TTK inhibition radiosensitizes basal-like breast cancer through impaired homologous recombination
Benjamin C. Chandler, … , Arul Chinnaiyan, Corey Speers
Benjamin C. Chandler, … , Arul Chinnaiyan, Corey Speers
Published January 21, 2020
Citation Information: J Clin Invest. 2020;130(2):958-973. https://doi.org/10.1172/JCI130435.
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Research Article Oncology

TTK inhibition radiosensitizes basal-like breast cancer through impaired homologous recombination

Abstract

Increased rates of locoregional recurrence are observed in patients with basal-like breast cancer (BC) despite the use of radiation therapy (RT); therefore, approaches that result in radiosensitization of basal-like BC are critically needed. Using patients’ tumor gene expression data from 4 independent data sets, we correlated gene expression with recurrence to find genes significantly correlated with early recurrence after RT. The highest-ranked gene, TTK, was most highly expressed in basal-like BC across multiple data sets. Inhibition of TTK by both genetic and pharmacologic methods enhanced radiosensitivity in multiple basal-like cell lines. Radiosensitivity was mediated, at least in part, through persistent DNA damage after treatment with TTK inhibition and RT. Inhibition of TTK impaired homologous recombination (HR) and repair efficiency, but not nonhomologous end-joining, and decreased the formation of Rad51 foci. Reintroduction of wild-type TTK rescued both radioresistance and HR repair efficiency after TTK knockdown; however, reintroduction of kinase-dead TTK did not. In vivo, TTK inhibition combined with RT led to a significant decrease in tumor growth in both heterotopic and orthotopic, including patient-derived xenograft, BC models. These data support the rationale for clinical development of TTK inhibition as a radiosensitizing strategy for patients with basal-like BC, and efforts toward this end are currently underway.

Authors

Benjamin C. Chandler, Leah Moubadder, Cassandra L. Ritter, Meilan Liu, Meleah Cameron, Kari Wilder-Romans, Amanda Zhang, Andrea M. Pesch, Anna R. Michmerhuizen, Nicole Hirsh, Marlie Androsiglio, Tanner Ward, Eric Olsen, Yashar S. Niknafs, Sofia Merajver, Dafydd G. Thomas, Powel H. Brown, Theodore S. Lawrence, Shyam Nyati, Lori J. Pierce, Arul Chinnaiyan, Corey Speers

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Figure 7

Combination treatment of TTK inhibition and RT reduces basal-like BC tumor growth in vivo.

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Combination treatment of TTK inhibition and RT reduces basal-like BC tum...
(A) Model of treatment schedule for in vivo studies. (B) Dox-inducible MDA-MB-231 shTTK cells had decreased tumor growth following a combination of Dox and RT (n = 16) compared with TTK knockdown (n = 15) or RT (n = 16) alone. (C) Combination treatment (RT plus Dox) leads to increased time to tumor tripling in vivo. (D) Immunohistochemistry from shTTK in vivo model depicts success knockdown of TTK after the addition of Dox. Original magnification, ×1 and ×15 (enlarged insets). (E) Average percentage of TTK+ cells across 4 tumors from the shTTK in vivo model, with and without Dox. (F) TTK inhibition using combination treatment of B909 (1 mg/kg) and RT led to decreased tumor growth and (G) increased time to tumor tripling in MDA-MB-231 BC cells (n = 16 tumors per group). (H) In an orthotopic PDX model, combined treatment of B909 (2.5 mg/kg) and RT decreased tumor growth compared with placebo, B909 only, or RT only. (I) Combination treatment with B909 and RT led to increased time to tumor tripling. A 1-way ANOVA with Dunnett’s multiple comparisons test and log-rank (Mantel-Cox) test were used for analyses. Error bars indicate the SEM. **P < 0.01, ***P < 0.001, and ****P < 0.0001.