Article
Author: Fischer, Gerhard ; Wang, Xuelu ; Asteian, Alice ; Rooney, Timothy P. C. ; Alza, Esther ; Rocaboy, Mathieu ; Alcaide, Anna ; Dagostin, Claudio ; Venkitaraman, Ashok R. ; Higueruelo, Alicia ; Perrior, Trevor R ; Feng, Tzu-Shean ; Moschetti, Tommaso ; Abell, Chris ; Blaszczyk, Beata ; Rossmann, Maxim ; Perrior, Trevor R. ; Spring, David R. ; Hyvonen, Marko ; Srinivasan, Rajavel ; Blundell, Tom L. ; Stockwell, Simon R. ; Guarino, Estrella ; Scott, Duncan E. ; McKenzie, Grahame ; Skidmore, John
Aurora A kinase, a cell division regulator, is frequently overexpressed in various cancers, provoking genome instability and resistance to antimitotic chemotherapy. Localization and enzymatic activity of Aurora A are regulated by its interaction with the spindle assembly factor TPX2. We have used fragment-based, structure-guided lead discovery to develop small molecule inhibitors of the Aurora A-TPX2 protein-protein interaction (PPI). Our lead compound, CAM2602, inhibits Aurora A:TPX2 interaction, binding Aurora A with 19 nM affinity. CAM2602 exhibits oral bioavailability, causes pharmacodynamic biomarker modulation, and arrests the growth of tumor xenografts. CAM2602 acts by a novel mechanism compared to ATP-competitive inhibitors and is highly specific to Aurora A over Aurora B. Consistent with our finding that Aurora A overexpression drives taxane resistance, these inhibitors synergize with paclitaxel to suppress the outgrowth of pancreatic cancer cells. Our results provide a blueprint for targeting the Aurora A-TPX2 PPI for cancer therapy and suggest a promising clinical utility for this mode of action.