BACKGROUND: The use of peptides representing T-cell epitopes of allergens is a modern concept for improvement of specific immunotherapy. A prerequisite for this approach is the identification of T-cell epitopes of atopic allergens. METHODS: T-cell lines and 40 T-cell clones (TCC) specific for Phl p 1, the group I allergen of timothy grass (Phleum pratense), were established from the peripheral blood of nine patients allergic to grass pollen and mapped for epitope specificity by using overlapping dodecapeptides. Phenotype and cytokine production profile of TCC were investigated. Representative TCC were analyzed for HLA-restriction, T-cell receptor V beta gene usage, and crossreactivity with grass pollen extracts from Dactylis glomerata, Poa pratensis, Lolium perenne, Secale cereale, and selected amino acid sequence-derived peptides. RESULTS: Patients displayed IgE binding to all grass species investigated. Forty TCC were established. Fifteen T-cell epitopes could be identified on Phl p 1. Of 40 TCC, 39 displayed the helper cell (Th) phenotype; one clone was CD8+. Specific stimulation induced a Th2-like type of cytokine production in 20 of 39 TCC. Crossreactivity studies revealed crossreacting and non-crossreacting T-cell epitopes. CONCLUSION: Phl p 1, a major grass pollen allergen, harbors multiple T-cell epitopes. Species-specific and crossreacting T-cell epitopes exist among group I allergens of grasses. Epitope recognition patterns could not be correlated with particular HLA haplotypes. A restricted T-cell receptor V beta gene usage was not observed.
BACKGROUND: The use of peptides representing T-cell epitopes of allergens is a modern concept for improvement of specific immunotherapy. A prerequisite for this approach is the identification of T-cell epitopes of atopic allergens. METHODS: T-cell lines and 40 T-cell clones (TCC) specific for Phl p 1, the group I allergen of timothy grass (Phleum pratense), were established from the peripheral blood of nine patientsallergic to grass pollen and mapped for epitope specificity by using overlapping dodecapeptides. Phenotype and cytokine production profile of TCC were investigated. Representative TCC were analyzed for HLA-restriction, T-cell receptor V beta gene usage, and crossreactivity with grass pollen extracts from Dactylis glomerata, Poa pratensis, Lolium perenne, Secale cereale, and selected amino acid sequence-derived peptides. RESULTS:Patients displayed IgE binding to all grass species investigated. Forty TCC were established. Fifteen T-cell epitopes could be identified on Phl p 1. Of 40 TCC, 39 displayed the helper cell (Th) phenotype; one clone was CD8+. Specific stimulation induced a Th2-like type of cytokine production in 20 of 39 TCC. Crossreactivity studies revealed crossreacting and non-crossreacting T-cell epitopes. CONCLUSION: Phl p 1, a major grass pollen allergen, harbors multiple T-cell epitopes. Species-specific and crossreacting T-cell epitopes exist among group I allergens of grasses. Epitope recognition patterns could not be correlated with particular HLA haplotypes. A restricted T-cell receptor V beta gene usage was not observed.
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: S Vrtala; K Hirtenlehner; L Vangelista; A Pastore; H G Eichler; W R Sperr; P Valent; C Ebner; D Kraft; R Valenta Journal: J Clin Invest Date: 1997-04-01 Impact factor: 14.808
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
Authors: Sanny K Chan; Anna Pomés; Christiane Hilger; Janet M Davies; Geoffrey Mueller; Annette Kuehn; Andreas L Lopata; Gabriele Gadermaier; Marianne van Hage; Monika Raulf; Richard E Goodman Journal: Front Immunol Date: 2019-11-19 Impact factor: 7.561