Myeloma is Characterized by Stage-specific Alterations in DNA Methylation That Occur Early During Myelomagenesis

Overview

Journal J Immunol

Specialty Allergy & Immunology

Date 2013 Feb 15

PMID 23408834

Citations 55

Authors

Christoph J Heuck

Jayesh Mehta

Tushar Bhagat

Krishna Gundabolu

Yiting Yu

Shahper Khan

Grigoris Chrysofakis

Carolina Schinke

Joseph Tariman

Eric Vickrey

Natalie Pulliam

Sangeeta Nischal

Li Zhou

Sanchari Bhattacharyya

Richard Meagher

Caroline Hu

Shahina Maqbool

Masako Suzuki

Samir Parekh

Frederic Reu

Ulrich Steidl

John Greally

Amit Verma

Seema B Singhal

Affiliations

Soon will be listed here.

Abstract

Epigenetic changes play important roles in carcinogenesis and influence initial steps in neoplastic transformation by altering genome stability and regulating gene expression. To characterize epigenomic changes during the transformation of normal plasma cells to myeloma, we modified the HpaII tiny fragment enrichment by ligation-mediated PCR assay to work with small numbers of purified primary marrow plasma cells. The nano-HpaII tiny fragment enrichment by ligation-mediated PCR assay was used to analyze the methylome of CD138(+) cells from 56 subjects representing premalignant (monoclonal gammopathy of uncertain significance), early, and advanced stages of myeloma, as well as healthy controls. Plasma cells from premalignant and early stages of myeloma were characterized by striking, widespread hypomethylation. Gene-specific hypermethylation was seen to occur in the advanced stages, and cell lines representative of relapsed cases were found to be sensitive to decitabine. Aberrant demethylation in monoclonal gammopathy of uncertain significance occurred primarily in CpG islands, whereas differentially methylated loci in cases of myeloma occurred predominantly outside of CpG islands and affected distinct sets of gene pathways, demonstrating qualitative epigenetic differences between premalignant and malignant stages. Examination of the methylation machinery revealed that the methyltransferase, DNMT3A, was aberrantly hypermethylated and underexpressed, but not mutated in myeloma. DNMT3A underexpression was also associated with adverse overall survival in a large cohort of patients, providing insights into genesis of hypomethylation in myeloma. These results demonstrate widespread, stage-specific epigenetic changes during myelomagenesis and suggest that early demethylation can be a potential contributor to genome instability seen in myeloma. We also identify DNMT3A expression as a novel prognostic biomarker and suggest that relapsed cases can be therapeutically targeted by hypomethylating agents.

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