PURPOSE: Antimitotic chemotherapy remains a cornerstone of multimodality treatment for locally advanced and metastatic cancers. To identify novel mitosis-specific agents with higher selectivity than approved tubulin-binding agents (taxanes, Vinca alkaloids), we have generated inhibitors of Polo-like kinase 1, a target that functions predominantly in mitosis. EXPERIMENTAL DESIGN: The first compound in this series, suitable for i.v. administration, has entered clinical development. To fully explore the potential of Polo-like kinase 1 inhibition in oncology, we have profiled additional compounds and now describe a novel clinical candidate. RESULTS: BI 6727 is a highly potent (enzyme IC(50) = 0.87 nmol/L, EC(50) = 11-37 nmol/L on a panel of cancer cell lines) and selective dihydropteridinone with distinct properties. First, BI 6727 has a pharmacokinetic profile favoring sustained exposure of tumor tissues with a high volume of distribution and a long terminal half-life in mice (V(ss) = 7.6 L/kg, t(1/2) = 46 h) and rats (V(ss) = 22 L/kg, t(1/2) = 54 h). Second, BI 6727 has physicochemical and pharmacokinetic properties that allow in vivo testing of i.v. as well as oral formulations, adding flexibility to dosing schedules. Finally, BI 6727 shows marked antitumor activity in multiple cancer models, including a model of taxane-resistant colorectal cancer. With oral and i.v. routes of administration, the total weekly dose of BI 6727 is most relevant for efficacy, supporting the use of a variety of well-tolerated dosing schedules. CONCLUSION: These findings warrant further investigation of BI 6727 as a tailored antimitotic agent; clinical studies have been initiated.
PURPOSE: Antimitotic chemotherapy remains a cornerstone of multimodality treatment for locally advanced and metastatic cancers. To identify novel mitosis-specific agents with higher selectivity than approved tubulin-binding agents (taxanes, Vinca alkaloids), we have generated inhibitors of Polo-like kinase 1, a target that functions predominantly in mitosis. EXPERIMENTAL DESIGN: The first compound in this series, suitable for i.v. administration, has entered clinical development. To fully explore the potential of Polo-like kinase 1 inhibition in oncology, we have profiled additional compounds and now describe a novel clinical candidate. RESULTS:BI 6727 is a highly potent (enzyme IC(50) = 0.87 nmol/L, EC(50) = 11-37 nmol/L on a panel of cancer cell lines) and selective dihydropteridinone with distinct properties. First, BI 6727 has a pharmacokinetic profile favoring sustained exposure of tumor tissues with a high volume of distribution and a long terminal half-life in mice (V(ss) = 7.6 L/kg, t(1/2) = 46 h) and rats (V(ss) = 22 L/kg, t(1/2) = 54 h). Second, BI 6727 has physicochemical and pharmacokinetic properties that allow in vivo testing of i.v. as well as oral formulations, adding flexibility to dosing schedules. Finally, BI 6727 shows marked antitumor activity in multiple cancer models, including a model of taxane-resistant colorectal cancer. With oral and i.v. routes of administration, the total weekly dose of BI 6727 is most relevant for efficacy, supporting the use of a variety of well-tolerated dosing schedules. CONCLUSION: These findings warrant further investigation of BI 6727 as a tailored antimitotic agent; clinical studies have been initiated.
Authors: Joseph A Sparano; Lori J Goldstein; Barrett H Childs; Steven Shak; Diana Brassard; Sunil Badve; Frederick L Baehner; Roberto Bugarini; Steve Rowley; Edith A Perez; Lawrence N Shulman; Silvana Martino; Nancy E Davidson; Paraic A Kenny; George W Sledge; Robert Gray Journal: Clin Cancer Res Date: 2011-09-20 Impact factor: 12.531
Authors: Sankaranarayanan Kannan; Marisa J L Aitken; Shelley M Herbrich; Leonard S Golfman; Mandy G Hall; Duncan H Mak; Jared K Burks; Guangchun Song; Marina Konopleva; Charles G Mullighan; Joya Chandra; Patrick A Zweidler-McKay Journal: Mol Cancer Ther Date: 2019-06-21 Impact factor: 6.261
Authors: Glen J Weiss; Gayle Jameson; Daniel D Von Hoff; Barbara Valsasina; Cristina Davite; Claudia Di Giulio; Francesco Fiorentini; Rachele Alzani; Patrizia Carpinelli; Alessandro Di Sanzo; Arturo Galvani; Antonella Isacchi; Ramesh K Ramanathan Journal: Invest New Drugs Date: 2017-07-20 Impact factor: 3.850
Authors: Neil E Bhola; Valerie M Jansen; Sangeeta Bafna; Jennifer M Giltnane; Justin M Balko; Mónica V Estrada; Ingrid Meszoely; Ingrid Mayer; Vandana Abramson; Fei Ye; Melinda Sanders; Teresa C Dugger; Eliezer V Allen; Carlos L Arteaga Journal: Cancer Res Date: 2014-12-05 Impact factor: 12.701