In this study, we explored the initiation and regulation mechanism of antigen-specific CTL responses induced by a novel cancer vaccine containing recombinant human mucin1-maltose-binding protein fusion protein (MUC1-MBP) and CpG2006. First, DC subsets were analyzed by flow cytometry in vivo and in vitro. After vaccination, the proportion and maturation of cDC1s in mouse dLNs were upregulated, and the proportion of cDC2s and pDCs was also increased. In vitro studies on vaccine components showed similar changs, which may mainly depend on the activity of CpG2006. Subsequently, the regulatory effect of type Ⅰ IFN signaling on CTL triggering was confirmed through co-culture of sorted DC subsets and T cells and subsequent CTL activity experiments. CTL killing activity exhibited a 61.9% decrease once type I IFN signaling was blocked. Further analysis showed that blocking IFNAR1 on cDC1s but not on CTLs resulted in significant defects in CTL killing activity. Collectively, M-M combined with CpG2006 vaccine promotes MUC1-specific CTL responses by increasing the cDC1 activity in mice, and this is mainly regulated by type Ⅰ IFN signaling in cDC1s.
Keywords: Cancer vaccine; Conventional type 1 dendritic cell; CpG2006; MUC1-MBP; Type Ⅰ interferon.
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