DNA Hydroxymethylation is Associated with Disease Severity and Persists at Enhancers of Oncogenic Regions in Multiple Myeloma

Overview

Journal Clin Epigenetics

Publisher Biomed Central

Specialty Genetics

Date 2020 Nov 3

PMID 33138842

Citations 6

Authors

Jean-Baptiste Alberge

Florence Magrangeas

Mirko Wagner

Soline Denie

Catherine Guerin-Charbonnel

Loic Campion

Michel Attal

Herve Avet-Loiseau

Thomas Carell

Philippe Moreau

Stephane Minvielle

Aurelien A Serandour

Affiliations

Soon will be listed here.

Abstract

Background: Multiple myeloma (MM) is a heterogeneous plasma cell malignancy that remains challenging to cure. Global hypomethylation correlates with an aggressive phenotype of the disease, while hypermethylation is observed at particular regions of myeloma such as B cell-specific enhancers. The recently discovered active epigenetic mark 5-hydroxymethylCytosine (5hmC) may also play a role in tumor biology; however, little is known about its level and distribution in myeloma. In this study, we investigated the global level and the genomic localization of 5hmC in myeloma cells from 40 newly diagnosed patients, including paired relapses, and of control individuals.

Results: Compared to normal plasma cells, we found global 5hmC levels to be lower in myeloma (P < 0.001). Higher levels of 5hmC were found in lower grades of the International Staging System prognostic index (P < 0.05) and tend to associate with a longer overall survival (P < 0.1). From the hydroxymethylome data, we observed that the remaining 5hmC is organized in large domains overlapping with active chromatin marks and chromatin opening. We discovered that 5hmC strongly persists at key oncogenic genes such as CCND1, CCND2 and MMSET and characterized domains that are specifically hydroxymethylated in myeloma subgroups. Novel 5hmC-enriched domains were found at putative enhancers of CCND2 and MYC in newly diagnosed patients.

Conclusions: 5hmC level is associated with clinical aspects of MM. Mapping 5hmC at a genome-wide level provides insights into the disease biology directly from genomic DNA, which makes it a potent mark to study epigenetics on large patient cohorts.

Citing Articles

Predicting gene expression state and prioritizing putative enhancers using 5hmC signal.

Gonzalez-Avalos E, Onodera A, Samaniego-Castruita D, Rao A, Ay F Genome Biol. 2024; 25(1):142.

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Multi-omics tumor profiling technologies to develop precision medicine in multiple myeloma.

Ovejero S, Moreaux J Explor Target Antitumor Ther. 2022; 2(1):65-106.

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Spectroscopic and in vitro Investigations of Fe /α-Ketoglutarate-Dependent Enzymes Involved in Nucleic Acid Repair and Modification.

Schmidl D, Lindlar Ne Jonasson N, Menke A, Schneider S, Daumann L Chembiochem. 2022; 23(11):e202100605.

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One Omics Approach Does Not Rule Them All: The Metabolome and the Epigenome Join Forces in Haematological Malignancies.

Kalushkova A, Nylund P, Parraga A, Lennartsson A, Jernberg-Wiklund H Epigenomes. 2021; 5(4).

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Genome Instability in Multiple Myeloma: Facts and Factors.

Aksenova A, Zhuk A, Lada A, Zotova I, Stepchenkova E, Kostroma I Cancers (Basel). 2021; 13(23).

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