The high molecular weight dipeptidyl peptidase IV Pol d 3 is a major allergen of Polistes dominula venom

Gunilla Pietsch,Maximilian Schiener,Ulf Darsow,Mariona Pascal,Christiane Hilger,Tilo Biedermann,Simon Blank,Sébastien Planchon,Pilar Serrano,Carmen Moreno-Aguilar,Annette Kuehn,Bernadette Eberlein,Carsten B Schmidt-Weber,Dominique Revets,Markus Ollert,Federico De La Roca

doi:10.1038/s41598-018-19666-7

Abstract

Hymenoptera venom allergy can cause severe anaphylaxis in untreated patients. Polistes dominula is an important elicitor of venom allergy in Southern Europe as well as in the United States. Due to its increased spreading to more moderate climate zones, Polistes venom allergy is likely to gain importance also in these areas. So far, only few allergens of Polistes dominula venom were identified as basis for component-resolved diagnostics. Therefore, this study aimed to broaden the available panel of important Polistes venom allergens. The 100 kDa allergen Pol d 3 was identified by mass spectrometry and found to be a dipeptidyl peptidase IV. Recombinantly produced Pol d 3 exhibited sIgE-reactivity with approximately 66% of Polistes venom-sensitized patients. Moreover, its clinical relevance was supported by the potent activation of basophils from allergic patients. Cross-reactivity with the dipeptidyl peptidases IV from honeybee and yellow jacket venom suggests the presence of exclusive as well as conserved IgE epitopes. The obtained data suggest a pivotal role of Pol d 3 as sensitizing component of Polistes venom, thus supporting its status as a major allergen of clinical relevance. Therefore, Pol d 3 might become a key element for proper diagnosis of Polistes venom allergy.

Highlights

Hymenoptera venom allergy can cause severe anaphylaxis in untreated patients
We have recently shown, that Polistes venom is free of cross-reactive carbohydrate determinant-(CCD-)based cross-reactivity[26], available extract-based diagnostic approaches to discriminate between Polistes dominula venom (PDV) und yellow jacked venom (YJV) allergy are hampered by extensive protein cross-reactivity[2,3,27,28]
Prominent bands at approximately 23 and 31 to 40 kDa were identified by mass spectrometry as the known allergens antigen 5 (Pol d 5), protease (Pol d 4) and phospholipase A1 (Pol d 1), respectively

Summary

Introduction

Polistes dominula is an important elicitor of venom allergy in Southern Europe as well as in the United States. Only few allergens of Polistes dominula venom were identified as basis for component-resolved diagnostics. Produced Pol d 3 exhibited sIgE-reactivity with approximately 66% of Polistes venom-sensitized patients. The obtained data suggest a pivotal role of Pol d 3 as sensitizing component of Polistes venom, supporting its status as a major allergen of clinical relevance. Stings of hymenoptera of different species can cause life-threatening IgE-mediated anaphylaxis in venom-allergic patients. In combination with skin testing and venom extract-based specific IgE (sIgE) diagnostics, CRD has created added clinical value for a proper allergy diagnosis. For CRD of hymenoptera venom allergy commercial allergens are available for different test platforms to determine sIgE serum titers[6]

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