NK cells gain higher IFN-γ competence during terminal differentiation.

NK cells are the main cells of the innate immune system that produce IFN-γ, and they express this cytokine at early stages of maturation in response to cytokine stimulation. Conversely, acquisition of IFN-γ-competence in CD4(+) T helper cells requires a differentiation process from naïve toward type 1 (Th1) cells, which is associated with epigenetic remodeling at the IFNG locus. In the present study, we show that the ability of NK cells to produce IFN-γ in response to activating receptor (actR) engagement is gradually acquired during terminal differentiation and is accompanied by progressively higher NF-κB activation in response to actR triggering. Moreover, during the differentiation process NK cells gradually display increasing expression of IFNG and TBX21 (encoding T-bet) transcripts and demethylation at the IFNG promoter. This study provides new insights in the molecular mechanisms underlying NK-cell ability to express IFN-γ upon actR engagement. Thus, we propose that in order to efficiently produce IFN-γ in response to infected or transformed cells, NK cells gain Th1-like features, such as higher IFN-γ competence and epigenetic remodeling of the IFNG promoter, during their terminal differentiation.

Salivary gland resident APCs are Flt3L- and CCR2-independent macrophage-like cells incapable of cross-presentation.

Cytomegaloviruses (CMVs) disseminate within the human population via mucosal excretions, for example, from the salivary glands (SGs), which represent a privileged site of viral immune evasion and persistence. The murine CMV (MCMV) model has served to identify factors that maintain a unique virus-host relationship in this organ. In contrast to all other organs, the SG is resistant to CD8(+) T-cell mediated control of MCMV replication due to virally induced MHC class I downregulation, which is exceptionally efficient in acinar glandular epithelial cells. Uniquely to the SG, IFN-γ producing CD4(+) T cells are required for virus control. While T-cell responses have been extensively characterized in the SG, the ontogeny and function of APCs in this organ remain to be assessed. Here, we show that macrophage-like cells constitute the population of SG-resident APCs in steady state and during MCMV-induced inflammation in mice. Inflammatory monocytes, monocyte-derived DCs as well as conventional, Flt3L-dependent DCs do not contribute to this population. Despite supporting contact formation to CD4(+) and CD8(+) T cells in principle, SG-resident APCs fail to activate the latter due to their inability to cross-present MCMV-derived antigen.