Finally, inhaled house dust mite extracts have been shown to induce the recruitment to MLNs of FcγRI+ inflammatory type DCs that appeared to be necessary GSI-IX chemical structure and sufficient, as APCs, for the development of Th2-type inflammation. This observation clarifies a controversy regarding the role of DCs versus basophils in Th2 priming [25-27] and suggests that basophils may amplify, rather than induce, Th2 immunity to house dust mite allergen [28]. The observations discussed in the previous section suggest that, in some conditions (when alum is used
as an adjuvant or upon intranasal administration of house dust mite antigen), inflammatory DCs may induce Th2-type immune responses. However, inflammatory DCs also appear to be critical for host resistance in several
infectious models where Th1-type responses are protective. In particular, oral infection with the enteric pathogen Toxoplasma gondii has been shown to provoke the recruitment of CCR2+ inflammatory monocytes, a process that was associated with the control of infection. These inflammatory monocytes homed to the lamina propria where they expressed IL-12, TNF-α, and iNOS, but not CD11c. These observations indirectly suggest that inflammatory monocytes may gain the capacity to trigger Th1 immunity. The analysis of plt mice clearly demonstrated that inflammatory DCs can potently stimulate Th1 responses. These mice display the “paucity of Interleukin-3 receptor lymph node T cell” mutation, that is, deletion of the Ccl19 and Ccl21 genes [29]. Surprisingly, although these mice have strongly reduced migration of MK-8669 cost T cells and DCs, these mice have increased numbers of antigen-specific T cells and increased delayed-type hypersensitivity responses [30]. Nakano et al. reported that the DC-subset composition was altered in plt LNs: the frequency
of CD11bhiGr-1+ inflammatory DCs was higher in resting LNs and increased considerably after immunization or viral infection, as compared with the frequencies in WT mice [30]. These CD11bhiGr-1+ inflammatory DCs produced IL-12p70 upon stimulation in vitro and stimulated T-cell production of IFN-γ; their paucity in CCR2−/− mice correlated with much lower IFN-γ production, suggesting that blood-derived inflammatory DCs were critical for the development of Th1 responses [30]. Using an anti-mouse DC-SIGN mAb to distinguish monocyte-derived DCs from conventional DCs in tissues, Cheong et al. [31] reported that LPS rapidly recruited, to the T-cell area of LNs, DC-SIGN+ cells that were distinct from other DCs and were derived from monocytes. These cells efficiently presented proteins and bacteria captured in vivo to T cells, and had the capacity to induce strong production of IFN-γ and IL-2 by CD4+ T cells in vitro. Iijima et al.