Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism

Autism Spectrum Disorders (ASD) comprise a group of heterogeneous and complex neurodevelopmental disorders. Genetic and environmental factors contribute to ASD etiology. DNA methylation is particularly relevant for ASD due to its mediating role in the complex interaction between genotype and environ...

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Autores principales: Aspra, Queletzu, Cabrera-Mendoza, Brenda, Morales-Marín, Mirna Edith, Márquez, Carla, Chicalote, Carlos, Ballesteros, Ana, Aguilar, Miriam, Castro, Xochitl, Gómez-Cotero, Amalia, Balboa-Verduzco, Ana María, Albores-Gallo, Lilia, Nafate-López, Omar, Marcín-Salazar, Carlos Alfonso, Sánchez, Patricia, Lanzagorta-Piñol, Nuria, López-Armenta, Fernando Omar, Nicolini, Humberto
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9025761/
https://www.ncbi.nlm.nih.gov/pubmed/35455506
http://dx.doi.org/10.3390/children9040462
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author Aspra, Queletzu
Cabrera-Mendoza, Brenda
Morales-Marín, Mirna Edith
Márquez, Carla
Chicalote, Carlos
Ballesteros, Ana
Aguilar, Miriam
Castro, Xochitl
Gómez-Cotero, Amalia
Balboa-Verduzco, Ana María
Albores-Gallo, Lilia
Nafate-López, Omar
Marcín-Salazar, Carlos Alfonso
Sánchez, Patricia
Lanzagorta-Piñol, Nuria
López-Armenta, Fernando Omar
Nicolini, Humberto
author_facet Aspra, Queletzu
Cabrera-Mendoza, Brenda
Morales-Marín, Mirna Edith
Márquez, Carla
Chicalote, Carlos
Ballesteros, Ana
Aguilar, Miriam
Castro, Xochitl
Gómez-Cotero, Amalia
Balboa-Verduzco, Ana María
Albores-Gallo, Lilia
Nafate-López, Omar
Marcín-Salazar, Carlos Alfonso
Sánchez, Patricia
Lanzagorta-Piñol, Nuria
López-Armenta, Fernando Omar
Nicolini, Humberto
author_sort Aspra, Queletzu
collection PubMed
description Autism Spectrum Disorders (ASD) comprise a group of heterogeneous and complex neurodevelopmental disorders. Genetic and environmental factors contribute to ASD etiology. DNA methylation is particularly relevant for ASD due to its mediating role in the complex interaction between genotype and environment and has been implicated in ASD pathophysiology. The lack of diversity in DNA methylation studies in ASD individuals is remarkable. Since genetic and environmental factors are likely to vary across populations, the study of underrepresented populations is necessary to understand the molecular alterations involved in ASD and the risk factors underlying these changes. This study explored genome-wide differences in DNA methylation patterns in buccal epithelium cells between Mexican ASD patients (n = 27) and age-matched typically developing (TD: n = 15) children. DNA methylation profiles were evaluated with the Illumina 450k array. We evaluated the interaction between sex and ASD and found a differentially methylated region (DMR) over the 5′UTR region of ZFP57 and one of its targets, RASGRF2. These results match previous findings in brain tissue, which may indicate that ZFP57 could be used as a proxy for DNA methylation in different tissues. This is the first study performed in a Mexican, and subsequently, Latin American, population that evaluates DNA methylation in ASD patients.
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spelling pubmed-90257612022-04-23 Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism Aspra, Queletzu Cabrera-Mendoza, Brenda Morales-Marín, Mirna Edith Márquez, Carla Chicalote, Carlos Ballesteros, Ana Aguilar, Miriam Castro, Xochitl Gómez-Cotero, Amalia Balboa-Verduzco, Ana María Albores-Gallo, Lilia Nafate-López, Omar Marcín-Salazar, Carlos Alfonso Sánchez, Patricia Lanzagorta-Piñol, Nuria López-Armenta, Fernando Omar Nicolini, Humberto Children (Basel) Article Autism Spectrum Disorders (ASD) comprise a group of heterogeneous and complex neurodevelopmental disorders. Genetic and environmental factors contribute to ASD etiology. DNA methylation is particularly relevant for ASD due to its mediating role in the complex interaction between genotype and environment and has been implicated in ASD pathophysiology. The lack of diversity in DNA methylation studies in ASD individuals is remarkable. Since genetic and environmental factors are likely to vary across populations, the study of underrepresented populations is necessary to understand the molecular alterations involved in ASD and the risk factors underlying these changes. This study explored genome-wide differences in DNA methylation patterns in buccal epithelium cells between Mexican ASD patients (n = 27) and age-matched typically developing (TD: n = 15) children. DNA methylation profiles were evaluated with the Illumina 450k array. We evaluated the interaction between sex and ASD and found a differentially methylated region (DMR) over the 5′UTR region of ZFP57 and one of its targets, RASGRF2. These results match previous findings in brain tissue, which may indicate that ZFP57 could be used as a proxy for DNA methylation in different tissues. This is the first study performed in a Mexican, and subsequently, Latin American, population that evaluates DNA methylation in ASD patients. MDPI 2022-03-25 /pmc/articles/PMC9025761/ /pubmed/35455506 http://dx.doi.org/10.3390/children9040462 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Aspra, Queletzu
Cabrera-Mendoza, Brenda
Morales-Marín, Mirna Edith
Márquez, Carla
Chicalote, Carlos
Ballesteros, Ana
Aguilar, Miriam
Castro, Xochitl
Gómez-Cotero, Amalia
Balboa-Verduzco, Ana María
Albores-Gallo, Lilia
Nafate-López, Omar
Marcín-Salazar, Carlos Alfonso
Sánchez, Patricia
Lanzagorta-Piñol, Nuria
López-Armenta, Fernando Omar
Nicolini, Humberto
Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title_full Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title_fullStr Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title_full_unstemmed Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title_short Epigenome-Wide Analysis Reveals DNA Methylation Alteration in ZFP57 and Its Target RASGFR2 in a Mexican Population Cohort with Autism
title_sort epigenome-wide analysis reveals dna methylation alteration in zfp57 and its target rasgfr2 in a mexican population cohort with autism
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9025761/
https://www.ncbi.nlm.nih.gov/pubmed/35455506
http://dx.doi.org/10.3390/children9040462
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