Carrier-bound, nonallergenic Ole e 1 peptides for vaccination against olive pollen allergy.

BACKGROUND: Trees of the family Oleaceae (olive and ash) are important allergen sources in Mediterranean countries, Northern and Central Europe, and North America. The major olive pollen allergen Ole e 1 represents the majority of allergenic epitopes in olive pollen and cross-reacts with Fra e 1, the major ash pollen allergen. OBJECTIVE: We sought to develop a safe vaccine for the treatment of Oleaceae pollen allergy. METHODS: We synthesized 5 peptides ranging from 32 to 36 amino acids, which covered the whole sequence of Ole e 1. The IgE and T-cell reactivity of the peptides was compared with that of Ole e 1 by means of dot blot experiments, as well as ELISA, and in proliferation assays. Rabbits were immunized with non-IgE-reactive, keyhole limpet hemocyanin-coupled peptides or Ole e 1. The reactivity of the IgG antibodies with Ole e 1 and their ability to inhibit IgE binding to nOle e 1 was evaluated by means of ELISA. RESULTS: Only the C-terminal Ole e 1 peptide showed IgE binding, whereas the other peptides were nonallergenic. Immunization of rabbits with Ole e 1-derived peptides bound to the carrier molecule keyhole limpet hemocyanin induced in rabbits the production of Ole e 1-specific IgG antibodies, which cross-reacted with Fra e 1, and inhibited olive and ash pollen-sensitized patients' IgE binding to Ole e 1. CONCLUSION: Two non-IgE-binding peptides with low T-cell reactivity from the N-terminus of Ole e 1 were identified that might represent safe vaccine candidates for immunotherapy of Oleaceae pollen allergy.

Skin prick test extracts for dog allergy diagnosis show considerable variations regarding the content of major and minor dog allergens.

BACKGROUND: Commercial skin prick test (SPT) extracts used for the diagnosis of dog allergy are prepared by extracting allergens from natural sources, e.g. dog hair and dander. Due to different starting material and extraction methods used, it is likely that extracts differ regarding their allergen contents. METHODS: The total protein content and composition of dog SPT extracts from 5 European manufacturers were compared by silver-stained SDS-PAGE. Specific antibody probes were generated to detect major and minor allergens in each extract by immunoblotting. Additionally, sera of patients suffering from dog allergy were used to detect dog allergens in SPT extracts. RESULTS: SPT extracts showed a 20-fold variation regarding the total protein content. The contents of the major dog allergen Can f 1 and of Can f 2 varied considerably between the extracts. In one of the extracts, neither Can f 1 nor Can f 2 could be detected by immunoblotting. The contents of the minor dog allergen Can f 3, albumin, also showed great variability. In one of the dog SPT extracts, the presence of human serum albumin (HSA) was detected with HSA-specific antibodies. CONCLUSION: The observed variability of commercial dog SPT extracts regarding their allergen contents likely has a negative influence on the accuracy of diagnosis of dog allergy.

Disruption of allergenic activity of the major grass pollen allergen Phl p 2 by reassembly as a mosaic protein.

The recognition of conformational epitopes on respiratory allergens by IgE Abs is a key event in allergic inflammation. We report a molecular strategy for the conversion of allergens into vaccines with reduced allergenic activity, which is based on the reassembly of non-IgE-reactive fragments in the form of mosaic proteins. This evolution process is exemplified for timothy grass pollen-derived Phl p 2, a major allergen for more than 200 million allergic patients. In a first step, the allergen was disrupted into peptide fragments lacking IgE reactivity. cDNAs coding for these peptides were reassembled in altered order and expressed as a recombinant mosaic molecule. The mosaic molecule had lost the three-dimensional structure, the IgE reactivity, and allergenic activity of the wild-type allergen, but it induced high levels of allergen-specific IgG Abs upon immunization. These IgG Abs crossreacted with group 2 allergens from other grass species and inhibited allergic patients' IgE binding to the wild-type allergen. The mosaic strategy is a general strategy for the reduction of allergenic activity of protein allergens and can be used to convert harmful allergens into safe vaccines.

Analysis of epitope-specific immune responses induced by vaccination with structurally folded and unfolded recombinant Bet v 1 allergen derivatives in man.

