5‐Fluorouracil efficacy requires anti‐tumor immunity triggered by cancer‐cell‐intrinsic STING

5‐Fluorouracil (5‐FU) is a widely used chemotherapeutic drug, but the mechanisms underlying 5‐FU efficacy in immunocompetent hosts in vivo remain largely elusive. Through modeling 5‐FU response of murine colon and melanoma tumors, we report that effective reduction of tumor burden by 5‐FU is dependent on anti‐tumor immunity triggered by the activation of cancer‐cell‐intrinsic STING. While the loss of STING does not induce 5‐FU resistance in vitro, effective 5‐FU responsiveness in vivo requires cancer‐cell‐intrinsic cGAS, STING, and subsequent type I interferon (IFN) production, as well as IFN‐sensing by bone‐marrow‐derived cells. In the absence of cancer‐cell‐intrinsic STING, a much higher dose of 5‐FU is needed to reduce tumor burden. 5‐FU treatment leads to increased intratumoral T cells, and T‐cell depletion significantly reduces the efficacy of 5‐FU in vivo. In human colorectal specimens, higher STING expression is associated with better survival and responsiveness to chemotherapy. Our results support a model in which 5‐FU triggers cancer‐cell‐initiated anti‐tumor immunity to reduce tumor burden, and our findings could be harnessed to improve therapeutic effectiveness and toxicity for colon and other cancers.