Therapeutic targeting of TANK-binding kinase signaling towards anticancer drug development: Challenges and opportunities.

TANK-binding kinase 1 (TBK1) plays a fundamental role in regulating the cellular responses and controlling several signaling cascades. It regulates inflammatory, interferon, NF-κB, autophagy, and Akt pathways. Post-translational modifications (PTM) of TBK1 control its action and subsequent cellular signaling. The dysregulation of the TBK1 pathway is correlated to many pathophysiological conditions, including cancer, that implicates the promising therapeutic advantage for targeting TBK1. The present study summarizes current updates on the molecular mechanisms and cancer-inducing roles of TBK1. Designed inhibitors of TBK1 are considered a potential therapeutic agent for several diseases, including cancer. Data from pre-clinical tumor models recommend that the targeting of TBK1 could be an attractive strategy for anti-tumor therapy. This review further highlighted the therapeutic potential of potent and selective TBK1 inhibitors, including Amlexanox, Compound II, BX795, MRT67307, SR8185 AZ13102909, CYT387, GSK8612, BAY985, and Domainex. These inhibitors may be implicated to facilitate therapeutic management of cancer and TBK1-associated diseases in the future. • TBK1 is linked with activating mTOR/Akt and S6K signaling and stimulates cancer growth and survival. • TBK1 is considered an attractive drug target for the development of anticancer therapy. • The present study summarizes the molecular mechanisms of TBK1-signaling in cancer development. • Several potent and selective TBK1-inhibitors are showing great anticancer potential. [ABSTRACT FROM AUTHOR]