Immunotherapy of allergic processes by toll like receptor agonists

The prevalence of allergies is increasing worldwide, especially allergic asthma that is considere a pulmonary inflammatory syndrome, which in its classic form is associated with the lack of control of T helper cell (Th) 2 activity. Current therapies are mostly symptomatic. However, specific immunotherapy (SIT) is potentially curative. SIT consists of administering the specific allergen repeatedly in increasing doses in order to promote patient desensitization. The present study, using ovalbumin (OVA) as an allergen in an experimental allergic asthma model, investigated prophylactic and therapeutic SIT protocols. During the prophylactic protocol, the animals were sensitized with OVA adsorbed on aluminum hydroxide (Alum) associated with different toll-like receptors (TLR) agonists. The TLR 9 agonist (CpG) was the most efficient in inhibiting allergic sensitization when compared to the other TLR agonists tested. This inhibition mediated by CpG of the development of the allergic lung inflammation was dependent on the IL-10 molecule and the MyD88 signaling in dendritic cells. In addition, knowing that the therapeutic SIT, administered by the subcutaneous route is capable of triggering an anaphylactic reaction, we encapsulated OVA in 1,2-dioleoyl-3-trimethylammonium sulphate (DOTAP), a cationic liposome, in order to increase the safety of the formulation and in parallel potentiate the effect of CpG. The results showed that OVA encapsulation reduced the cutaneous and systemic anaphylactic reaction induced by this allergen. We also verified that SIT with the allergen and CpG encapsulated in DOTAP (OVA&#43 CpG/DOTAP or BT&#43CpG/DOTAP) promotes a significant inhibition of lung allergic inflammation and Total IgE production. This inhibition of lung inflammation was associated with increased production of IL-10 but not of IFN-g in the bronchoalveolar lavage (BAL). Notably, the inhibitory therapeutic effect of OVA&#43CpG/DOTAP was abrogate in animals deficient in the MyD88 or IL-10 or IFN-g molecules. We found that therapeutic SIT was also dependent on MyD88 signaling on dendritic cells. In addition, when we used animals reconstituted with cells from allergic donor animals, we found that the therapeutic effect of SIT was not found in animals reconstituted with cells from IFN-gKO animals, and that animals reconstituted with IL-10KO animal cells had increased IL -10 in the BAL. The transfer of bone marrow cells from C57BL/6 (WT) animals but not from IFN-gKO animals treated with OVA&#43CpG/DOTAP was able to reverse the lung allergic inflammation of WT animals and induce the increase of IL-10 in the BAL. These results contribute to the elucidation of the mechanisms involved in the anti-inflammatory effect of the SIT and potential uses of CpG and DOTAP in allergic processes. (AU)