The Impact of Estrogen Receptor-beta on the Actions of Endoxifen in Breast Cancer Cells.

Abstract

Abstract Background: We have previously demonstrated that endoxifen is the most potent tamoxifen metabolite responsible for eliciting the anti-estrogenic effects of this drug in breast cancer cells expressing ERα (Wu, Hawse et al. Cancer Res 2009;69:1722). These studies support the clinical findings which demonstrate that women with genetically impaired CYP2D6 metabolism have significantly reduced endoxifen levels and a higher risk of breast cancer recurrence. More recently, data has emerged from several laboratories suggesting that expression of ERβ in breast tumors leads to increased benefits from tamoxifen therapy. However, the role of ERβ in mediating endoxifen action has yet to be explored.Methods: Using U2OS osteosarcoma cells, as well as Hs578T and MCF7 breast cancer cells, stably expressing ERβ, we examined the effects of endoxifen on ERβ protein levels by western blotting, ERβ transcriptional activity by real-time RT-PCR, and on ERβ inhibition of breast cancer cell growth through the use of proliferation assays.Results: We have discovered that endoxifen stabilizes ERβ protein, unlike its targeted degradation of ERα, and induces ERα/ERβ heterodimerization in a concentration dependent manner. We have also found that endoxifen is a more potent inhibitor of estrogen induced gene expression in MCF7 cells stably expressing ERβ. Concentrations of endoxifen that mimic patients with impaired CYP2D6 activity (20-40 nM) do not significantly alter E2-induced cell proliferation in MCF7 cells expressing only ERα. However, these concentrations of endoxifen significantly reduce the estrogen induced proliferation rate of MCF7 cells expressing ERβ.Conclusions: Our data demonstrate that endoxifen stabilizes ERβ protein, induces ER heterodimerization and more potently inhibits the actions of estrogen in breast cancer cells expressing ERβ. The presence of ERβ sensitizes cells to the anti-estrogenic effects of endoxifen and growth inhibition occurs at substantially lower endoxifen concentrations (20-40 nM) than in cells that express only ERα (100 nm). Our data suggest that tamoxifen therapy may be beneficial even in patients with reduced CYP2D6 metabolism when ERβ is expressed. These studies also suggest that the increased effectiveness of tamoxifen therapy in patients whose tumors express ERβ may be due to the effects of endoxifen. Finally, these findings underscore the need to further elucidate the role of ERβ in the biology and treatment of breast cancer. Citation Information: Cancer Res 2009;69(24 Suppl):Abstract nr 405.