A sub(2) alone. This allergen and deglycosylated native phospholipase A sub(2) resulted in similar skin reactions, indicating that the sugar residues were of little relevance for IgE-binding in the patients tested. Native phospholipase A sub(2) also had relative potency similar to that of recombinant refolded phospholipase A sub(2) whereas recombinant nonrefolded phospholipase A sub(2) had almost no biologic activity in skin testing. These results demonstrate in vivo activity of the recombinant bee venom allergen phospholipase A sub(2). Although correct refolding is a prerequisite for type I skin reactivity, glycosylation seems to be less important.
ISSN:0091-6749