BACKGROUND: Atopic individuals are predisposed to mounting vigorous T(H)2-type immune responses to environmental allergens. The skin is often the first organ that manifests allergic disease and may provide an early entry point for antigen sensitization. OBJECTIVE: We sought to determine whether epicutaneous exposure to the aeroallergen Aspergillus fumigatus induces nasal allergic responses. Furthermore, we aimed to examine the mechanism involved. METHODS: Wild-type and signal transducer and activator of transcription 6 (STAT6)-deficient mice were exposed to epicutaneous A fumigatus and control antigen ovalbumin. Nasal inflammation and responsiveness to methacholine were monitored. RESULTS: Exposure to epicutaneous A fumigatus antigen induced a marked atopic dermatitis-like phenotype in a manner significantly more efficient than epicutaneous ovalbumin. A single A fumigatus intranasal challenge induced clinical nasal responses and hyperresponsiveness to methacholine in the nose as manifested by nasal symptoms, accompanied by allergic airway and nasal inflammation. Mechanistic analysis using gene-targeted mice revealed that the clinical nasal responses and hyperresponsiveness were STAT6-dependent. Although STAT6 was required for changes in nasal responses, it was not required for epicutaneous pathology except eosinophilia. CONCLUSION: Epicutaneous exposure to the aeroallergen A fumigatus potently primes for STAT6-dependent nasal responses. These results draw attention to the cooperative interaction between the nasal tract and skin. CLINICAL IMPLICATIONS: The skin is a potent site for antigen sensitization in the development of experimental allergic rhinitis.
BACKGROUND: Atopic individuals are predisposed to mounting vigorous T(H)2-type immune responses to environmental allergens. The skin is often the first organ that manifests allergic disease and may provide an early entry point for antigen sensitization. OBJECTIVE: We sought to determine whether epicutaneous exposure to the aeroallergen Aspergillus fumigatus induces nasal allergic responses. Furthermore, we aimed to examine the mechanism involved. METHODS: Wild-type and signal transducer and activator of transcription 6 (STAT6)-deficient mice were exposed to epicutaneous A fumigatus and control antigen ovalbumin. Nasal inflammation and responsiveness to methacholine were monitored. RESULTS: Exposure to epicutaneous A fumigatus antigen induced a marked atopic dermatitis-like phenotype in a manner significantly more efficient than epicutaneous ovalbumin. A single A fumigatus intranasal challenge induced clinical nasal responses and hyperresponsiveness to methacholine in the nose as manifested by nasal symptoms, accompanied by allergic airway and nasal inflammation. Mechanistic analysis using gene-targeted mice revealed that the clinical nasal responses and hyperresponsiveness were STAT6-dependent. Although STAT6 was required for changes in nasal responses, it was not required for epicutaneous pathology except eosinophilia. CONCLUSION: Epicutaneous exposure to the aeroallergen A fumigatus potently primes for STAT6-dependent nasal responses. These results draw attention to the cooperative interaction between the nasal tract and skin. CLINICAL IMPLICATIONS: The skin is a potent site for antigen sensitization in the development of experimental allergic rhinitis.
Authors: Min-Hee Oh; Sun Young Oh; Jinho Yu; Allen C Myers; Warren J Leonard; Yong Jun Liu; Zhou Zhu; Tao Zheng Journal: J Immunol Date: 2011-05-16 Impact factor: 5.422
Authors: Carine Blanchard; Emily M Stucke; Karen Burwinkel; Julie M Caldwell; Margaret H Collins; Annette Ahrens; Bridget K Buckmeier; Sean C Jameson; Allison Greenberg; Ajay Kaul; James P Franciosi; Jonathan P Kushner; Lisa J Martin; Philip E Putnam; J Pablo Abonia; Suzanne I Wells; Marc E Rothenberg Journal: J Immunol Date: 2010-03-05 Impact factor: 5.422