Background: Innate properties that enhance immune responses might increase the propensity of certain allergens to induce allergic sensitization. Either a direct adjuvant effect or the increased immune response to the allergen could then increase allergic responses to bystander antigens. Here, we report on a model that does not use Th2-skewing adjuvants and yet achieves sensitization solely via the nasal mucosa. Methods: Animals were sensitized with either enzymatically active, inactive or non-activated cysteine proteases via the nasal mucosa. Following two sensitization phases, mice were challenged with a higher dose of allergen. For bystander sensitization, mice received recombinant Der p 2 at sensitization in conjunction with the cysteine protease and were challenged with rDer p 2 alone. Sensitization was determined by measuring allergen-specific antibody responses and cytokine and cellular infiltrates into the lungs following challenge. Results: Sensitization for Th2-type lung hypersensitivity for both the cysteine protease and bystander antigens was readily achieved and both were dependent on the proteolytic activity of the allergen. Bystander adjuvant activity was demonstrated for mice that were low IgE responders to the cysteine protease, showing a response independent from the immune response to the enhancing cysteine protease. Airway hyperreactivity was induced in the susceptible NOD strain of mouse, and mice subjected to prolonged administration of papain maintained the ability to produce lung hypersensitivity and Th2-type responses. Conclusions: These experiments demonstrate that cysteine protease activity at low doses can be an adjuvant for respiratory Th2 responses for themselves and bystander antigens in the absence of another adjuvant.
Background Infants who develop house dust mite (HDM) allergy and HDM-sensitised children with severe persistent asthma have low antibody responses to the P6 antigen of Haemophilus influenzae. Objective To measure the development of antibody to two ubiquitous bacteria of the respiratory mucosa in a prospective birth cohort at high risk of allergic disease and to assess which responses are associated with asthma and atopy. Methods IgG1 and IgG4 antibody to H influenzae (P4 and P6) and Streptoccocus pneumoniae (PspA and PspC) surface antigens was measured in yearly blood samples of children aged 1e5 years. IgE to the P6 antigen was examined for the 5-year group. The children were stratified based on HDM sensitisation and asthma at 5 years of age. Results HDM-sensitised children had lower IgG1 antibody titres to the bacterial antigens, and early responses (<3 years and before the development of HDM sensitisation and asthma) corrected for multiple antigens were significantly reduced for P4, P6 and PspC (p¼0.008, p¼0.004 and p¼0.028, respectively). Similar associations with asthma were also found (p¼0.008, p¼0.004 and p¼0.032 for P4, P6 and PspC, respectively). The IgG4 antibody titre and prevalence were similar in both HDM-sensitised and non-sensitised groups, but sensitised children had a slower downregulation of the IgG4 response. Children with asthma (27/145 at 5 years) had lower anti-P6 IgE responses (p<0.05). Conclusions HDM-sensitised children have early defective antibody responses to bacteria that are associated with asthma. Surprisingly, antibacterial IgE was associated with a reduced risk for asthma.
Background: The prevalence of IgE binding to the group 15 and 18 house dust mite (HDM) allergens of the Dermatophagoides species is reported to be >50% and they are the major allergens of HDM-sensitised dogs. The objective was to quantitate the IgE titres to Der p 15 and Der p 18 and evaluate their importance in human HDM sensitisation compared to the known major and mid-tier allergens. Methods: Der p 15 and Der p 18 were produced in Pichia pastoris, and their structure validated by circular dichroism. IgE binding was measured in 37 Australian HDM-allergic adults using a quantitative DELFIA™ assay. Results: The prevalence of IgE titres to Der p 15 and Der p 18 >0.1 ng/ml was low (38%) and only one subject had a titre >10 ng/ml to either allergen. The mean anti-Der p 15 and Der p 18 titres were 1.2 and 2.6 ng/ml, respectively, i.e. approximately 10- to 20-fold lower than the response to the major Der p 1 and Der p 2 allergens (p < 0.001). The IgE responses to Der p 15 and Der p 18 were lower than the mid-tier allergens Der p 5 and Der p 7 and although they correlated with each other, they did not correlate with titres to either the major or mid-tier allergens. Conclusions: Sensitisation to Der p 15 and Der p 18 makes a minor contribution to anti-HDM IgE titres, and the titres do not correlate with the size of the response to the major allergens.
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