Abstract
Knowledge of the susceptibility of proteins to endolysosomal proteases provides valuable information on immunogenicity. Though Ole e 1-like proteins are considered relevant allergens, little is known about their immunogenic properties and T cell epitopes. Thus, six representative molecules, i.e., Ole e 1, Fra e 1, Sal k 5, Che a 1, Phl p 11 and Pla l 1, were investigated. Endolysosomal degradation and peptide generation were simulated using microsomal fractions of JAWS II dendritic cells. Kinetics and peptide patterns were evaluated by gel electrophoresis and mass spectrometry. In silico MHC (major histocompatibility complex) class II binding prediction was performed with ProPred. Cleavage sites were assigned to the primary and secondary structure, and in silico docking experiments between the protease cathepsin S and Ole e 1 were performed. Different kinetics during endolysosomal degradation were observed while similar peptide profiles especially at the C-termini were detected. Typically, the identified peptide clusters comprised the previously-reported T cell epitopes of Ole e 1, consistent with an in silico analysis of the T cell epitopes. The results emphasize the importance of the fold on allergen processing, as also reflected by conserved cleavage sites located within the large flexible loop. In silico docking and mass spectrometry results suggest that one of the first Ole e 1 cleavages might occur at positions 107–108. Our results provided kinetic and structural information on endolysosomal processing of Ole e 1-like proteins.
Highlights
Ole e 1-like proteins are relevant elicitors of type I allergy
Though Ole e 1-like proteins are considered relevant allergens, little is known about their immunogenic properties and T cell epitopes
The results emphasize the importance of the fold on allergen processing, as reflected by conserved cleavage sites located within the large flexible loop
Summary
15 allergens belonging to this protein family are officially acknowledged by the WHO/IUIS Allergen Nomenclature Sub-Committee and are listed in the AllFam database [1]. They are exclusively found in pollen, and hallmarks of this protein family are three conserved disulfide bonds and the [EQT]-G-x-V-Y-C-D-[TNP]-C-R consensus pattern. The first three-dimensional structure of an Ole e 1-like protein, Pla l 1 from plantain pollen, was solved, indicating a seven-stranded β-barrel stabilized by three disulfide bonds [2]. A role in cell wall modulation was proposed based on structural homology to proteins known to be involved in such processes [2]
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