Epigenetically modulated FOXM 1 suppresses dendritic cell maturation in pancreatic cancer and colon cancer

Forkhead box transcription factor M1 ( FOXM 1) is a proliferation‐associated transcription factor involved in tumorigenesis through transcriptional regulation of its target genes in various cells, including dendritic cells ( DC s). Although previous work has shown that FOXM 1 enhances DC maturation in response to house dust mite allergens, it is not known whether FOXM 1 affects DC maturation in the context of tumor‐specific immunity. In this study, we examined the central role of FOXM 1 in regulating bone marrow‐derived dendritic cell ( BMDC ) maturation phenotypes and function in pancreatic cancer and colon cancer. FOXM 1 retarded maturation phenotypes of BMDC s, inhibited promotion of T‐cell proliferation, and decreased interleukin‐12 ( IL ‐12) p70 in tumor‐bearing mice ( TBM ). Notably, FOXM 1 expression was epigenetically regulated by dimethylation on H3 lysine 79 (H3K79me2), a modification present in both tumor cells and BMDC s. Increased H3K79me2 enrichment was observed at the FOXM 1 promoter in both BMDC s from TBM , and in BMDC s from wild‐type mice cultured with tumor‐conditioned medium that mimics the tumor microenvironment ( TME ). Furthermore, inhibition of the H3K79 methyltransferase DOT 1L not only decreased enrichment of H3K79me2, but also downregulated expression of FOXM 1 and partially reversed its immunosuppressive effects on BMDC s. Furthermore, we found that FOXM 1 upregulated transcription of Wnt family number 5A (Wnt5a) in BMDC s in vitro ; we also observed that exogenous Wnt5a expression abrogated BMDC maturation phenotypes by inhibiting FOXM 1 and H3K79me2 modification. Therefore, our results reveal that upregulation of FOXM 1 by H3K79me2 in pancreatic cancer and colon cancer significantly inhibits maturation phenotypes and function of BMDC s through the Wnt5a signaling pathway, and thus provide novel insights into FOXM 1‐based antitumor immunotherapy.