While STING (STimulator of INterferon Genes) has been shown to be essential for cytosolic DNA-triggered innate immune activation, accumulated evidence obtained from various studies suggested that an intrinsic relevance of STING-associated signaling in tumorigenesis can be observed. Also, several clinical trials using immunostimulatory adjuvants, particularly agonistic as well as non-agonistic ligands for STING, have revealed their therapeutic potential not only as vaccine adjuvants but also as anti-tumor agents. However, cases have also been reported where the involvement of STING shows a protective role in tumor growth. Here we summarize recent findings that have pointed towards the STING pathway as an innate immune sensing mechanism driving type I interferon production in the tumor context. Better understanding of this pathway can guide further development of novel immunotherapeutic strategies in the treatment of cancer.
Keywords: STING; cGAS; cancer immunotherapy; innate immunity; tumorigenesis; type I interferon.