Previously, we have constructed recombinant derivatives of the major birch pollen allergen, Bet v 1, with a more than 100-fold reduced ability to induce IgE-mediated allergic reactions. These derivatives differed from each other because the two recombinant Bet v 1 fragments represented unfolded molecules whereas the recombinant trimer resembled most of the structural fold of the Bet v 1 allergen. In this study, we analyzed the Ab (IgE, IgG subclass, IgA, IgM) response to Bet v 1, recombinant and synthetic Bet v 1-derived peptides in birch pollen allergic patients who had been vaccinated with the derivatives or adjuvant alone. Furthermore, we studied the induction of IgE-mediated skin responses in these patients using Bet v 1 and Bet v 1 fragments. Both types of vaccines induced a comparable IgG1 and IgG4 response against new sequential epitopes which overlap with the conformational IgE epitopes of Bet v 1. This response was 4- to 5-fold higher than that induced by immunotherapy with birch pollen extract. Trimer more than fragments induced also IgE responses against new epitopes and a transient increase in skin sensitivity to the fragments at the beginning of therapy. However, skin reactions to Bet v 1 tended to decrease one year after treatment in both actively treated groups. We demonstrate that vaccination with folded and unfolded recombinant allergen derivatives induces IgG Abs against new epitopes. These data may be important for the development of therapeutic as well as prophylactic vaccines based on recombinant allergens.

Intranasal tolerance induction with polypeptides derived from 3 noncross-reactive major aeroallergens prevents allergic polysensitization in mice.

BACKGROUND: Specific immunotherapy is less effective in patients with multiple allergic sensitizations compared with monosensitized patients. OBJECTIVE: We therefore established a mouse model of polysensitization to the major birch and timothy grass pollen allergens to test whether allergic polysensitization can be prevented by multiple allergen application via the mucosal route. METHODS: Female BALB/c mice were immunized intraperitoneally with recombinant (r) Bet v 1, rPhl p 1, and rPhl p 5. For intranasal tolerance induction, a mixture of the complete allergens was compared with allergen-derived immunodominant peptides applied either as a mixture or as a synthetic hybrid peptide composed of the T-cell epitopes of the 3 allergens. RESULTS: Intranasal application of the mixture of the complete allergen molecules did not prevent polysensitization to the same allergens. In contrast, pretreatment with a mixture of the immunodominant peptides or the hybrid peptide led to significantly reduced allergen-specific IgE responses in sera, IL-4 production in vitro, and suppressed airway inflammation. TGF-beta mRNA levels did not change, and IL-10 production was significantly suppressed after the pretreatment. The fact that the reduction of IL-10 was not abrogated after IL-10 receptor neutralization and that tolerance was not transferable with splenocytes indicates that the suppression of T(H)2 responses in polysensitized mice might not be mediated by immunosuppressive cytokines. CONCLUSION: Our study demonstrates that it is possible to suppress allergic immune responses simultaneously to several clinical important allergens. Thus, mucosal coapplication of selected peptides/hybrid peptides could be the basis of a mucosal polyvalent vaccine to prevent multiple sensitivities in atopic patients.

Induction of autoallergy with an environmental allergen mimicking a self protein in a murine model of experimental allergic asthma.

BACKGROUND: Allergy and autoimmunity are traditionally considered as 2 exclusive entities related to the development of either TH2-dominated or TH1-dominated immune responses. OBJECTIVE: This study investigated whether allergic sensitization to a foreign antigen mimicking a self protein can induce allergy accompanied by an autoimmune response. METHODS: BALB/c mice were sensitized to human alpha-NAC, an evolutionary conserved component of the nascent polypeptide-associated complex, recently identified as an IgE-reactive autoantigen in patients with severe forms of atopy. By using nitrocellulose-blotted murine lung and skin extracts, purified recombinant human as well as murine alpha-NAC and murine alpha-NAC-derived synthetic peptides, the IgE, IgG1, and IgG2a antibody responses were measured, and their epitope specificity was mapped. RESULTS: Cross-reactivity of IgE and IgG antibodies with murine alpha-NAC was found in mice sensitized with human alpha-NAC. The biological relevance of the antibody response was demonstrated by the induction of immediate skin reactions in sensitized mice and by the fact that skin sensitivity could be passively transferred with serum to naive mice. Antigen challenge of sensitized mice resulted in airway inflammation accompanied by eosinophil and neutrophil accumulation, airway hyperresponsiveness to methacholine and perivasculitis of lung veins. CONCLUSION: Our data demonstrate that sensitization with a foreign antigen mimicking self can induce an allergic immune response of a mixed TH2 and TH1 profile that is associated with autoreactivity. Cross-sensitization to self may represent an important pathomechanism involved in the maintenance of severe and chronic forms of allergy.