Abstract C198: CX-4945, a novel small molecule inhibitor of CK2 protein kinase, reduces hyperactivated Akt signaling and synergizes with Akt inhibitors in breast cancer cells

Abstract

Abstract Akt, a critical protein kinase in the PI3K signaling pathway regulates multiple biological processes that are important in tumorigenesis. This “Master Regulator Kinase” is often hyperactivated in cancer through various mechanisms, including mutations or deletions in Akt, PI3K or PTEN tumor suppressor. The last decade witnessed the emergence of another “Master Regulator Kinase” - CK2. Like Akt, CK2 controls the growth, proliferation and survival of cancer cells. Ironically, CK2 regulates Akt through phosphorylation and down regulation of PTEN and via direct and specific phosphorylation of Akt at Ser129. This phosphorylation event by CK2 further stimulates the activity of Akt, thereby enhancing the “driver effect” of Akt in promoting oncogenic signaling. Unlike Akt, CK2 does not require phosphorylation for activation but rather its activity appears to be regulated through expression levels. Due to the unique shape of the ATP-binding site and an incomplete understanding of the regulation of CK2 expression, pharmacological targeting of CK2 has proven to be very challenging. To date only one small molecule inhibitor of CK2, CX-4945, has advanced into clinical development. Herein, we describe the pharmacological characterization of CX-4945, its impact on Akt signaling and implications for combination therapies. The high incidence of abnormalities found in the PI3K pathway in breast cancers and the distinct roles that CK2 and Akt play in this disease have made it an attractive tumor type to study the effects of CX-4945. A cell viability screen of 16 diverse but genetically well-characterized breast cancer lines revealed that cells carrying mutations causing Akt-activation were significantly more sensitive to CX-4945 than those that did not. Western blot analyses of these cell lines demonstrated good correlation between the phosphorylation of Akt at Ser129 and expression of catalytic subunits of CK2. Treatment with CX-4945 resulted in dramatic reductions of phosphorylation of Akt at Ser129 and reductions in phosphorylation of the downstream targets of Akt, e.g. p21. Upon combination of CX-4945 with inhibitors that targeted the PI3K/Akt pathway, we observed synergistic antiproliferative activity in breast cancer cells. Thus, evaluation of the effects of CX-4945 on the Akt pathway in breast cancer cell lines may allow for the identification of patient populations more sensitive to CX-4945 and guide the selection of more effective combination therapies for cancer patients. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):C198.