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Epicutanoeus immunotherapy as a novel prophylactic and therapeutic strategy for birch pollen allergy
(2014)
The development of a convenient, effective and safe allergen-specific immunotherapy (SIT) for birch pollen allergy, one of the most prevalent allergic diseases in Northern Europe, North America and Northern Japan, is of crucial importance. Epicutaneous immunotherapy (EPIT) has gained attention as a safe and non-invasive alternative for subcutaneous immunotherapy, a conventional SIT. However, clinical studies showed a limited effcacy of EPIT, indicating the necessity of improvement of the treatment regime. In this study, we hypothesized that a combination of a hypoallergen with an appropriate adjuvant could be a strategy to improve EPIT. To verify this hypothesis, we aimed at investigating the efficacy of epicutaneous treatment with rBet v 1, the major birch pollen allergen, plus Toll-like receptor (TLR) agonists for prophylaxis and therapy of birch pollen allergy using a murine model of birch pollen-induced allergic asthma. Furthermore, the efficacy of rBet v 1B2, a hypoallergenic variant of Bet v 1, as a therapeutic allergen in EPI was pre-clinically investigated. TLRs recognize conserved microbial molecules (like PAMPs), and are known to promote the counter-regulation of TH2 responses by the induction of TH1-type and/or regulatory cytokines by immune cells. The hypoallergen Bet v 1B2 is a folding-variant of the wild-type allergen rBet v 1 with reduced allergenicity, but retained T-cell immunogenicity. The low allergenicity, could allow the application of hypoallergens in higher doses, and therefore provide a safer and more effective treatment to regulate T-cell immune responses. First, the expression and purification of recombinant Bet v 1 and Bet v 1B2 was optimized. Compared to natural proteins, recombinant proteins offer the possibility to use well-defined molecules with a consistent pharmaceutical quality. Using optimal Escherichia coli expression strains in combination with immobilized metal chelate affinity chromatography (IMAC) and size exclusion chromatography (SEC), we successfully prepared a large amount of rBet v 1 and rBet v 1B2 with a high purity. The allergenic potency of rBet v 1 and the hypoallergenic characteristics of rBet v 1B2 were confirmed by measurement of IgE reactivity and mediator release capacity using ELISA and basophil activation tests, respectively. In a second part, a murine model of birch pollen-induced allergic asthma was established. It was shown that intraperetoneal sensitization with an optimal dose of rBet v 1 and intranasal challenge with birch pollen extract induced elevated IgE levels, airway eosinophilia and pulmonary inflammation in BALB/c mice. The clinical features are comparable to those in patients with allergic asthma, indicating that sensitized and challenged mice could be used for a pre-clinical study to assess the efficacy of the treatment for birch pollen allergy. Next, we investigated the adjuvant effects of Polyadenylic:polyuridylic acid (Poly(A:U)), a TLR3 agonist, and R848 (resiquimod), a TLR7 agonist, in prophylactic EPI with rBet v 1 to intervene with birch pollen allergy. Here, we hypothesized that TLR3 and TLR7 could be possible target receptors to induce adjuvant effects in EPI, since these receptors are expressed in Langerhans cells and dermal dendritic cells, persistent antigen presenting cells in the cutaneous tissues. BALB/c mice received EPI with rBet v 1 alone, or plus Poly(A:U), or R848 on their depilated back using patches. Mice treated epicutaneously were then sensitized with rBet v 1 plus ALUM and intranasally challenged with birch pollen extract. We found that prophylactic EPI with rBet v 1 plus R848 inhibited the production of Bet v 1-specific IgE antibodies in sensitization, suppressed pulmonary inflammation and airway hyperreactivity upon challenge. In contrast to R848, no adjuvant effect of Poly(A:U) on suppression of asthmatic features was observed. Our results indicated that R848, but not Poly(A:U), could be a potential adjuvant for prophylactic EPI of birch pollen induced allergic asthma. Finally, the therapeutic potency of EPI with rBet v 1, or rBet v 1B2 alone, or plus R848 was assessed. After sensitization and challenge, mice received therapeutic EPI with rBet v 1 alone, or plus R848, and re-challenge with birch pollen extract. We found that therapeutic treatment with Bet v 1B2 reduced established Bet v 1-specific IgE antibodies, pulmonary inflammation and airway hyperreactivity upon re-challenge. Therapeutic treatment with the recombinant wild-type allergen does not influence these key characteristics of allergic asthma. In contrast to the findings in the prophylactic treatment with rBet v 1 plus R848,no therapeutic benefit was found upon combination with R848. This could be due to the high number of treatment days. Reduction of this number may lead to a beneficial effect. However, these findings indicate that Bet v 1B2 could be a potential therapeutic agent for the treatment of established birch pollen induced allergic asthma. In conclusion, this study demonstrates for the first time that prophylactic EPI with the recombinant form of Bet v 1 in combination with R848 could prevent and suppress asthmatic features in an established birch pollen allergy. Not only therapeutic, but also prophylactic applications of EPI could be of importance to prevent allergic sensitization, considering the high prevalence of allergic diseases. R848 could be a potential adjuvant for enhancing the prophylactic potential of EPI for the treatment of birch pollen allergy. Furthermore, the beneficial use of the hypoallergen Bet v 1B2 in therapeutic EPI was demonstrated by intervention of established asthmatic features. In the future, a combination of hypoallergens alone or together with adjuvants in EPIT could lead to a more convenient and effective therapeutic treatment of established birch pollen induced allergic asthma.