Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene

We performed ultra-deep methylation analysis at single molecule level of the promoter region of developmentally regulated D-Aspartate oxidase (Ddo), as a model gene, during brain development and embryonic stem cell neural differentiation. Single molecule methylation analysis enabled us to establish...

Descripción completa

Detalles Bibliográficos
Autores principales: Florio, Ermanno, Keller, Simona, Coretti, Lorena, Affinito, Ornella, Scala, Giovanni, Errico, Francesco, Fico, Annalisa, Boscia, Francesca, Sisalli, Maria Josè, Reccia, Mafalda Giovanna, Miele, Gennaro, Monticelli, Antonella, Scorziello, Antonella, Lembo, Francesca, Colucci-D'Amato, Luca, Minchiotti, Gabriella, Avvedimento, Vittorio Enrico, Usiello, Alessandro, Cocozza, Sergio, Chiariotti, Lorenzo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Taylor & Francis 2016
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5270635/
https://www.ncbi.nlm.nih.gov/pubmed/27858532
http://dx.doi.org/10.1080/15592294.2016.1260211
_version_ 1782501204906999808
author Florio, Ermanno
Keller, Simona
Coretti, Lorena
Affinito, Ornella
Scala, Giovanni
Errico, Francesco
Fico, Annalisa
Boscia, Francesca
Sisalli, Maria Josè
Reccia, Mafalda Giovanna
Miele, Gennaro
Monticelli, Antonella
Scorziello, Antonella
Lembo, Francesca
Colucci-D'Amato, Luca
Minchiotti, Gabriella
Avvedimento, Vittorio Enrico
Usiello, Alessandro
Cocozza, Sergio
Chiariotti, Lorenzo
author_facet Florio, Ermanno
Keller, Simona
Coretti, Lorena
Affinito, Ornella
Scala, Giovanni
Errico, Francesco
Fico, Annalisa
Boscia, Francesca
Sisalli, Maria Josè
Reccia, Mafalda Giovanna
Miele, Gennaro
Monticelli, Antonella
Scorziello, Antonella
Lembo, Francesca
Colucci-D'Amato, Luca
Minchiotti, Gabriella
Avvedimento, Vittorio Enrico
Usiello, Alessandro
Cocozza, Sergio
Chiariotti, Lorenzo
author_sort Florio, Ermanno
collection PubMed
description We performed ultra-deep methylation analysis at single molecule level of the promoter region of developmentally regulated D-Aspartate oxidase (Ddo), as a model gene, during brain development and embryonic stem cell neural differentiation. Single molecule methylation analysis enabled us to establish the effective epiallele composition within mixed or pure brain cell populations. In this framework, an epiallele is defined as a specific combination of methylated CpG within Ddo locus and can represent the epigenetic haplotype revealing a cell-to-cell methylation heterogeneity. Using this approach, we found a high degree of polymorphism of methylated alleles (epipolymorphism) evolving in a remarkably conserved fashion during brain development. The different sets of epialleles mark stage, brain areas, and cell type and unravel the possible role of specific CpGs in favoring or inhibiting local methylation. Undifferentiated embryonic stem cells showed non-organized distribution of epialleles that apparently originated by stochastic methylation events on individual CpGs. Upon neural differentiation, despite detecting no changes in average methylation, we observed that the epiallele distribution was profoundly different, gradually shifting toward organized patterns specific to the glial or neuronal cell types. Our findings provide a deep view of gene methylation heterogeneity in brain cell populations promising to furnish innovative ways to unravel mechanisms underlying methylation patterns generation and alteration in brain diseases.
format Online
Article
Text
id pubmed-5270635
institution National Center for Biotechnology Information
language English
publishDate 2016
publisher Taylor & Francis
record_format MEDLINE/PubMed
spelling pubmed-52706352017-01-30 Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene Florio, Ermanno Keller, Simona Coretti, Lorena Affinito, Ornella Scala, Giovanni Errico, Francesco Fico, Annalisa Boscia, Francesca Sisalli, Maria Josè Reccia, Mafalda Giovanna Miele, Gennaro Monticelli, Antonella Scorziello, Antonella Lembo, Francesca Colucci-D'Amato, Luca Minchiotti, Gabriella Avvedimento, Vittorio Enrico Usiello, Alessandro Cocozza, Sergio Chiariotti, Lorenzo Epigenetics Research Paper We performed ultra-deep methylation analysis at single molecule level of the promoter region of developmentally regulated D-Aspartate oxidase (Ddo), as a model gene, during brain development and embryonic stem cell neural differentiation. Single molecule methylation analysis enabled us to establish the effective epiallele composition within mixed or pure brain cell populations. In this framework, an epiallele is defined as a specific combination of methylated CpG within Ddo locus and can represent the epigenetic haplotype revealing a cell-to-cell methylation heterogeneity. Using this approach, we found a high degree of polymorphism of methylated alleles (epipolymorphism) evolving in a remarkably conserved fashion during brain development. The different sets of epialleles mark stage, brain areas, and cell type and unravel the possible role of specific CpGs in favoring or inhibiting local methylation. Undifferentiated embryonic stem cells showed non-organized distribution of epialleles that apparently originated by stochastic methylation events on individual CpGs. Upon neural differentiation, despite detecting no changes in average methylation, we observed that the epiallele distribution was profoundly different, gradually shifting toward organized patterns specific to the glial or neuronal cell types. Our findings provide a deep view of gene methylation heterogeneity in brain cell populations promising to furnish innovative ways to unravel mechanisms underlying methylation patterns generation and alteration in brain diseases. Taylor & Francis 2016-11-18 /pmc/articles/PMC5270635/ /pubmed/27858532 http://dx.doi.org/10.1080/15592294.2016.1260211 Text en © 2017 The Author(s). Published with license by Taylor & Francis Group, LLC http://creativecommons.org/licenses/by-nc/3.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution-Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. The moral rights of the named author(s) have been asserted.
spellingShingle Research Paper
Florio, Ermanno
Keller, Simona
Coretti, Lorena
Affinito, Ornella
Scala, Giovanni
Errico, Francesco
Fico, Annalisa
Boscia, Francesca
Sisalli, Maria Josè
Reccia, Mafalda Giovanna
Miele, Gennaro
Monticelli, Antonella
Scorziello, Antonella
Lembo, Francesca
Colucci-D'Amato, Luca
Minchiotti, Gabriella
Avvedimento, Vittorio Enrico
Usiello, Alessandro
Cocozza, Sergio
Chiariotti, Lorenzo
Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title_full Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title_fullStr Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title_full_unstemmed Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title_short Tracking the evolution of epialleles during neural differentiation and brain development: D-Aspartate oxidase as a model gene
title_sort tracking the evolution of epialleles during neural differentiation and brain development: d-aspartate oxidase as a model gene
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5270635/
https://www.ncbi.nlm.nih.gov/pubmed/27858532
http://dx.doi.org/10.1080/15592294.2016.1260211
work_keys_str_mv AT florioermanno trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT kellersimona trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT corettilorena trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT affinitoornella trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT scalagiovanni trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT erricofrancesco trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT ficoannalisa trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT bosciafrancesca trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT sisallimariajose trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT recciamafaldagiovanna trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT mielegennaro trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT monticelliantonella trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT scorzielloantonella trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT lembofrancesca trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT coluccidamatoluca trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT minchiottigabriella trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT avvedimentovittorioenrico trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT usielloalessandro trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT cocozzasergio trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene
AT chiariottilorenzo trackingtheevolutionofepiallelesduringneuraldifferentiationandbraindevelopmentdaspartateoxidaseasamodelgene

Ejemplares similares