Precision medicine has drastically changed cancer treatment strategies including KRAS-mutant cancers which have been undruggable for decades. While intrinsic or acquired treatment resistance remains unresolved in many cases, epigenome-targeted therapy may be an option to overcome. We recently discovered the effectiveness of blocking small ubiquitin-like modifier (SUMO) signaling cascade (SUMOylation) in MYC-expressing KRAS-mutant cancer cells using a SUMO-activating enzyme E inhibitor TAK-981 that results in SUMOylation inhibition. Interestingly, TAK-981 promoted the degradation of MYC via the ubiquitin-proteasome system. Moreover, combination therapy with TAK-981 and MEK inhibitor trametinib remarkably regressed xenografted KRAS-mutant tumors by accumulating DNA damage and inducing apoptosis. Whereas our recent study revealed immune-independent antitumor efficacy, we evaluated the immune responses of cancer cells and immune cells in this study. We found that TAK-981-induced MYC downregulation promoted the activation of STING followed by Stat1 and MHC class I in KRAS-mutant cancer cells. Activation of dendritic cells or T cells treated with TAK-981 was also verified by upregulated activation markers in dendritic cells or skew-toward effector-like phenotypes in T cells. Furthermore, the enhanced immune-dependent antitumor efficacy of the combination therapy with TAK-981 and trametinib was confirmed by infiltration of immune cells into tumor tissues and immunodepleting-test using immunodepleting antibodies in syngeneic immunocompetent mouse models. Together with our recent study and here, the findings support that combination inhibition of SUMOylation and MEK comprehensively conquers MYC-expressing KRAS-mutant cancers by both immune-dependent and immune-independent antitumor responses.
Keywords: Immune response; KRAS; MEK; MYC; SUMOylation; TAK-981.
© 2024. The Author(s).