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Literature DB >> 28134926

DNA methylation heterogeneity defines a disease spectrum in Ewing sarcoma.

Nathan C Sheffield¹, Gaelle Pierron², Johanna Klughammer¹, Paul Datlinger¹, Andreas Schönegger¹, Michael Schuster¹, Johanna Hadler¹, Didier Surdez³, Delphine Guillemot², Eve Lapouble², Paul Freneaux⁴, Jacqueline Champigneulle⁵, Raymonde Bouvier⁶, Diana Walder⁷, Ingeborg M Ambros⁷, Caroline Hutter^8,9, Eva Sorz⁷, Ana T Amaral¹⁰, Enrique de Álava¹⁰, Katharina Schallmoser^11,12, Dirk Strunk^11,13, Beate Rinner¹⁴, Bernadette Liegl-Atzwanger¹⁵, Berthold Huppertz¹⁶, Andreas Leithner¹⁷, Gonzague de Pinieux¹⁸, Philippe Terrier¹⁹, Valérie Laurence^2,20, Jean Michon²⁰, Ruth Ladenstein^7,8,9, Wolfgang Holter^7,8,9, Reinhard Windhager²¹, Uta Dirksen²², Peter F Ambros^7,9, Olivier Delattre^2,3, Heinrich Kovar^7,9, Christoph Bock^1,23,24,25, Eleni M Tomazou⁷.

Abstract

Developmental tumors in children and young adults carry few genetic alterations, yet they have diverse clinical presentation. Focusing on Ewing sarcoma, we sought to establish the prevalence and characteristics of epigenetic heterogeneity in genetically homogeneous cancers. We performed genome-scale DNA methylation sequencing for a large cohort of Ewing sarcoma tumors and analyzed epigenetic heterogeneity on three levels: between cancers, between tumors, and within tumors. We observed consistent DNA hypomethylation at enhancers regulated by the disease-defining EWS-FLI1 fusion protein, thus establishing epigenomic enhancer reprogramming as a ubiquitous and characteristic feature of Ewing sarcoma. DNA methylation differences between tumors identified a continuous disease spectrum underlying Ewing sarcoma, which reflected the strength of an EWS-FLI1 regulatory signature and a continuum between mesenchymal and stem cell signatures. There was substantial epigenetic heterogeneity within tumors, particularly in patients with metastatic disease. In summary, our study provides a comprehensive assessment of epigenetic heterogeneity in Ewing sarcoma and thereby highlights the importance of considering nongenetic aspects of tumor heterogeneity in the context of cancer biology and personalized medicine.

Entities: CellLine Chemical Disease Gene Species

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Year: 2017 PMID： 28134926 PMCID： PMC5951283 DOI： 10.1038/nm.4273

Source DB: PubMed Journal: Nat Med ISSN： 1078-8956 Impact factor: 53.440

64 in total

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82 in total

1. Multilayer microfluidic array for highly efficient sample loading and digital melt analysis of DNA methylation.

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Authors: Michael Scherer; Almut Nebel; Andre Franke; Jörn Walter; Thomas Lengauer; Christoph Bock; Fabian Müller; Markus List
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6. A novel miRNA inhibits metastasis of prostate cancer via decreasing CREBBP-mediated histone acetylation.

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Authors: Marika Sciandra; Alessandra De Feo; Alessandro Parra; Lorena Landuzzi; Pier-Luigi Lollini; Maria Cristina Manara; Gianfranco Mattia; Giada Pontecorvi; Cristina Baricordi; Clara Guerzoni; Alberto Bazzocchi; Alessandra Longhi; Katia Scotlandi
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Authors: Marianyela Petrizzelli; Jane Merlevede; Andrei Zinovyev
Journal: Methods Mol Biol Date: 2021