BACKGROUND: Yellow jacket hyaluronidase (YJ-HYA) is considered a major allergen in yellow jacket allergy. It shows 50% homology with the hyaluronidase from honeybee venom, Api m 2. Recently, IgE binding to YJ-HYA and cross-reactivity with Api m 2 has been shown to be due to cross-reactive carbohydrate determinants (CCDs). OBJECTIVE: We sought to quantify the importance of YJ-HYA in yellow jacket allergy and the cross-reactivity with Api m 2 by discriminating between carbohydrate and peptide epitopes. METHODS: IgE binding to Vespula species venom was studied by means of Western blotting in 136 patients with yellow jacket allergy (31 in vitro single positive to yellow jacket venom and 105 in vitro double-positive to yellow jacket-honeybee). Inhibition studies were carried out with MUXF-BSA (isolated bromelain glycopeptides linked to bovine serum albumin) and purified Api m 2. RESULTS: Among yellow jacket single-positive sera, only 1 of 31 bound with YJ-HYA, whereas this was the case in 87% of 105 double-positive sera. Of 83 patients in whom inhibitions were performed, 65% reacted with hyaluronidase through CCDs alone, 27% reacted with both CCDs and peptide epitopes, and 8% reacted only with the hyaluronidase peptide. The protein-specific reactivity with YJ-HYA was cross-inhibited by Api m 2 in 48% (14/29). Antigen 5 and phospholipase A(1) were each recognized by around 90% of sera from both groups, together identifying 97% of patients. CONCLUSION: Hyaluronidase is a minor yellow jacket venom allergen, and only 10% to 15% of patients with yellow jacket allergy are estimated to have IgE against the hyaluronidase protein. Peptide-specific cross-reactivity with Api m 2 occurs in half of these sera. Component-resolved diagnosis with antigen 5 and phospholipase would detect virtually all patients with yellow jacket venom allergy. Copyright 2010 American Academy of Allergy, Asthma & Immunology. Published by Mosby, Inc. All rights reserved.
BACKGROUND: Yellow jacket hyaluronidase (YJ-HYA) is considered a major allergen in yellow jacket allergy. It shows 50% homology with the hyaluronidase from honeybee venom, Api m 2. Recently, IgE binding to YJ-HYA and cross-reactivity with Api m 2 has been shown to be due to cross-reactive carbohydrate determinants (CCDs). OBJECTIVE: We sought to quantify the importance of YJ-HYA in yellow jacket allergy and the cross-reactivity with Api m 2 by discriminating between carbohydrate and peptide epitopes. METHODS: IgE binding to Vespula species venom was studied by means of Western blotting in 136 patients with yellow jacket allergy (31 in vitro single positive to yellow jacket venom and 105 in vitro double-positive to yellow jacket-honeybee). Inhibition studies were carried out with MUXF-BSA (isolated bromelain glycopeptides linked to bovineserum albumin) and purified Api m 2. RESULTS: Among yellow jacket single-positive sera, only 1 of 31 bound with YJ-HYA, whereas this was the case in 87% of 105 double-positive sera. Of 83 patients in whom inhibitions were performed, 65% reacted with hyaluronidase through CCDs alone, 27% reacted with both CCDs and peptide epitopes, and 8% reacted only with the hyaluronidase peptide. The protein-specific reactivity with YJ-HYA was cross-inhibited by Api m 2 in 48% (14/29). Antigen 5 and phospholipase A(1) were each recognized by around 90% of sera from both groups, together identifying 97% of patients. CONCLUSION:Hyaluronidase is a minor yellow jacket venom allergen, and only 10% to 15% of patients with yellow jacket allergy are estimated to have IgE against the hyaluronidase protein. Peptide-specific cross-reactivity with Api m 2 occurs in half of these sera. Component-resolved diagnosis with antigen 5 and phospholipase would detect virtually all patients with yellow jacket venom allergy. Copyright 2010 American Academy of Allergy, Asthma & Immunology. Published by Mosby, Inc. All rights reserved.
Authors: Simon Blank; Henning Seismann; Mareike McIntyre; Markus Ollert; Sara Wolf; Frank I Bantleon; Edzard Spillner Journal: PLoS One Date: 2013-04-23 Impact factor: 3.240
Authors: Gunter J Sturm; Chunsheng Jin; Bettina Kranzelbinder; Wolfgang Hemmer; Eva M Sturm; Antonia Griesbacher; Akos Heinemann; Jutta Vollmann; Friedrich Altmann; Karl Crailsheim; Margarete Focke; Werner Aberer Journal: PLoS One Date: 2011-06-15 Impact factor: 3.240