PKA phosphorylation redirects ERα to promoters of a unique gene set to induce tamoxifen resistance

Leeuw, Renée de; Flach, Koen D.; Toaldo, Cristiane Bentin; Alexi, Xanthippi; Canisius, Sander; Neefjes, Jacques; Zwart, Wilbert

doi:10.1038/onc.2012.361

Cited by 35 publications

(36 citation statements)

References 57 publications

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“…Differences between ER␣ complexes induced by estrogen vs IGF-1 have also been reported for specific target sites (163). Both EGF and cAMP have been found to determine the ER␣ cistromes slightly differently from estrogen (83,164). To what extent this is affected by pioneer factors such as Forkhead box protein A1 (FoxA1) or partner transcription factors such as AP1 and NF-B or the differences in assembling transcription complexes needs further investigations.…”

Section: Nf-kb Cyclin A/e-cdk2mentioning

confidence: 89%

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Minireview: Tipping the Balance: Ligand-Independent Activation of Steroid Receptors

Bennesch

Picard

2015

Molecular Endocrinology

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Steroid receptors are prototypical ligand-dependent transcription factors and a textbook example for allosteric regulation. According to this canonical model, binding of cognate steroid is an absolute requirement for transcriptional activation. Remarkably, the simple one ligand-one receptor model could not be farther from the truth. Steroid receptors, notably the sex steroid receptors, can receive multiple inputs. Activation of steroid receptors by other signals, working through their own signaling pathways, in the absence of the cognate steroids, represents the most extreme form of signaling cross talk. Compared with cognate steroids, ligand-independent activation pathways produce similar but not identical outputs. Here we review the phenomena and discuss what is known about the underlying molecular mechanisms and the biological significance. We hypothesize that steroid receptors may have evolved to be trigger happy. In addition to their cognate steroids, many posttranslational modifications and interactors, modulated by other signals, may be able to tip the balance.

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Section: Nf-kb Cyclin A/e-cdk2mentioning

confidence: 89%

“…Gene expression profiles controlled by ER␣ can substantially differ, depending on whether ER␣ is activated by estrogen, cAMP, EGF, or one of these in combination with OHT (83,164,165).…”

Section: Nf-kb Cyclin A/e-cdk2mentioning

confidence: 99%

Minireview: Tipping the Balance: Ligand-Independent Activation of Steroid Receptors

Bennesch

Picard

2015

Molecular Endocrinology

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“…Unfortunately, resistance to endocrine treatment is common. ERa can acquire additional agonistic features through altered kinase activities (24)(25)(26) or cofactor overexpression (27,28).…”

Section: Introductionmentioning

confidence: 99%

Complex Formation and Function of Estrogen Receptor α in Transcription Requires RIP140

Rosell

Nevedomskaya²,

Stelloo

et al. 2014

Cancer Research

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RIP140 is a transcriptional coregulator involved in energy homeostasis, ovulation, and mammary gland development. Although conclusive evidence is lacking, reports have implicated a role for RIP140 in breast cancer. Here, we explored the mechanistic role of RIP140 in breast cancer and its involvement in estrogen receptor a (ERa) transcriptional regulation of gene expression. Using ChIP-seq analysis, we demonstrate that RIP140 shares more than 80% of its binding sites with ERa, colocalizing with its interaction partners FOXA1, GATA3, p300, CBP, and p160 family members at H3K4me1-demarcated enhancer regions. RIP140 is required for ERa-complex formation, ERa-mediated gene expression, and ERa-dependent breast cancer cell proliferation. Genes affected following RIP140 silencing could be used to stratify tamoxifen-treated breast cancer cohorts, based on clinical outcome. Importantly, this gene signature was only effective in endocrine-treated conditions. Cumulatively, our data suggest that RIP140 plays an important role in ERa-mediated transcriptional regulation in breast cancer and response to tamoxifen treatment. Cancer Res; 74(19); 5469-79. Ó2014 AACR.

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“…At present, the best defined contribution of PKA signaling to neoplastic transformation is found in endocrine-associated tumors, including those arising in the kidney, pituitary, thyroid, and testis, where elevated activation of PKA is highly associated with tumor aggression (32). Along these lines, PKA activation has also been linked to the induction of EMT programs due to its ability to promote cytoskeletal remodeling and migratory behaviors in malignant cells (33, 34); it also serves as a critical mediator of EMT programs activated by hypoxia (35), and as a potential driver of chemoresistance in breast cancer cells (36). Consistent with its dichotomous roles during tumorigenesis, PKA activation has also been linked to the induction of MET programs and a return to more differentiated phenotypes in certain cancers (37), an activity Pattabiraman and colleagues (25) attempted to exploit as a novel therapy in the treatment of metastatic breast cancers.…”

Section: Protein Kinase A: Getting Reacquainted With An Old Friendmentioning

confidence: 99%

Harnessing protein kinase A activation to induce mesenchymal-epithelial programs to eliminate chemoresistant, tumor-initiating breast cancer cells

Gooding

Schiemann

2016

Transl. Cancer Res

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PKA phosphorylation redirects ERα to promoters of a unique gene set to induce tamoxifen resistance

Cited by 35 publications

References 57 publications

Minireview: Tipping the Balance: Ligand-Independent Activation of Steroid Receptors

Minireview: Tipping the Balance: Ligand-Independent Activation of Steroid Receptors

Complex Formation and Function of Estrogen Receptor α in Transcription Requires RIP140

Harnessing protein kinase A activation to induce mesenchymal-epithelial programs to eliminate chemoresistant, tumor-initiating breast cancer cells

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