A R R Maia1, J de Man2, U Boon3, A Janssen1, J-Y Song4, M Omerzu5, J G Sterrenburg2, M B W Prinsen2, N Willemsen-Seegers2, J A D M de Roos2, A M van Doornmalen2, J C M Uitdehaag2, G J P L Kops6, J Jonkers7, R C Buijsman2, G J R Zaman8, R H Medema9. 1. Division of Cell Biology, The Netherlands Cancer Institute, Amsterdam. 2. Netherlands Translational Research Center B.V., Oss. 3. Division of Molecular Pathology and Cancer Genomics Centre. 4. Division of Experimental Animal Pathology, The Netherlands Cancer Institute, Amsterdam. 5. Department of Medical Oncology. 6. Department of Medical Oncology Department of Cancer Genomics Netherlands, UMC Utrecht, Utrecht, The Netherlands. 7. Division of Molecular Pathology and Cancer Genomics Centre Department of Cancer Genomics Netherlands, UMC Utrecht, Utrecht, The Netherlands. 8. Netherlands Translational Research Center B.V., Oss guido.zaman@ntrc.nl. 9. Division of Cell Biology, The Netherlands Cancer Institute, Amsterdam Department of Cancer Genomics Netherlands, UMC Utrecht, Utrecht, The Netherlands.
Abstract
BACKGROUND: Triple-negative breast cancers (TNBC) are considered the most aggressive type of breast cancer, for which no targeted therapy exists at the moment. These tumors are characterized by having a high degree of chromosome instability and often overexpress the spindle assembly checkpoint kinase TTK. To explore the potential of TTK inhibition as a targeted therapy in TNBC, we developed a highly potent and selective small molecule inhibitor of TTK, NTRC 0066-0. RESULTS AND CONCLUSIONS: The compound is characterized by long residence time on the target and inhibits the proliferation of a wide variety of human cancer cell lines with potency in the same range as marketed cytotoxic agents. In cell lines and in mice, NTRC 0066-0 inhibits the phosphorylation of a TTK substrate and induces chromosome missegregation. NTRC 0066-0 inhibits tumor growth in MDA-MB-231 xenografts as a single agent after oral application. To address the effect of the inhibitor in breast cancer, we used a well-defined mouse model that spontaneously develops breast tumors that share key morphologic and molecular features with human TNBC. Our studies show that combination of NTRC 0066-0 with a therapeutic dose of docetaxel resulted in doubling of mouse survival and extended tumor remission, without toxicity. Furthermore, we observed that treatment efficacy is only achieved upon co-administration of the two compounds, which suggests a synergistic in vivo effect. Therefore, we propose TTK inhibition as a novel therapeutic target for neoadjuvant therapy in TNBC.
BACKGROUND: Triple-negative breast cancers (TNBC) are considered the most aggressive type of breast cancer, for which no targeted therapy exists at the moment. These tumors are characterized by having a high degree of chromosome instability and often overexpress the spindle assembly checkpoint kinase TTK. To explore the potential of TTK inhibition as a targeted therapy in TNBC, we developed a highly potent and selective small molecule inhibitor of TTK, NTRC 0066-0. RESULTS AND CONCLUSIONS: The compound is characterized by long residence time on the target and inhibits the proliferation of a wide variety of humancancer cell lines with potency in the same range as marketed cytotoxic agents. In cell lines and in mice, NTRC 0066-0 inhibits the phosphorylation of a TTK substrate and induces chromosome missegregation. NTRC 0066-0 inhibits tumor growth in MDA-MB-231 xenografts as a single agent after oral application. To address the effect of the inhibitor in breast cancer, we used a well-defined mouse model that spontaneously develops breast tumors that share key morphologic and molecular features with human TNBC. Our studies show that combination of NTRC 0066-0 with a therapeutic dose of docetaxel resulted in doubling of mouse survival and extended tumor remission, without toxicity. Furthermore, we observed that treatment efficacy is only achieved upon co-administration of the two compounds, which suggests a synergistic in vivo effect. Therefore, we propose TTK inhibition as a novel therapeutic target for neoadjuvant therapy in TNBC.
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 Journal: J Clin Invest Date: 2020-02-03 Impact factor: 14.808