BACKGROUND: Grass pollens, such as pollen from timothy grass (Phleum pratense), represent a major cause of type I allergy. OBJECTIVE: In this report we attempted to determine how cross-reactive allergenic components of grass pollens from different species can be represented by a minimum number of recombinant allergens. METHODS: We isolated and sequenced a timothy grass pollen cDNA coding for the major allergen Phl p I. A recombinant Phl p I-beta-galactosidase fusion protein, which bound to IgE in 87% of patients with grass pollen allergy, was produced in Escherichia coli. Using recombinant Phl p V and Phl p I, we defined representative patients' sera that bound to group I but not to group V allergens, as well as sera with reactivity against group I and group V allergens. IgE immunoblot inhibition studies were done with nitrocellulose-blotted pollen extracts from eight grass species with different geographic distribution. RESULTS: Preadsorption of patients' sera with recombinant nonfusion Phl p I strongly reduced IgE binding to group I allergens from the eight grasses, showing extensive cross-reactivity between species. CONCLUSION: A single recombinant group I allergen contains many of the IgE epitopes of group I isoallergens from a number of different grass species.
BACKGROUND: Grass pollens, such as pollen from timothy grass (Phleum pratense), represent a major cause of type I allergy. OBJECTIVE: In this report we attempted to determine how cross-reactive allergenic components of grass pollens from different species can be represented by a minimum number of recombinant allergens. METHODS: We isolated and sequenced a timothy grass pollen cDNA coding for the major allergen Phl p I. A recombinant Phl p I-beta-galactosidase fusion protein, which bound to IgE in 87% of patients with grass pollen allergy, was produced in Escherichia coli. Using recombinant Phl p V and Phl p I, we defined representative patients' sera that bound to group I but not to group V allergens, as well as sera with reactivity against group I and group V allergens. IgE immunoblot inhibition studies were done with nitrocellulose-blotted pollen extracts from eight grass species with different geographic distribution. RESULTS: Preadsorption of patients' sera with recombinant nonfusion Phl p I strongly reduced IgE binding to group I allergens from the eight grasses, showing extensive cross-reactivity between species. CONCLUSION: A single recombinant group I allergen contains many of the IgE epitopes of group I isoallergens from a number of different grass species.
Authors: Anna Lukschal; Jan Fuhrmann; Juryj Sobanov; Dirk Neumann; Julia Wallmann; Regina Knittelfelder; Wolfgang Hemmer; Otto Scheiner; Monique Vogel; Beda M Stadler; Erika Jensen-Jarolim; Krisztina Szalai Journal: Open Allergy J Date: 2011-05-23
Authors: James Breen; Dora Li; David S Dunn; Ferenc Békés; Xiuying Kong; Juncheng Zhang; Jizeng Jia; Thomas Wicker; Rohit Mago; Wujun Ma; Matthew Bellgard; Rudi Appels Journal: BMC Plant Biol Date: 2010-05-27 Impact factor: 4.215
Authors: Christoph Madritsch; Elisabeth Gadermaier; Uwe W Roder; Christian Lupinek; Rudolf Valenta; Sabine Flicker Journal: J Immunol Date: 2015-01-30 Impact factor: 5.422