Identification of a DNA methylation signature in blood cells from persons with Down Syndrome

Maria Giulia Bacalini; Davide Gentilini; Alessio Boattini; Enrico Giampieri; Chiara Pirazzini; Cristina Giuliani; Elisa Fontanesi; Maria Scurti; Daniel Remondini; Miriam Capri; Guido Cocchi; Alessandro Ghezzo; Alberto Del Rio; Donata Luiselli; Giovanni Vitale; Daniela Mari; Gastone Castellani; Mario Fraga; Anna Maria Di Blasio; Stefano Salvioli; Claudio Franceschi; Paolo Garagnani

doi:doi:10.18632/aging.100715

Research Paper Volume 7, Issue 2 pp 82—96

Identification of a DNA methylation signature in blood cells from persons with Down Syndrome

Maria Giulia Bacalini^1,2,3,, Davide Gentilini^4,, Alessio Boattini^5,, Enrico Giampieri^6,, Chiara Pirazzini^1,2,, Cristina Giuliani^5,, Elisa Fontanesi^1,2,, Maria Scurti^1,2,, Daniel Remondini^6,, Miriam Capri^1,2,, Guido Cocchi^7,, Alessandro Ghezzo^1,, Alberto Del Rio^1,8,, Donata Luiselli^5,, Giovanni Vitale^4,9,, Daniela Mari^9,10,, Gastone Castellani^6,, Mario Fraga^11,12,, Anna Maria Di Blasio^4,, Stefano Salvioli^1,2,, Claudio Franceschi^1,2,13,, Paolo Garagnani^1,2,3,14,,

¹ Department of Experimental, Diagnostic and Specialty Medicine, Alma Mater Studiorum - University of Bologna, Bologna 40138, Italy
² Interdepartmental Center “L. Galvani”, University of Bologna, Bologna 40126, Italy
³ Personal Genomics S.r.l., Verona 37134, Italy
⁴ Centro di Ricerche e Tecnologie Biomediche, Istituto Auxologico Italiano IRCCS, Via Zucchi 18, Cusano Milanino, 20095 Milan, Italy
⁵ Department of Biological, Geological and Environmental Sciences, University of Bologna, Bologna 40126, Italy
⁶ Department of Physics and Astronomy, University of Bologna, Bologna 40126, Italy
⁷ Department of Medical and Surgical Sciences - Neonatology and Neonatal Intensive Care Unit, University of Bologna, Italy
⁸ Institute of Organic Synthesis and Photoreactivity (ISOF) National Research Council (CNR), Bologna 40126, Italy
⁹ Department of Clinical Sciences and Community Health, University of Milan, Milan, Italy
¹⁰ Geriatric Unit, IRCCS Ca' Granda Foundation Maggiore Policlinico Hospital, Milan, Italy
¹¹ Cancer Epigenetics Laboratory, Instituto Universitario de Oncología del Principado de Asturias (IUOPA), HUCA, Universidad de Oviedo, Oviedo, Spain
¹² Department of Immunology & Oncology, Centro Nacional de Biotecnología/CNB-CSIC, Cantoblanco, Madrid, Spain
¹³ IRCCS Institute of Neurological Sciences, Bologna, Italy
¹⁴ Applied Biomedical Research Center, S. Orsola-Malpighi Polyclinic, Bologna 40138, Italy

Received: December 24, 2014 Accepted: January 5, 2014 Published: January 8, 2014

https://doi.org/10.18632/aging.100715
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Bacalini MG, Gentilini D, Boattini A, Giampieri E, Pirazzini C, Giuliani C, Fontanesi E, Scurti M, Remondini D, Capri M, Cocchi G, Ghezzo A, Del Rio A, et al, . Identification of a DNA methylation signature in blood cells from persons with Down Syndrome. Aging (Albany NY). 2015; 7:82-96. https://doi.org/10.18632/aging.100715

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Provider: 
        TY  - JOUR
        AU  - Bacalini, Maria Giulia 
        AU  - Gentilini, Davide 
        AU  - Boattini, Alessio 
        AU  - Giampieri, Enrico 
        AU  - Pirazzini, Chiara 
        AU  - Giuliani, Cristina 
        AU  - Fontanesi, Elisa 
        AU  - Scurti, Maria 
        AU  - Remondini, Daniel 
        AU  - Capri, Miriam 
        AU  - Cocchi, Guido 
        AU  - Ghezzo, Alessandro 
        AU  - Del Rio, Alberto 
        AU  - Luiselli, Donata 
        AU  - Vitale, Giovanni 
        AU  - Mari, Daniela 
        AU  - Castellani, Gastone 
        AU  - Fraga, Mario 
        AU  - Di Blasio, Anna Maria 
        AU  - Salvioli, Stefano 
        AU  - Franceschi, Claudio 
        AU  - Garagnani, Paolo 
        TI  - Identification of a DNA methylation signature in blood cells from persons with Down Syndrome
        JO  - 
        JA  - Aging (Albany NY)
        VL  - 7
        IS  - 2
        PB  - 
        SN  - 
        UR  - https://doi.org/10.18632/aging.100715
        DO  - 10.18632/aging.100715
        SP  - 82
        EP  - 96
        PY  - 
        AB  - Down Syndrome (DS) is characterized by a wide spectrum of clinical signs, which include segmental premature aging of central nervous and immune systems. Although it is well established that the causative defect of DS is the trisomy of chromosome 21, the molecular bases of its phenotype are still largely unknown. We used the Infinium HumanMethylation450 BeadChip to investigate DNA methylation patterns in whole blood from 29 DS persons, using their relatives (mothers and unaffected siblings) as controls. This family-based model allowed us to monitor possible confounding effects on DNA methylation patterns deriving from genetic and environmental factors. Although differentially methylated regions (DMRs) displayed a genome-wide distribution, they were enriched on chromosome 21. DMRs mapped in genes involved in developmental functions, including embryonic development (HOXA family) and haematological (RUNX1 and EBF4) and neuronal (NCAM1) development. Moreover, genes involved in the regulation of chromatin structure (PRMD8, KDM2B, TET1) showed altered methylation. The data also showed that several pathways are affected in DS, including PI3K-Akt signaling. In conclusion, we identified an epigenetic signature of DS that sustains a link between developmental defects and disease phenotype, including segmental premature aging.
        ER  -

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Abstract

Down Syndrome (DS) is characterized by a wide spectrum of clinical signs, which include segmental premature aging of central nervous and immune systems. Although it is well established that the causative defect of DS is the trisomy of chromosome 21, the molecular bases of its phenotype are still largely unknown. We used the Infinium HumanMethylation450 BeadChip to investigate DNA methylation patterns in whole blood from 29 DS persons, using their relatives (mothers and unaffected siblings) as controls. This family-based model allowed us to monitor possible confounding effects on DNA methylation patterns deriving from genetic and environmental factors. Although differentially methylated regions (DMRs) displayed a genome-wide distribution, they were enriched on chromosome 21. DMRs mapped in genes involved in developmental functions, including embryonic development (HOXA family) and haematological (RUNX1 and EBF4) and neuronal (NCAM1) development. Moreover, genes involved in the regulation of chromatin structure (PRMD8, KDM2B, TET1) showed altered methylation. The data also showed that several pathways are affected in DS, including PI3K-Akt signaling. In conclusion, we identified an epigenetic signature of DS that sustains a link between developmental defects and disease phenotype, including segmental premature aging.

Research Paper Volume 7, Issue 2 pp 82—96

Identification of a DNA methylation signature in blood cells from persons with Down Syndrome

Received: December 24, 2014 Accepted: January 5, 2014 Published: January 8, 2014

Abstract

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