BACKGROUND: Phl p 5 represents a major allergen of timothy grass pollen (Phleum pratense). Detailed knowledge about the structures responsible for IgE binding would allow the design of a novel generation of allergy vaccines. OBJECTIVE: We aimed to characterize the IgE epitopes of Phl p 5a using phage display combined with a molecular modeling approach. METHODS: Phl p 5a-specific IgE from sera of patients with grass pollen allergy was used for screening of a random peptide phage library displaying constrained decamers. RESULTS: Fifteen phage clones that shared sequence motifs and could be grouped into families were selected by using Phl p 5a-specific IgE. Peptide alignment with the solvent-accessible amino acids of Phl p 5a revealed 3 sequence sections with frequent hits of identical or similar amino acids. On the surface of Phl p 5a, these sections assembled in compact patches, most likely representing conformational IgE epitopes, whereas no matching clusters were found on the back sides of the 2 Phl p 5a halves. In surface plasmon resonance experiments, the high-affinity interaction between IgE and Phl p 5 could be competed by phage-displayed peptides up to 24%, indicating that they represent true epitope mimics (ie, mimotopes). Allergen-specific immunogenicity of the mimotopes was proved in Biozzi mice. CONCLUSION: The selected mimotopes facilitated the localization of conformational IgE epitopes of Phl p 5. We suggest them to be suitable candidates for the development of an epitope-specific immunotherapy.
BACKGROUND:Phl p 5 represents a major allergen of timothy grass pollen (Phleum pratense). Detailed knowledge about the structures responsible for IgE binding would allow the design of a novel generation of allergy vaccines. OBJECTIVE: We aimed to characterize the IgE epitopes of Phl p 5a using phage display combined with a molecular modeling approach. METHODS:Phl p 5a-specific IgE from sera of patients with grass pollen allergy was used for screening of a random peptide phage library displaying constrained decamers. RESULTS: Fifteen phage clones that shared sequence motifs and could be grouped into families were selected by using Phl p 5a-specific IgE. Peptide alignment with the solvent-accessible amino acids of Phl p 5a revealed 3 sequence sections with frequent hits of identical or similar amino acids. On the surface of Phl p 5a, these sections assembled in compact patches, most likely representing conformational IgE epitopes, whereas no matching clusters were found on the back sides of the 2 Phl p 5a halves. In surface plasmon resonance experiments, the high-affinity interaction between IgE and Phl p 5 could be competed by phage-displayed peptides up to 24%, indicating that they represent true epitope mimics (ie, mimotopes). Allergen-specific immunogenicity of the mimotopes was proved in Biozzi mice. CONCLUSION: The selected mimotopes facilitated the localization of conformational IgE epitopes of Phl p 5. We suggest them to be suitable candidates for the development of an epitope-specific immunotherapy.
Authors: Nicki Yh Leung; Christine Yy Wai; Marco Hk Ho; Ruiwu Liu; Kit S Lam; Jin Jun Wang; Shang An Shu; Ka Hou Chu; Patrick Sc Leung Journal: Cell Mol Immunol Date: 2015-09-14 Impact factor: 11.530
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: J Wallmann; M M Epstein; P Singh; R Brunner; K Szalai; L El-Housseiny; I Pali-Schöll; E Jensen-Jarolim Journal: Clin Exp Allergy Date: 2009-12-02 Impact factor: 5.018