Uncovering the Role of Hypermethylation by CTG Expansion in Myotonic Dystrophy Type 1 Using Mutant Human Embryonic Stem Cells

Shira Yanovsky-Dagan; Michal Avitzour; Gheona Altarescu; Paul Renbaum; Talia Eldar-Geva; Oshrat Schonberger; Stella Mitrani-Rosenbaum; Ephrat Levy-Lahad; Ramon Y. Birnbaum; Lior Gepstein; Silvina Epsztejn-Litman; Rachel Eiges

doi:10.1016/j.stemcr.2015.06.003

Stem Cell Reports (Aug 2015)

Uncovering the Role of Hypermethylation by CTG Expansion in Myotonic Dystrophy Type 1 Using Mutant Human Embryonic Stem Cells

Shira Yanovsky-Dagan,
Michal Avitzour,
Gheona Altarescu,
Paul Renbaum,
Talia Eldar-Geva,
Oshrat Schonberger,
Stella Mitrani-Rosenbaum,
Ephrat Levy-Lahad,
Ramon Y. Birnbaum,
Lior Gepstein,
Silvina Epsztejn-Litman,
Rachel Eiges

Affiliations

Shira Yanovsky-Dagan: Stem Cell Research Laboratory, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Michal Avitzour: Stem Cell Research Laboratory, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Gheona Altarescu: Zohar PGD Lab, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Paul Renbaum: Zohar PGD Lab, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Talia Eldar-Geva: IVF Unit, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Oshrat Schonberger: IVF Unit, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Stella Mitrani-Rosenbaum: Goldyne Savad Institute for Gene Therapy, Hadassah Hebrew University Medical Center, Jerusalem 91240, Israel
Ephrat Levy-Lahad: Zohar PGD Lab, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Ramon Y. Birnbaum: Department of Life Sciences, Ben-Gurion University of the Negev, Beer Sheva 84105, Israel
Lior Gepstein: Sohnis Family Research Laboratory for Cardiac Electrophysiology and Regenerative Medicine, Bruce Rappaport Faculty of Medicine, Technion-Israel Institute of Technology, Haifa 31096, Israel
Silvina Epsztejn-Litman: Stem Cell Research Laboratory, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel
Rachel Eiges: Stem Cell Research Laboratory, Medical Genetics Institute, Shaare Zedek Medical Center affiliated with the Hebrew University School of Medicine, Jerusalem 91031, Israel

DOI: https://doi.org/10.1016/j.stemcr.2015.06.003
Journal volume & issue: Vol. 5, no. 2
pp. 221 – 231

Abstract

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CTG repeat expansion in DMPK, the cause of myotonic dystrophy type 1 (DM1), frequently results in hypermethylation and reduced SIX5 expression. The contribution of hypermethylation to disease pathogenesis and the precise mechanism by which SIX5 expression is reduced are unknown. Using 14 different DM1-affected human embryonic stem cell (hESC) lines, we characterized a differentially methylated region (DMR) near the CTGs. This DMR undergoes hypermethylation as a function of expansion size in a way that is specific to undifferentiated cells and is associated with reduced SIX5 expression. Using functional assays, we provide evidence for regulatory activity of the DMR, which is lost by hypermethylation and may contribute to DM1 pathogenesis by causing SIX5 haplo-insufficiency. This study highlights the power of hESCs in disease modeling and describes a DMR that functions both as an exon coding sequence and as a regulatory element whose activity is epigenetically hampered by a heritable mutation.

Published in Stem Cell Reports

ISSN: 2213-6711 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Medicine: Medicine (General); Science: Biology (General)
Website: http://www.cell.com/stem-cell-reports/home

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