ETS Proteins Bind with Glucocorticoid Receptors: Relevance for Treatment of Ewing Sarcoma

The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Follo...

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Published in	Cell reports (Cambridge) Vol. 29; no. 1; pp. 104 - 117.e4
Main Authors	Srivastava, Swati, Nataraj, Nishanth Belugali, Sekar, Arunachalam, Ghosh, Soma, Bornstein, Chamutal, Drago-Garcia, Diana, Roth, Lee, Romaniello, Donatella, Marrocco, Ilaria, David, Eyal, Gilad, Yuval, Lauriola, Mattia, Rotkopf, Ron, Kimchi, Adi, Haga, Yuya, Tsutsumi, Yasuo, Mirabeau, Olivier, Surdez, Didier, Zinovyev, Andrei, Delattre, Olivier, Kovar, Heinrich, Amit, Ido, Yarden, Yosef
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.10.2019 Cell Press Elsevier
Subjects	Animals Bone Neoplasms - metabolism cancer therapy Cell Movement - physiology Cell Nucleus - metabolism Cell Proliferation - physiology Ewing sarcoma Female Gene Expression Regulation, Neoplastic - physiology glucocorticoid receptor HEK293 Cells Humans metastasis Mice Mice, SCID protein-fragment complementation assay Proto-Oncogene Protein c-fli-1 - metabolism Proto-Oncogene Proteins c-ets - metabolism Receptors, Glucocorticoid - metabolism RNA-Binding Protein EWS - metabolism Sarcoma, Ewing - metabolism cancer therapy Ewing sarcoma glucocorticoid receptor protein-fragment complementation assay metastasis
Online Access	Get full text
ISSN	2211-1247 2211-1247
DOI	10.1016/j.celrep.2019.08.088

