BACKGROUND: The observation of mugwort-specific IgE antibodies in patients with peach allergy suggests that mugwort sensitization might play a role in sensitization to peach. OBJECTIVE: We sought to study the clinical manifestations of mugwort hypersensitivity in patients with peach allergy, identify the common allergens, and evaluate their IgE crossreactivity. METHODS: Patients with oral allergy syndrome for peach and specific IgE antibodies to mugwort were investigated for respiratory symptoms during the mugwort season. Peach and mugwort allergens were identified by means of SDS-PAGE and IgE immunoblotting. Immunoblotting inhibition experiments were done to study cross-reactivity between peach and mugwort and other pollens. RESULTS: Seventeen patients were studied, 10 with no seasonal respiratory symptoms and 7 with clear late summer respiratory symptoms. In IgE immunoblotting the 10 asymptomatic patients reacted only to a 9-kd allergen of both mugwort and peach, whereas the 7 patients with pollinosis reacted to other allergens. Ten patients with mugwort allergy, no history of allergy to peach, and negative results for peach-specific IgE antibodies were also studied. The mugwort 9-kd protein was identified as a lipid transfer protein (LTP) homologous to peach LTP. Immunoblotting inhibition showed that IgE binding to the peach 9-kd band was totally inhibited by 4 microg of peach LTP but only by 400 microg of mugwort LTP, whereas 4 microg of both mugwort and peach LTP totally inhibited the mugwort immunoblotting. The results were similar with other pollens. CONCLUSIONS: Patients sensitized only to the 9-kd LTP of mugwort do not present hay fever symptoms, and this sensitization is a consequence of the peach sensitization.
BACKGROUND: The observation of mugwort-specific IgE antibodies in patients with peachallergy suggests that mugwort sensitization might play a role in sensitization to peach. OBJECTIVE: We sought to study the clinical manifestations of mugworthypersensitivity inpatients with peachallergy, identify the common allergens, and evaluate their IgE crossreactivity. METHODS:Patients with oral allergy syndrome for peach and specific IgE antibodies to mugwort were investigated for respiratory symptoms during the mugwort season. Peach and mugwort allergens were identified by means of SDS-PAGE and IgE immunoblotting. Immunoblotting inhibition experiments were done to study cross-reactivity between peach and mugwort and other pollens. RESULTS: Seventeen patients were studied, 10 with no seasonal respiratory symptoms and 7 with clear late summer respiratory symptoms. In IgE immunoblotting the 10 asymptomatic patients reacted only to a 9-kd allergen of both mugwort and peach, whereas the 7 patients with pollinosis reacted to other allergens. Ten patients with mugwortallergy, no history of allergy to peach, and negative results for peach-specific IgE antibodies were also studied. The mugwort 9-kd protein was identified as a lipid transfer protein (LTP) homologous to peach LTP. Immunoblotting inhibition showed that IgE binding to the peach 9-kd band was totally inhibited by 4 microg of peach LTP but only by 400 microg of mugwort LTP, whereas 4 microg of both mugwort and peach LTP totally inhibited the mugwort immunoblotting. The results were similar with other pollens. CONCLUSIONS:Patients sensitized only to the 9-kd LTP of mugwort do not present hay fever symptoms, and this sensitization is a consequence of the peach sensitization.
Authors: Maria Livia Bernardi; Ivana Giangrieco; Laura Camardella; Rosetta Ferrara; Paola Palazzo; Maria Rosaria Panico; Roberta Crescenzo; Vito Carratore; Danila Zennaro; Marina Liso; Mario Santoro; Sara Zuzzi; Maurizio Tamburrini; Maria Antonietta Ciardiello; Adriano Mari Journal: PLoS One Date: 2011-11-17 Impact factor: 3.240
Authors: Margitta Worm; Uta Jappe; Jörg Kleine-Tebbe; Christiane Schäfer; Imke Reese; Joachim Saloga; Regina Treudler; Torsten Zuberbier; Anja Waßmann; Thomas Fuchs; Sabine Dölle; Martin Raithel; Barbara Ballmer-Weber; Bodo Niggemann; Thomas Werfel Journal: Allergo J Int Date: 2014