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TTK inhibitor OSU13 promotes immunotherapy responses by activating tumor STING
Vijaya Bharti, Amrendra Kumar, Yinchong Wang, Nikhil Roychowdhury, Daniel de Lima Bellan, Beimnet B. Kassaye, Reese Watkins, Marina Capece, Catherine G. Chung, Gerard Hilinski, Anna E. Vilgelm
Vijaya Bharti, Amrendra Kumar, Yinchong Wang, Nikhil Roychowdhury, Daniel de Lima Bellan, Beimnet B. Kassaye, Reese Watkins, Marina Capece, Catherine G. Chung, Gerard Hilinski, Anna E. Vilgelm
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Research Article Oncology

TTK inhibitor OSU13 promotes immunotherapy responses by activating tumor STING

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Abstract

TTK spindle assembly checkpoint kinase is an emerging cancer target. This preclinical study explored the antitumor mechanism of TTK inhibitor OSU13 to define a strategy for clinical development. We observed prominent antitumor activity of OSU13 in melanoma, colon and breast cancer cells, organoids derived from patients with melanoma, and mice bearing colon tumors associated with G2 cell cycle arrest, senescence, and apoptosis. OSU13-treated cells displayed DNA damage and micronuclei that triggered the cytosolic DNA-sensing cGAS/STING pathway. STING was required for the induction of several proteins involved in T cell recruitment and activity. Tumors from OSU13-treated mice showed an increased proportion of T and NK cells and evidence of PD-1/PD-L1 immune checkpoint activation. Combining a low-toxicity dose of OSU13 with anti–PD-1 checkpoint blockade resulted in prominent STING- and CD8+ T cell–dependent tumor inhibition and improved survival. These findings provide a rationale for utilizing TTK inhibitors in combination with immunotherapy in STING-proficient tumors.

Authors

Vijaya Bharti, Amrendra Kumar, Yinchong Wang, Nikhil Roychowdhury, Daniel de Lima Bellan, Beimnet B. Kassaye, Reese Watkins, Marina Capece, Catherine G. Chung, Gerard Hilinski, Anna E. Vilgelm

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Figure 3

OSU13 induces inflammatory chemokines and transcription factors in a STING-dependent manner.

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OSU13 induces inflammatory chemokines and transcription factors in a STI...
(A) Results of ELISA testing for secretion of CCL5 in the conditioned media from cancer cells treated with indicated concentrations of OSU13 for 5 days. Statistical analysis using 1-way ANOVA with Dunnett’s multiple comparisons test. (B) CCL5 ELISA results performed on tumor cell–conditioned media collected at 1, 3, 5, and 7 days of treatment with 0.3 or 1 μM OSU13 or vehicle. (C and D) Same as A and B, except secretion of CXCL10 was tested. (E) Real-time PCR of CCL5 and CXCL10 mRNA expression in MCF7 cells treated with 1 μM OSU13 or vehicle for 5 days. (F) Induction of IRF and NF-κB reporters in HCT116 dual cells treated with indicated concentrations of OSU13 for 5 days. N = 9 replicates per condition. Statistical analysis using 1-way ANOVA with Dunnett’s multiple comparisons test. (G) Representative images of B16F0 (top) and A375 cells (bottom) treated with 1 μM OSU13 or vehicle for 3 days. Micronuclei visualized with pico green and nuclear DNA were labeled with DAPI. White arrows indicate OSU13-treated cells with micronuclei. Vehicle-treated micronuclei– cells are included for comparison. Scale bar: 15 μm. (H) Quantification of micronuclei per cell from experiment described in D. N = 9 microscopic fields per condition. Statistics using t test. (I) Western blot analysis of STAT1 Y701 phosphorylation and TBK S172 phosphorylation in MCF7 cells treated with 1 μM OSU13 or vehicle for 5 days. (J) Induction of IRF/IFN reporter in STING WT and -KO B16-Blue IRF reporter cells treated with 1 μM of OSU13 for 5 days. N = 3 replicates. Statistical analysis using ANOVA with Tukey’s multiple comparison test. (K) ELISA analysis of CCL5 secretion in STING WT and -KO MC38 cells treated with 1 μM OSU13 for 3 days. N = 6 replicates. Statistical analysis using 2-way ANOVA with Šidák’s multiple comparisons test. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.

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