Dendritic cells (DCs) not only exhibit the unique capacity to evoke primary immune responses, but may also acquire TLR-triggered cytotoxic activity. We and others have previously shown that TLR7/8- and TLR9-stimulated plasmacytoid DCs (pDCs) isolated from human peripheral blood express the effector molecule TRAIL. The exact mechanisms through which pDCs acquire and elicit their cytotoxic activity are still not clear. We now show that in the absence of costimulators, TRAIL induction on pDCs occurs with agonists to intracellular TLRs only and is accompanied by a phenotypic as well as functional maturation, as evidenced by a comparatively superior MLR stimulatory capacity. pDCs acquired TRAIL in an IFN-α/β–dependent fashion and, notably, TRAIL expression on pDCs could be induced by IFN-α stimulation alone. At a functional level, both TLR7/8- (imiquimod [IMQ]) and TLR9-stimulated (CpG2216) pDCs lysed Jurkat T cells in a TRAIL- and cell contact-dependent fashion. More importantly, IFN-α–activated pDCs acquired similar cytotoxic properties, independent of TLR stimulation and maturation. Both IMQ- and IFN-α–activated pDCs could also lyse certain melanoma cell lines in a TRAIL-dependent fashion. Interestingly, suboptimal doses of IMQ and IFN-α exhibited synergistic action, leading to optimal TRAIL expression and melanoma cell lysis by pDCs. Our data imply that tumor immunity in patients receiving adjuvant IMQ and/or IFN-α may involve the active participation of cytotoxic pDCs.
Although glucocorticosteroids (GCSs) have been used for many decades in transplantation and (auto)inflammatory diseases, the exact mechanisms responsible for their immunosuppressive properties are not fully understood. The purpose of this study was to characterize the effects of oral GCSs on the cutaneous immune response. We analyzed, by immunofluorescence staining and quantitative RT-PCR, residual skin biopsy material from a clinical study in which we had used oral GCS as positive control for determining the effects of candidate anti-inflammatory compounds on epicutaneous patch tests of Ni-allergic patients. Expectedly, oral GCS treatment led to a reduction of clinical symptoms and infiltrating leukocytes. Notably, we observed increased numbers of dermal FOXP3+CD25+ T cells and epidermal Langerhans cells (LCs) that were associated with upregulated mRNA expression of TGF-β in lesions of GCS-treated Ni-allergic patients. To investigate this phenomenon further, we exposed purified LCs to GCS. They exhibited, in contrast to GCS-nonexposed LCs, 1) a more immature phenotype, 2) higher intracellular amounts of TGF-β, and 3) increased receptor activator for NF-κB expression, conditions that reportedly favor the expansion of regulatory T cells (Tregs). Indeed, we observed an enhancement of functionally suppressive FOXP3+ T cells when CD3+ cells were incubated with GCS-pretreated LCs. The expansion of Tregs was inhibited by TGF-β blockage alone, and their suppressive activity was neutralized by a combination of anti–TGF-β and anti–IL-10 Abs. Our data show that systemically applied GCSs endow LCs with Treg-promoting properties and thus shed new light on the mechanisms of GCS-mediated immunosuppression.
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