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ERα-XPO1 Cross Talk Controls Tamoxifen Sensitivity in Tumors by Altering ERK5 Cellular Localization.

Molecular endocrinology (Baltimore, Md.) (2016-08-18)
Kinga Wrobel, Yiru Chen Zhao, Eylem Kulkoyluoglu, Karen Lee Ann Chen, Kadriye Hieronymi, Jamie Holloway, Sarah Li, Tania Ray, Partha Sarathi Ray, Yosef Landesman, Alexander Edward Lipka, Rebecca Lee Smith, Zeynep Madak-Erdogan
RESUMO

Most breast cancer deaths occur in women with recurrent, estrogen receptor (ER)-α(+), metastatic tumors. There is a critical need for therapeutic approaches that include novel, targetable mechanism-based strategies by which ERα (+) tumors can be resensitized to endocrine therapies. The objective of this study was to validate a group of nuclear transport genes as potential biomarkers to predict the risk of endocrine therapy failure and to evaluate the inhibition of XPO1, one of these genes as a novel means to enhance the effectiveness of endocrine therapies. Using advanced statistical methods, we found that expression levels of several of nuclear transport genes including XPO1 were associated with poor survival and predicted recurrence of tamoxifen-treated breast tumors in human breast cancer gene expression data sets. In mechanistic studies we showed that the expression of XPO1 determined the cellular localization of the key signaling proteins and the response to tamoxifen. We demonstrated that combined targeting of XPO1 and ERα in several tamoxifen-resistant cell lines and tumor xenografts with the XPO1 inhibitor, Selinexor, and tamoxifen restored tamoxifen sensitivity and prevented recurrence in vivo. The nuclear transport pathways have not previously been implicated in the development of endocrine resistance, and given the need for better strategies for selecting patients to receive endocrine modulatory reagents and improving therapy response of relapsed ERα(+) tumors, our findings show great promise for uncovering the role these pathways play in reducing cancer recurrences.

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Sigma-Aldrich
(Z)-4-Hidroxitamoxifeno, ≥98% Z isomer
Sigma-Aldrich
MONOCLONAL ANTI-BETA-ACTIN antibody produced in mouse, clone 8H10D10, IgG fraction of antiserum, buffered aqueous solution