The reference epigenome and regulatory chromatin landscape of chronic lymphocytic leukemia

Jun 24, 2018 | Magazine: Nature Medicine

Renée Beekman, Vicente Chapaprieta, Núria Russiñol, Roser Vilarrasa-Blasi, Núria Verdaguer-Dot, Joost H A Martens, Martí Duran-Ferrer, Marta Kulis, François Serra, Biola M Javierre, Steven W Wingett, Guillem Clot, Ana C Queirós, Giancarlo Castellano, Julie Blanc, Marta Gut, Angelika Merkel, Simon Heath, Anna Vlasova, Sebastian Ullrich, Emilio Palumbo, Anna Enjuanes, David Martín-García, Sílvia Beà, Magda Pinyol, Marta Aymerich, Romina Royo, Montserrat Puiggros, David Torrents, Avik Datta, Ernesto Lowy, Myrto Kostadima, Maša Roller, Laura Clarke, Paul Flicek, Xabier Agirre, Felipe Prosper, Tycho Baumann, Julio Delgado, Armando López-Guillermo, Peter Fraser, Marie-Laure Yaspo, Roderic Guigó, Reiner Siebert, Marc A Martí-Renom, Xose S Puente, Carlos López-Otín, Ivo Gut, Hendrik G Stunnenberg, Elias Campo, Jose I Martin-Subero

Abstract

Chronic lymphocytic leukemia (CLL) is a frequent hematological neoplasm in which underlying epigenetic alterations are only partially understood. Here, we analyze the reference epigenome of seven primary CLLs and the regulatory chromatin landscape of 107 primary cases in the context of normal B cell differentiation. We identify that the CLL chromatin landscape is largely influenced by distinct dynamics during normal B cell maturation.

Beyond this, we define extensive catalogues of regulatory elements de novo reprogrammed in CLL as a whole and in its major clinico-biological subtypes classified by IGHV somatic hypermutation levels. We uncover that IGHV-unmutated CLLs harbor more active and open chromatin than IGHV-mutated cases. Furthermore, we show that de novo active regions in CLL are enriched for NFAT, FOX and TCF/LEF transcription factor family binding sites.

Although most genetic alterations are not associated with consistent epigenetic profiles, CLLs with MYD88 mutations and trisomy 12 show distinct chromatin configurations. Furthermore, we observe that non-coding mutations in IGHV-mutated CLLs are enriched in H3K27ac-associated regulatory elements outside accessible chromatin. Overall, this study provides an integrative portrait of the CLL epigenome, identifies extensive networks of altered regulatory elements and sheds light on the relationship between the genetic and epigenetic architecture of the disease.

CITATION Nat Med. 2018 Jun;24(6):868-880. doi: 10.1038/s41591-018-0028-4. Epub 2018 May 21.

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Dr. Xabier Agirre Ena Curriculum

Researcher | Principal Investigator Translational Hematology Research Group

La imagen muestra al Dr. Felipe Prosper Cardoso, especialista en terapia celular de la Clínica Universidad de Navarra, con amplia experiencia en el campo.El Dr. Prosper es uno de los expertos líderes en el área de terapia celular en esta institución, reconocida por su trayectoria en investigación y aplicación de terapias innovadoras.Con una formación sólida en medicina regenerativa, el Dr. Prosper ha liderado investigaciones y aplicaciones clínicas de terapia celular para tratar diversas afecciones. Su experiencia ha sido reconocida a nivel internacional, y es un referente en la comunidad médica. Si busca un especialista de confianza en terapia celular, el Dr. Felipe Prosper Cardoso es la elección ideal.

Dr. Felipe Prósper Curriculum

Codirector | Principal Investigator Hemato-Oncology Research Program