ERα-Mediated Nuclear Sequestration of RSK2 Is Required for ER Breast Cancer Tumorigenesis.

Ludwik KA, McDonald OG, Brenin DR, Lannigan DA
Cancer Res. 2018 78 (8): 2014-2025

PMID: 29351904 · DOI:10.1158/0008-5472.CAN-17-2063

Although ribosomal protein S6 kinase A3 (RSK2) activation status positively correlates with patient responses to antiestrogen hormonal therapies, the mechanistic basis for these observations is unknown. Using multiple and models of estrogen receptor-positive (ER) breast cancer, we report that ERα sequesters active RSK2 into the nucleus to promote neoplastic transformation and facilitate metastatic tumor growth. RSK2 physically interacted with ERα through its N terminus to activate a proneoplastic transcriptional network critical to the ER lineage in the mammary gland, thereby providing a gene signature that effectively stratified patient tumors according to ERα status. ER tumor growth was strongly dependent on nuclear RSK2, and transgenic mice engineered to stably express nuclear RSK2 in the mammary gland developed high-grade ductal carcinoma Mammary cells isolated from the transgenic model and introduced systemically successfully disseminated and established metastatic lesions. Antiestrogens disrupted the interaction between RSK2 and ERα, driving RSK2 into the cytoplasm and impairing tumor formation. These findings establish RSK2 as an obligate participant of ERα-mediated transcriptional programs, tumorigenesis, and divergent patient responses to antiestrogen therapies. Nuclear accumulation of active RSK drives a protumorigenic transcriptional program and renders ER breast cancer susceptible to endocrine-based therapies. .

©2018 American Association for Cancer Research.

MeSH Terms (12)

Animals Breast Neoplasms Carcinogenesis Cell Nucleus Estrogen Receptor alpha Female Humans MCF-7 Cells Mice Mice, Inbred C57BL Neoplasm Invasiveness Ribosomal Protein S6 Kinases, 90-kDa

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