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Abstract	The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR’s transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. [Display omitted] •Glucocorticoids activate GR, an inducible TF regulating growth and metabolism•Protein complementation assays identified FLI1 and ERG as GR binders and activators•EWS-FLI1, a fusion protein, drives Ewing sarcoma (ES) and binds with activated GR•Pharmacological inhibition of GR activation retards progression in ES animal models The single oncogene of Ewing sarcoma (ES), a childhood cancer, encodes a FLI1 fusion protein. Srivastava et al. report physical interactions between the fusion protein and the glucocorticoid receptor. Drug-induced inhibition of these interactions retards the progression of ES in mouse models.
AbstractList	The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR's transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR's transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES.The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR's transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR’s transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. : The single oncogene of Ewing sarcoma (ES), a childhood cancer, encodes a FLI1 fusion protein. Srivastava et al. report physical interactions between the fusion protein and the glucocorticoid receptor. Drug-induced inhibition of these interactions retards the progression of ES in mouse models. Keywords: cancer therapy, Ewing sarcoma, glucocorticoid receptor, metastasis, protein-fragment complementation assay The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR’s transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro, GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. [Display omitted] •Glucocorticoids activate GR, an inducible TF regulating growth and metabolism•Protein complementation assays identified FLI1 and ERG as GR binders and activators•EWS-FLI1, a fusion protein, drives Ewing sarcoma (ES) and binds with activated GR•Pharmacological inhibition of GR activation retards progression in ES animal models The single oncogene of Ewing sarcoma (ES), a childhood cancer, encodes a FLI1 fusion protein. Srivastava et al. report physical interactions between the fusion protein and the glucocorticoid receptor. Drug-induced inhibition of these interactions retards the progression of ES in mouse models. The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment complementation assays and found that GR recognizes FLI1 and additional ETS family proteins, TFs relaying proliferation and/or migration signals. Following steroid-dependent translocation of FLI1 and GR to the nucleus, the FLI1-specific domain (FLS) binds with GR and strongly enhances GR’s transcriptional activity. This interaction has functional consequences in Ewing sarcoma (ES), childhood and adolescence bone malignancies driven by fusions between EWSR1 and FLI1. In vitro , GR knockdown inhibited the migration and proliferation of ES cells, and in animal models, antagonizing GR (or lowering cortisol) retarded both tumor growth and metastasis from bone to lung. Taken together, our findings offer mechanistic rationale for repurposing GR-targeting drugs for the treatment of patients with ES. • Glucocorticoids activate GR, an inducible TF regulating growth and metabolism • Protein complementation assays identified FLI1 and ERG as GR binders and activators • EWS-FLI1, a fusion protein, drives Ewing sarcoma (ES) and binds with activated GR • Pharmacological inhibition of GR activation retards progression in ES animal models The single oncogene of Ewing sarcoma (ES), a childhood cancer, encodes a FLI1 fusion protein. Srivastava et al. report physical interactions between the fusion protein and the glucocorticoid receptor. Drug-induced inhibition of these interactions retards the progression of ES in mouse models.
Author	Marrocco, Ilaria David, Eyal Haga, Yuya Lauriola, Mattia Yarden, Yosef Bornstein, Chamutal Drago-Garcia, Diana Zinovyev, Andrei Roth, Lee Kovar, Heinrich Srivastava, Swati Rotkopf, Ron Amit, Ido Mirabeau, Olivier Romaniello, Donatella Ghosh, Soma Surdez, Didier Kimchi, Adi Tsutsumi, Yasuo Delattre, Olivier Nataraj, Nishanth Belugali Sekar, Arunachalam Gilad, Yuval
AuthorAffiliation	10 Children’s Cancer Research Institute Vienna, St. Anna Kinderkrebsforschung and Department of Pediatrics, Medical University Vienna, Vienna, Austria 2 Department of Immunology, Weizmann Institute of Science, Rehovot 76100, Israel 9 Institut Curie, PSL Research University, INSERM U900, Mines ParisTech, Paris, France 4 Department of Experimental, Diagnostic and Specialty Medicine (DIMES), University of Bologna, Bologna, Italy 1 Department of Biological Regulation, Weizmann Institute of Science, Rehovot 76100, Israel 5 Department of Biological Services, Weizmann Institute of Science, Rehovot 76100, Israel 8 PSL Research University, “Genetics and Biology of Cancers” Unit, INSERM U830 and Unité Génétique Somatique (UGS), Institut Curie Centre Hospitalier, Paris, France 3 Department of Molecular Genetics, Weizmann Institute of Science, Rehovot 76100, Israel 7 Global Center for Medical Engineering and Informatics, Osaka University, Japan 6 Graduate School of Pharmaceutical Sciences, Osaka University
AuthorAffiliation_xml	– name: 4 Department of Experimental, Diagnostic and Specialty Medicine (DIMES), University of Bologna, Bologna, Italy – name: 2 Department of Immunology, Weizmann Institute of Science, Rehovot 76100, Israel – name: 1 Department of Biological Regulation, Weizmann Institute of Science, Rehovot 76100, Israel – name: 7 Global Center for Medical Engineering and Informatics, Osaka University, Japan – name: 8 PSL Research University, “Genetics and Biology of Cancers” Unit, INSERM U830 and Unité Génétique Somatique (UGS), Institut Curie Centre Hospitalier, Paris, France – name: 10 Children’s Cancer Research Institute Vienna, St. Anna Kinderkrebsforschung and Department of Pediatrics, Medical University Vienna, Vienna, Austria – name: 9 Institut Curie, PSL Research University, INSERM U900, Mines ParisTech, Paris, France – name: 6 Graduate School of Pharmaceutical Sciences, Osaka University, Osaka, Japan – name: 3 Department of Molecular Genetics, Weizmann Institute of Science, Rehovot 76100, Israel – name: 5 Department of Biological Services, Weizmann Institute of Science, Rehovot 76100, Israel
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Snippet	The glucocorticoid receptor (GR) acts as a ubiquitous cortisol-dependent transcription factor (TF). To identify co-factors, we used protein-fragment...
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SubjectTerms	Animals Bone Neoplasms - metabolism cancer therapy Cell Movement - physiology Cell Nucleus - metabolism Cell Proliferation - physiology Ewing sarcoma Female Gene Expression Regulation, Neoplastic - physiology glucocorticoid receptor HEK293 Cells Humans metastasis Mice Mice, SCID protein-fragment complementation assay Proto-Oncogene Protein c-fli-1 - metabolism Proto-Oncogene Proteins c-ets - metabolism Receptors, Glucocorticoid - metabolism RNA-Binding Protein EWS - metabolism Sarcoma, Ewing - metabolism
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Title	ETS Proteins Bind with Glucocorticoid Receptors: Relevance for Treatment of Ewing Sarcoma
URI	https://dx.doi.org/10.1016/j.celrep.2019.08.088 https://www.ncbi.nlm.nih.gov/pubmed/31577941 https://www.proquest.com/docview/2300596160 https://pubmed.ncbi.nlm.nih.gov/PMC6899513 https://doaj.org/article/47075bdf8b9148dfa3ecd25a83e31946
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