IL-27, an IL-12 family member, was initially described as a proinflammatory cytokine. Nevertheless, it also poses anti-inflammatory activity, being involved in suppressing development of TH-17 cells as well as in the induction of inhibitory Tr1 cells. Recent data obtained in mice suggest that it can down-modulate the function of APCs. However, until now, nothing was known about the influence of IL-27 on human DCs. We investigated the effect of IL-27 on in vitro human MoDCs and on ex vivo blood DCs. Our results show that treatment of mDCs with IL-27 led to specific up-regulation of surface expression of several molecules, including B7-H1, in the absence of general DC maturation. Moreover, we demonstrated that IL-27-treated DCs exhibit a reduced capacity to stimulate proliferation and cytokine production of allogeneic T cells as compared with control DCs. Decisively, we identified B7-H1 as a crucial molecule, responsible for suppressive effects of "IL-27 DC" on T cells. Our data demonstrate for the first time that in addition to the dual role of IL-27 in the modulation of T cell activation and differentiation, human IL-27 modulates an immune response through DCs, i.e., by inducing immunosuppressive B7-H1 molecules and reducing the stimulatory potential of DCs.