We previously reported that adoptive transfer of in vitro-differentiated ovalbumin (OVA)-specific Th1 and Th2 cells conferred airway inflammation and airway hyperresponsiveness (AHR) to unprimed recipients 13. In atopic asthma, Th2 immune responses might have a critical role in the development of allergen-induced airway eosinophilic inflammation and AHR 14, 15. Therefore,
the suppression of Th2 responses could be a potential target of immunotherapy for atopic asthma. We previously demonstrated that administration of anti-CD44 mAbs inhibits the development of airway inflammation and AHR in an Ascaris suum antigen-induced murine model of pulmonary eosinophilia 16. Furthermore, we reported that Ponatinib solubility dmso treatment with anti-CD44 mAb reduces the number of T1/ST2+CD4+ T cells in the airway of mice immunized and challenged with Dermatophagoides farinae (Derf) 17. Both Th1 and Th2 cells, however, express CD44 and use CD44 for their rolling on, and adhesion to, the intestinal endothelium 18. Recently, Nagarkatti et al.
reported that CD44 deficiency enhances the development of Th2 effectors in response to sheep red blood cells and chicken OVA 12. Thus, the contribution of CD44 to Th1- and Th2-mediated allergic inflammation remains unclear. In the present study, to directly clarify the role of CD44 in the development of asthma, airway inflammation see more and AHR were evaluated in a murine model of Derf-induced allergic asthma using CD44-deficient Exoribonuclease (CD44KO) mice. To further validate the role of CD44 expressed on CD4+ T cells in the induction of airway inflammation and AHR, antigen-sensitized splenic CD4+ T cells from CD44KO mice were transferred into unprimed mice. Finally, to clarify the selective contribution of CD44 among T-cell
subsets, we analyzed the effect of anti-CD44 mAb on the accumulation of in vitro-differentiated OVA-specific Th1 and Th2 cells in the airway in OVA-challenged mice. To investigate the contribution of CD44 in the development of asthma, we evaluated Derf-induced AHR and airway inflammation in the CD44KO mice compared with WT C57BL/6 mice in a murine model of allergic asthma. Two groups of mice were sensitized with either Derf in PBS or PBS alone, by intraperitoneal administration, according to the procedures described in Materials and Methods. AHR was evaluated 24 h after intranasal challenge with Derf by double-flow plethysmography. Derf challenge induced a significant increase in airway reactivity to methacholine in comparison with PBS-treated controls in WT mice (p=0.0002, Fig. 1A). Unlike in WT mice, AHR to methacholine after antigen challenge was not observed in CD44KO mice, and the degree of airway reactivity to methacholine was similar to that of PBS-exposed mice (p=0.5004, Fig. 1A). The number of inflammatory cells in the BALF was evaluated 24 h after intranasal antigen challenge.