Crystal structure of the dog lipocalin allergen Can f 2: implications for cross-reactivity to the cat allergen Fel d 4.

The dog lipocalin allergen Can f 2 is an important cause of allergic sensitization in humans worldwide. Here, the first crystal structure of recombinant rCan f 2 at 1.45 A resolution displays a classical lipocalin fold with a conserved Gly-Xaa-Trp motif, in which Trp19 stabilizes the overall topology of the monomeric rCan f 2. Phe38 and Tyr84 localized on the L1 and L5 loops, respectively, control access to the highly hydrophobic calyx. Although the rCan f 2 calyx is nearly identical with the aero-allergens MUP1, Equ c 1 and A2U from mouse, horse and rat, respectively, no IgE cross-reactivity was found using sera from five mono-sensitized subjects. However, clear IgE cross-reactivity was demonstrated between Can f 2 and the cat allergen Fel d 4, although they share less than 22% sequence identity. This suggests a role for these allergens in co-sensitization between cat- and dog-allergic patients.

Purification and characterization of the major oak pollen allergen Que a 1 for component-resolved diagnostics using ImmunoCAP.

BACKGROUND: The aim of this study was to purify the major oak pollen allergen, Que a 1, to perform biochemical and immunological characterization of the allergen and to develop an experimental native (n) Que a 1 ImmunoCAP(R). METHODS: Que a 1 was purified from oak pollen extract using affinity chromatography and characterized by SDS-PAGE, two-dimensional (2D) PAGE, mass spectrometry (MS), N-terminal sequencing and specific IgE inhibition on ImmunoCAP. Samples from 16 subjects sensitized to oak pollen were analyzed by ImmunoCAP for IgE reactivity to nQue a 1, and recombinant (r)Bet v 1 and 2 (profilin). They were also studied in IgE immunoblotting. RESULTS: The purity of nQue a 1 was >95%, since a single band was observed on silver-stained SDS-PAGE. The identity was verified by MS analysis, and 2D-PAGE revealed several isoforms. The obtained N-terminal sequence of 50-amino-acid residues from nQue a 1 showed a 58-74% sequence identity with other pathogenesis-related class 10 allergens. Specific IgE inhibition verified a preserved immunoreactivity (70-92% inhibition). All subjects were sensitized to Que a 1 and Bet v 1, and two to profilin. The IgE antibody levels to nQue a 1 were generally lower than to rBet v 1. The obtained results correlated well with IgE immunoblotting. CONCLUSIONS: We present a highly purified and extensively characterized preparation of nQue a 1. Que a 1 seems to be an allergen of equal importance in oak pollen as Bet v 1 in birch pollen. An nQue a 1 ImmunoCAP will be useful in component-resolved diagnostics.