Snail-induced anaphylaxis in patients with underlying Artemisia vulgaris pollinosis: the role of carbohydrates

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Manuel Prados-Castaño
Stefan Cimbollek
Borja Bartolomé
Miriam Castillo
Joaquin Quiralte

Keywords

Anaphylaxis, Snails, Artemisia vulgaris, O-glycans

Abstract

Purpose: The importance of carbohydrates in anaphylaxis has been described with some foods. The current work intends to obtain clinical and immunological evidence of the importance of the O-glycans for IgE binding activity in anaphylactic reactions due to Helix aspersa (HA) ingestión and Artemisia vulgaris (AV) exposition.


Methods: The studio focused on two cases of IgE-mediated anaphylaxis induced by snail ingestion in patients with underlying rhino-conjunctivitis and asthma due to AV. We performed on both patients: skin prick tests ( SPTs) with HA and AV and with a battery of aeroallergen, controlled nasal challenge and specific IgE to HA and AV, ImmunoCAP ISAC®, and a differential pattern of IgE recognition with SDS-PAGE Immunoblotting (SDSI) when these allergens have suffered an O-deglycosylation procedure.


Results: The patients showed positive results in SPTs, nasal challenges, and serum-specific IgE against HA and AV. In patient 1, the SDSI detected several IgE-binding proteins in AV with a molecular mass of 22, 24, and 44 kDa, whereas a band of 12 kDa was detected in HA. On the other hand, patient 2’s serum revealed an IgE-binding zone between 75 and 20 kDa in the AV and a band of 24 kDa in the HA. When glycans were removed, patient 1’s serum only revealed the AV’s 22 and 24 kDa bands, whereas patient 2’s serum did not detect any IgE-reactive protein in the HA.


Conclusions: Our data suggest that O-glycosylation can be relevant in patients with anaphylaxis due to snails and allergy to Artemisia vulgaris. This new entity representing cross-reactivity between AV and HA could be named Snail-Artemisia Syndrome.

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