Microrna-146a Limits Tumorigenic Il-17-Mediated Inflammation In Colorectal Cancer

Abstract Interleukin-17 (IL-17) is a major inflammatory cytokine implicated in colorectal cancer (CRC) development. However, the mechanisms that control tumorigenic IL-17 signaling remain unclear. Recently, expression changes and polymorphisms in the small non-coding RNA, microRNA-146a (miR-146a), have been associated with clinical outcomes in inflammatory bowel disease and CRC patients. Here, we identified a novel role for miR-146a as a major negative regulator of colonic inflammation and tumorigenesis via modulation of IL-17 responses. MiR-146a-deficient mice are highly susceptible to both colitis-associated and sporadic CRC, and present with enhanced tumorigenic IL-17 signaling. Within myeloid cells, miR-146a targets RIPK2, an intermediate in NOD2 signaling, to limit myeloid cell-derived IL-17-inducing cytokines and restrict colonic IL-17 levels. Accordingly, myeloid cell-specific deletion of miR-146a leads to CRC susceptibility. Moreover, within intestinal epithelial cells (IECs), miR-146a targets TRAF6, an intermediate in IL-17R signaling, to restrict IEC responsiveness to IL-17. MiR-146a within IECs further suppresses CRC by targeting PTGES2, an enzyme for PGE2 synthesis. IEC-specific deletion of miR-146a therefore confers marked CRC susceptibility. Importantly, preclinical administration of miR-146a mimic can ameliorate colonic inflammation and CRC. In conclusion, miR-146a prevents CRC by two interlinked mechanisms: 1) by limiting myeloid cell-mediated inflammatory IL-17 production; and 2) by inhibiting tumorigenic IL-17R signaling in IECs. Overexpression of miR-146a may be a promising therapeutic approach for CRC to limit multiple pathways converging on tumorigenic IL-17 signaling.