The human pharmacopeia includes IFN-I 6. Direct effects on malignant or virus-infected cells have been considered the main mechanism for the efficacy of IFN-I in therapy. However, IFN-I directly regulates many immune system cells such as NK cells, DC and B- and T-lymphocytes 7. In mice, IFN-α/β are important enhancers

of CD8+ T-cell responses 8. One contributing factor is DC stimulation 9. However, direct effects of IFN-I on DC seem to be insufficient for CD8+ T-cell priming 8, 10. IFN-I also exerts direct effects on murine CD8+ T cells 4, 10–13. The most definitive report came from Kolumam et al.12 who showed that IFN-I directly targets anti-viral CD8+ T cells in vivo allowing their clonal expansion and differentiation into memory cells. Elegant experiments in mice by the group of Mescher 11 have shown that, in addition to signals Selleckchem MK-2206 via TCR (signal-1) and CD28 (signal-2), naïve CD8+ T cells require a third signal. Signal-3 delivered by IL-12 or IFN-α is PLX-4720 supplier required for expansion, acquisition of effector functions and memory differentiation. cDNA microarray analyses show that IFN-α as a signal-3 regulates critical genes involved in CTL functions

14, providing evidences that IFN-α promotes activation and differentiation of CD8+ T cells by sustaining the expression of key genes through chromatin remodeling. There is very scanty information about the effects of IFN-I on human CD8+ T cells and how IFN-I may alter the response of different CD8+ T-cell subsets. Since IFN-α is frequently prescribed to patients with a variety of medical conditions, it is of great importance to determine whether mouse and human CD8+ T cells respond in the same way to this bio-therapeutic agent. Using good manufacturing practice (GMP)-grade recombinant IFN-α and Beads coated with anti-human CD3 and CD28 mAb 4��8C to mimic type-1 and type-2 signals, we show that IFN-α provides a strong type-3 signal directly to human CD8+ T cells supporting the acquisition of effector functions. Intriguing distinct IFN-α effects on the expansion of human naïve and Ag-experienced CD8+ T cells are described. Magnetically

sorted untouched CD8+CD45RO− cells were stimulated (7 h) with GMP-grade recombinant IFN-α2b or IFN-α5 and their transcriptional profiles were defined by cDNA microarrays (Series GSE17299, deposited in the Gene Expression Omnibus (GEO) database, accession number GSE17302). In total, 195 genes changed at least two-fold by either IFN-α2b or IFN-α5 and 161 genes were regulated in common. Supporting Information Table 1 groups genes by functional pathways. The regulation of several transcripts involved in cell-mediated cytotoxicity [TNFSF10 (also known as TNF-related apoptosis-inducing ligand (TRAIL), FASLG and PRF1], chemotaxis (CXCL10 and CXCL11) and T-cell homeostatic proliferation (IL15RA) were confirmed by quantitative RT-PCR (Table 1A).