Abstract

e12506 Background: Breast cancer is the second most common cancer worldwide. Pharmacologically targeting cyclin-dependent kinases 4 and 6 (CDK4 & 6) has proven to be a successful therapeutic approach in patients with estrogen receptor positive (ER+) breast cancer. Differences in both efficacy and toxicity among the available CDK4 & 6 inhibitors has generated interest in a biological explanation. Abemaciclib is an adenosine triphosphate-competitive, reversible, selective inhibitor of CDK4 & 6 that has shown antitumor activity as a single agent and in combination with standard endocrine therapy (ET), in hormone receptor positive (HR+) metastatic breast cancer patients including those with ET resistance, and in combination with ET in high-risk early breast cancer patients. This study examines attributes of abemaciclib and other CDK4 & 6 inhibitors. Methods: The potency of abemaciclib for CDK4 was evaluated using biochemicals and breast cancer cell-based assays. Additionally, different combinations with an anti-estrogen therapy (e.g., tamoxifen, fulvestrant) were analyzed in an in vitro palbociclib (CDK4 & 6 inhibitor)-resistant breast cancer cell model, as well as in a set of CDK4 & 6 sensitive breast cancer cell models. Using cell-free assays, high content imaging and flow cytometry approaches, a subset of markers were monitored to characterize the phenotype of sensitive cell lines in a continuous dose schedule. Results: In in vitro, cell-free assays, abemaciclib shows selectivity for CDK4 over CDK6, and in cell-based assays, abemaciclib preferentially inhibits the proliferation of cells dependent on the presence of CDK4, not CDK6. Abemaciclib inhibits cell proliferation in a wide range of breast cancer cell lines, showing activity regardless of human epidermal growth factor receptor 2 (HER2) and PI3KCA gene mutation status. Furthermore, in a cell line resistant to palbociclib, abemaciclib in combination with fulvestrant (ET) restores CDK4 & 6 sensitivity, leading to cell senescence and cell death. Finally, in human bone marrow progenitor cells, abemaciclib shows a lesser impact on myeloid maturation than other CDK4 & 6 inhibitors, palbociclib and ribociclib, allowing for continuous dosing. Conclusions: In pre-clinical experiments, abemaciclib is a potent cell growth inhibitor, inhibiting preferentially the CDK4/CyclinD1 complex, leading to cell senescence and cell death. These pre-clinical results support the differentiated safety and efficacy profile of abemaciclib observed in clinical trials.

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