The Friedreich ataxia GAA repeat expansion mutation induces comparable epigenetic changes in human and transgenic mouse brain and heart tissues

doi:10.1093/hmg/ddm346

Human Molecular Genetics Advance Access originally published online on November 27, 2007
Human Molecular Genetics 2008 17(5):735-746; doi:10.1093/hmg/ddm346

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The Friedreich ataxia GAA repeat expansion mutation induces comparable epigenetic changes in human and transgenic mouse brain and heart tissues

Sahar Al-Mahdawi, Ricardo Mouro Pinto, Ozama Ismail, Dhaval Varshney, Stefania Lymperi, Chiranjeevi Sandi, Daniah Trabzuni and Mark Pook^*

Hereditary Ataxia Group, Centre for Cell & Chromosome Biology and Brunel Institute of Cancer Genetics & Pharmacogenomics, Division of Biosciences, School of Health Sciences & Social Care, Brunel University, Uxbridge UB8 3PH, UK

^* To whom correspondence should be addressed. Tel: +44 1895267243; Fax: +44 1895274348; Email: mark.pook{at}brunel.ac.uk

Received September 20, 2007; Revised November 17, 2007; Accepted November 25, 2007

Friedreich ataxia (FRDA) is caused by a homozygous GAA repeatexpansion mutation within intron 1 of the FXN gene, leadingto reduced expression of frataxin protein. Evidence suggeststhat the mutation may induce epigenetic changes and heterochromatinformation, thereby impeding gene transcription. In particular,studies using FRDA patient blood and lymphoblastoid cell lineshave detected increased DNA methylation of specific CpG sitesupstream of the GAA repeat and histone modifications in regionsflanking the GAA repeat. In this report we show that such epigeneticchanges are also present in FRDA patient brain, cerebellum andheart tissues, the primary affected systems of the disorder.Bisulfite sequence analysis of the FXN flanking GAA regionsreveals a shift in the FRDA DNA methylation profile, with upstreamCpG sites becoming consistently hypermethylated and downstreamCpG sites becoming consistently hypomethylated. We also identifydifferential DNA methylation at three specific CpG sites withinthe FXN promoter and one CpG site within exon 1. Furthermore,we show by chromatin immunoprecipitation analysis that thereis overall decreased histone H3K9 acetylation together withincreased H3K9 methylation of FRDA brain tissue. Further studiesof brain, cerebellum and heart tissues from our GAA repeat expansion-containingFRDA YAC transgenic mice reveal comparable epigenetic changesto those detected in FRDA patient tissue. We have thus developeda mouse model that will be a valuable resource for future therapeuticstudies targeting epigenetic modifications of the FXN gene toincrease frataxin expression.

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