Effectiveness of the dual specific Src/Abl kinase inhibitor AZD0530 in combination with tamoxifen in preventing acquired anti-estrogen resistance in breast cancer cells

Abstract

14054 Background: AZD0530 is a novel, orally potent, once-daily, highly selective and dual-specific Src/Abl kinase inhibitor with potential for activity in a wide range of tumors. In the context of breast cancer, where tamoxifen resistance presents a major problem, Src inhibition may be a particularly valuable therapeutic strategy since we have previously observed that elevated Src kinase activity accompanies anti-estrogen resistance in vitro, promoting an aggressive cell phenotype. Here, we have explored the potential therapeutic effects of Src inhibition with AZD0530, alone and in combination with tamoxifen, on the acquisition of endocrine resistance in breast cancer cells. Methods: MCF7 and T47D breast cancer cells were exposed to tamoxifen (10–7 M), AZD0530 (1 μM), or both agents in combination for a minimum of 10 months with passaging as necessary, or until total cell death occurred. Cells were assayed at monthly intervals for intracellular signaling pathway activity (Western Blotting) and in vitro invasive capacity (Matrigel invasion assays). Apoptosis and proliferation were assessed by ELISA and Ki67 staining, respectively. Changes in c-Myc and cyclin-D1 were measured with RT-PCR. Results: Treatment of cells with tamoxifen alone ultimately resulted in acquired resistance, elevated Src kinase activity, and a Src- dependent increase in invasive capacity. Chronic exposure to AZD0530 alone resulted in outgrowth of AZD0530 resistant cells, in which Src kinase activity remained suppressed as did their in vitro invasiveness. Treatment of MCF7 and T47D cells with AZD0530 and tamoxifen combined resulted in a reduction of Src, FAK, and Akt activity, inhibition of c-Myc gene expression, and complete abrogation of their in vitro invasive behavior. Furthermore, combination treatment completely prevented cell proliferation and the subsequent emergence of a resistant phenotype, with a total loss of cells by 12 weeks. Conclusions: Inhibition of Src kinase with AZD0530, when used in conjunction with anti-estrogen therapies, effectively prevents acquired resistance in breast cancer cells in vitro suggesting a potential novel therapeutic benefit of Src kinase inhibitors clinically. No significant financial relationships to disclose.