DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins

DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins

DNA methylation is essential in mammalian development. We have hypothesized that methylation differences induced by trisomy 21 (T21) contribute to the phenotypic characteristics and heterogeneity in Down syndrome (DS). In order to determine the methylation differences in T21 without interference of...

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Main Authors: Sailani, M. Reza, Santoni, Federico A., Letourneau, Audrey, Borel, Christelle, Makrythanasis, Periklis, Hibaoui, Youssef, Popadin, Konstantin, Bonilla, Ximena, Guipponi, Michel, Gehrig, Corinne, Vannier, Anne, Carre-Pigeon, Frederique, Feki, Anis, Nizetic, Dean, Antonarakis, Stylianos E.
Other Authors: El-Maarri, Osman
Format: Article
Language:English
Published: 2015
Subjects:
Homeobox
Fibroblasts
Epigenetics
Induced pluripotent stem cells
Chromosome 21
Morphogenesis
Twins
DNA methylation
Online Access:https://hdl.handle.net/10356/104323
http://hdl.handle.net/10220/38815
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1043232022-02-16T16:29:34Z DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins Sailani, M. Reza Santoni, Federico A. Letourneau, Audrey Borel, Christelle Makrythanasis, Periklis Hibaoui, Youssef Popadin, Konstantin Bonilla, Ximena Guipponi, Michel Gehrig, Corinne Vannier, Anne Carre-Pigeon, Frederique Feki, Anis Nizetic, Dean Antonarakis, Stylianos E. El-Maarri, Osman Lee Kong Chian School of Medicine (LKCMedicine) Homeobox Fibroblasts Epigenetics Induced pluripotent stem cells Chromosome 21 Morphogenesis Twins DNA methylation DNA methylation is essential in mammalian development. We have hypothesized that methylation differences induced by trisomy 21 (T21) contribute to the phenotypic characteristics and heterogeneity in Down syndrome (DS). In order to determine the methylation differences in T21 without interference of the interindividual genomic variation, we have used fetal skin fibroblasts from monozygotic (MZ) twins discordant for T21. We also used skin fibroblasts from MZ twins concordant for T21, normal MZ twins without T21, and unrelated normal and T21 individuals. Reduced Representation Bisulfite Sequencing (RRBS) revealed 35 differentially methylated promoter regions (DMRs) (Absolute methylation differences = 25%, FDR < 0.001) in MZ twins discordant for T21 that have also been observed in comparison between unrelated normal and T21 individuals. The identified DMRs are enriched for genes involved in embryonic organ morphogenesis (FDR = 1.60 e -03) and include genes of the HOXB and HOXD clusters. These DMRs are maintained in iPS cells generated from this twin pair and are correlated with the gene expression changes. We have also observed an increase in DNA methylation level in the T21 methylome compared to the normal euploid methylome. This observation is concordant with the up regulation of DNA methyltransferase enzymes (DNMT3B and DNMT3L) and down regulation of DNA demethylation enzymes (TET2 and TET3) observed in the iPSC of the T21 versus normal twin. Altogether, the results of this study highlight the epigenetic effects of the extra chromosome 21 in T21 on loci outside of this chromosome that are relevant to DS associated phenotypes. Published version 2015-10-21T04:12:10Z 2019-12-06T21:30:25Z 2015-10-21T04:12:10Z 2019-12-06T21:30:25Z 2015 2015 Journal Article Sailani, M. R., Santoni, F. A., Letourneau, A., Borel, C., Makrythanasis, P., Hibaoui, Y., et al. (2015). DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins. PLOS ONE, 10(8), e0135555-. 1932-6203 https://hdl.handle.net/10356/104323 http://hdl.handle.net/10220/38815 10.1371/journal.pone.0135555 26317209 en PLOS ONE © 2015 Sailani et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Homeobox
Fibroblasts
Epigenetics
Induced pluripotent stem cells
Chromosome 21
Morphogenesis
Twins
DNA methylation
spellingShingle Homeobox
Fibroblasts
Epigenetics
Induced pluripotent stem cells
Chromosome 21
Morphogenesis
Twins
DNA methylation
Sailani, M. Reza
Santoni, Federico A.
Letourneau, Audrey
Borel, Christelle
Makrythanasis, Periklis
Hibaoui, Youssef
Popadin, Konstantin
Bonilla, Ximena
Guipponi, Michel
Gehrig, Corinne
Vannier, Anne
Carre-Pigeon, Frederique
Feki, Anis
Nizetic, Dean
Antonarakis, Stylianos E.
DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
description DNA methylation is essential in mammalian development. We have hypothesized that methylation differences induced by trisomy 21 (T21) contribute to the phenotypic characteristics and heterogeneity in Down syndrome (DS). In order to determine the methylation differences in T21 without interference of the interindividual genomic variation, we have used fetal skin fibroblasts from monozygotic (MZ) twins discordant for T21. We also used skin fibroblasts from MZ twins concordant for T21, normal MZ twins without T21, and unrelated normal and T21 individuals. Reduced Representation Bisulfite Sequencing (RRBS) revealed 35 differentially methylated promoter regions (DMRs) (Absolute methylation differences = 25%, FDR < 0.001) in MZ twins discordant for T21 that have also been observed in comparison between unrelated normal and T21 individuals. The identified DMRs are enriched for genes involved in embryonic organ morphogenesis (FDR = 1.60 e -03) and include genes of the HOXB and HOXD clusters. These DMRs are maintained in iPS cells generated from this twin pair and are correlated with the gene expression changes. We have also observed an increase in DNA methylation level in the T21 methylome compared to the normal euploid methylome. This observation is concordant with the up regulation of DNA methyltransferase enzymes (DNMT3B and DNMT3L) and down regulation of DNA demethylation enzymes (TET2 and TET3) observed in the iPSC of the T21 versus normal twin. Altogether, the results of this study highlight the epigenetic effects of the extra chromosome 21 in T21 on loci outside of this chromosome that are relevant to DS associated phenotypes.
author2 El-Maarri, Osman
author_facet El-Maarri, Osman
Sailani, M. Reza
Santoni, Federico A.
Letourneau, Audrey
Borel, Christelle
Makrythanasis, Periklis
Hibaoui, Youssef
Popadin, Konstantin
Bonilla, Ximena
Guipponi, Michel
Gehrig, Corinne
Vannier, Anne
Carre-Pigeon, Frederique
Feki, Anis
Nizetic, Dean
Antonarakis, Stylianos E.
format Article
author Sailani, M. Reza
Santoni, Federico A.
Letourneau, Audrey
Borel, Christelle
Makrythanasis, Periklis
Hibaoui, Youssef
Popadin, Konstantin
Bonilla, Ximena
Guipponi, Michel
Gehrig, Corinne
Vannier, Anne
Carre-Pigeon, Frederique
Feki, Anis
Nizetic, Dean
Antonarakis, Stylianos E.
author_sort Sailani, M. Reza
title DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
title_short DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
title_full DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
title_fullStr DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
title_full_unstemmed DNA-Methylation Patterns in Trisomy 21 Using Cells from Monozygotic Twins
title_sort dna-methylation patterns in trisomy 21 using cells from monozygotic twins
publishDate 2015
url https://hdl.handle.net/10356/104323
http://hdl.handle.net/10220/38815
_version_ 1725985797363990528

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