BACKGROUND: Allergy to fresh fruits and vegetables is mostly observed in subjects with pollinosis, especially from birch, because of cross-reacting allergens in vegetable foods and pollens. However, allergic reactions to fruits, specifically Rosaceae fruits, have been reported in subjects without pollinosis. OBJECTIVE: This study evaluated the pattern of IgE reactivity, identifying the allergen responsible in 2 groups of patients with oral allergy syndrome to peach with or without birch pollinosis. METHODS: The allergenic components of peach were detected by SDS-PAGE and immunoblotting. The major peach allergen was purified by HPLC with a cation-exchange column followed by gel filtration chromatography. Its IgE-binding capacity and its homology with the protein of the crude extract were demonstrated by immunoblotting inhibition techniques. To better characterize this allergen, periodic acid-Schiff stain and isoelectrofocusing were used. The amino acid sequencing was done with a gas-phase sequencer. RESULTS: SDS-PAGE and immunoblotting of the 15 patients allergic to peach, 8 without and 7 with birch pollinosis, showed that they all recognized a protein with a molecular weight of 9 kd. This was the only allergen recognized by patients not sensitized to pollen, whereas the birch pollen-sensitive patients had IgE binding to other allergenic proteins at higher molecular weights. The purified 9-kd protein retained its IgE-binding capacity, was negative to periodic acid-Schiff stain, and had an isoelectric point value of greater than 9. A search in the Swiss Prot Bank showed this was a lipid transfer protein, belonging to a group of molecules involved in the defensive system of plants. CONCLUSIONS: The major allergen of peach is a 9-kd protein belonging to the group of lipid transfer proteins. This is the only allergen recognized by patients allergic to peach but not sensitized to birch pollen.
BACKGROUND:Allergy to fresh fruits and vegetables is mostly observed in subjects with pollinosis, especially from birch, because of cross-reacting allergens in vegetable foods and pollens. However, allergic reactions to fruits, specifically Rosaceae fruits, have been reported in subjects without pollinosis. OBJECTIVE: This study evaluated the pattern of IgE reactivity, identifying the allergen responsible in 2 groups of patients with oral allergy syndrome to peach with or without birch pollinosis. METHODS: The allergenic components of peach were detected by SDS-PAGE and immunoblotting. The major peach allergen was purified by HPLC with a cation-exchange column followed by gel filtration chromatography. Its IgE-binding capacity and its homology with the protein of the crude extract were demonstrated by immunoblotting inhibition techniques. To better characterize this allergen, periodic acid-Schiff stain and isoelectrofocusing were used. The amino acid sequencing was done with a gas-phase sequencer. RESULTS:SDS-PAGE and immunoblotting of the 15 patientsallergic to peach, 8 without and 7 with birch pollinosis, showed that they all recognized a protein with a molecular weight of 9 kd. This was the only allergen recognized by patients not sensitized to pollen, whereas the birch pollen-sensitive patients had IgE binding to other allergenic proteins at higher molecular weights. The purified 9-kd protein retained its IgE-binding capacity, was negative to periodic acid-Schiff stain, and had an isoelectric point value of greater than 9. A search in the Swiss Prot Bank showed this was a lipid transfer protein, belonging to a group of molecules involved in the defensive system of plants. CONCLUSIONS: The major allergen of peach is a 9-kd protein belonging to the group of lipid transfer proteins. This is the only allergen recognized by patientsallergic to peach but not sensitized to birch pollen.
Authors: Z S Gao; W E van de Weg; J G Schaart; I M van der Meer; L Kodde; M Laimer; H Breiteneder; K Hoffmann-Sommergruber; L J W J Gilissen Journal: Theor Appl Genet Date: 2005-01-13 Impact factor: 5.699
Authors: Guodong Wang; Li Tian; Naveed Aziz; Pierre Broun; Xinbin Dai; Ji He; Andrew King; Patrick X Zhao; Richard A Dixon Journal: Plant Physiol Date: 2008-09-05 Impact factor: 8.340
Authors: Isabel J Skypala; Ricardo Asero; Domingo Barber; Lorenzo Cecchi; Arazeli Diaz Perales; Karin Hoffmann-Sommergruber; Elide A Pastorello; Ines Swoboda; Joan Bartra; Didier G Ebo; Margaretha A Faber; Montserrat Fernández-Rivas; Francesca Gomez; Anastasios P Konstantinopoulos; Olga Luengo; Ronald van Ree; Enrico Scala; Stephen J Till Journal: Clin Transl Allergy Date: 2021-05-18 Impact factor: 5.871