Methylome profiling of healthy and central precocious puberty girls

Methylome profiling of healthy and central precocious puberty girls

Abstract Background Recent studies demonstrated that changes in DNA methylation (DNAm) and inactivation of two imprinted genes (MKRN3 and DLK1) alter the onset of female puberty. We aimed to investigate the association of DNAm profiling with the timing of human puberty analyzing the genome-wide DNAm...

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Main Authors: Danielle S. Bessa, Mariana Maschietto, Carlos Francisco Aylwin, Ana P. M. Canton, Vinicius N. Brito, Delanie B. Macedo, Marina Cunha-Silva, Heloísa M. C. Palhares, Elisabete A. M. R. de Resende, Maria de Fátima Borges, Berenice B. Mendonca, Irene Netchine, Ana C. V. Krepischi, Alejandro Lomniczi, Sergio R. Ojeda, Ana Claudia Latronico
Format: Article
Language:English
Published: BMC 2018-11-01
Series:Clinical Epigenetics
Subjects:
Human puberty
Central precocious puberty
DNA methylation
Epigenetics
Genomic imprinting
Zinc finger genes
Online Access:http://link.springer.com/article/10.1186/s13148-018-0581-1
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author Danielle S. Bessa
Mariana Maschietto
Carlos Francisco Aylwin
Ana P. M. Canton
Vinicius N. Brito
Delanie B. Macedo
Marina Cunha-Silva
Heloísa M. C. Palhares
Elisabete A. M. R. de Resende
Maria de Fátima Borges
Berenice B. Mendonca
Irene Netchine
Ana C. V. Krepischi
Alejandro Lomniczi
Sergio R. Ojeda
Ana Claudia Latronico
spellingShingle Danielle S. Bessa
Mariana Maschietto
Carlos Francisco Aylwin
Ana P. M. Canton
Vinicius N. Brito
Delanie B. Macedo
Marina Cunha-Silva
Heloísa M. C. Palhares
Elisabete A. M. R. de Resende
Maria de Fátima Borges
Berenice B. Mendonca
Irene Netchine
Ana C. V. Krepischi
Alejandro Lomniczi
Sergio R. Ojeda
Ana Claudia Latronico
Methylome profiling of healthy and central precocious puberty girls
Clinical Epigenetics
Human puberty
Central precocious puberty
DNA methylation
Epigenetics
Genomic imprinting
Zinc finger genes
author_facet Danielle S. Bessa
Mariana Maschietto
Carlos Francisco Aylwin
Ana P. M. Canton
Vinicius N. Brito
Delanie B. Macedo
Marina Cunha-Silva
Heloísa M. C. Palhares
Elisabete A. M. R. de Resende
Maria de Fátima Borges
Berenice B. Mendonca
Irene Netchine
Ana C. V. Krepischi
Alejandro Lomniczi
Sergio R. Ojeda
Ana Claudia Latronico
author_sort Danielle S. Bessa
title Methylome profiling of healthy and central precocious puberty girls
title_short Methylome profiling of healthy and central precocious puberty girls
title_full Methylome profiling of healthy and central precocious puberty girls
title_fullStr Methylome profiling of healthy and central precocious puberty girls
title_full_unstemmed Methylome profiling of healthy and central precocious puberty girls
title_sort methylome profiling of healthy and central precocious puberty girls
publisher BMC
series Clinical Epigenetics
issn 1868-7075
1868-7083
publishDate 2018-11-01
description Abstract Background Recent studies demonstrated that changes in DNA methylation (DNAm) and inactivation of two imprinted genes (MKRN3 and DLK1) alter the onset of female puberty. We aimed to investigate the association of DNAm profiling with the timing of human puberty analyzing the genome-wide DNAm patterns of peripheral blood leukocytes from ten female patients with central precocious puberty (CPP) and 33 healthy girls (15 pre- and 18 post-pubertal). For this purpose, we performed comparisons between the groups: pre- versus post-pubertal, CPP versus pre-pubertal, and CPP versus post-pubertal. Results Analyzing the methylome changes associated with normal puberty, we identified 120 differentially methylated regions (DMRs) when comparing pre- and post-pubertal healthy girls. Most of these DMRs were hypermethylated in the pubertal group (99%) and located on the X chromosome (74%). Only one genomic region, containing the promoter of ZFP57, was hypomethylated in the pubertal group. ZFP57 is a transcriptional repressor required for both methylation and imprinting of multiple genomic loci. ZFP57 expression in the hypothalamus of female rhesus monkeys increased during peripubertal development, suggesting enhanced repression of downstream ZFP57 target genes. Fourteen other zinc finger (ZNF) genes were related to the hypermethylated DMRs at normal puberty. Analyzing the methylome changes associated with CPP, we demonstrated that the patients with CPP exhibited more hypermethylated CpG sites compared to both pre-pubertal (81%) and pubertal (89%) controls. Forty-eight ZNF genes were identified as having hypermethylated CpG sites in CPP. Conclusion Methylome profiling of girls at normal and precocious puberty revealed a widespread pattern of DNA hypermethylation, indicating that the pubertal process in humans is associated with specific changes in epigenetically driven regulatory control. Moreover, changes in methylation of several ZNF genes appear to be a distinct epigenetic modification underlying the initiation of human puberty.
topic Human puberty
Central precocious puberty
DNA methylation
Epigenetics
Genomic imprinting
Zinc finger genes
url http://link.springer.com/article/10.1186/s13148-018-0581-1
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spelling doaj-2d4379157d88496ab9b3f169b0364cc22020-11-25T00:40:02ZengBMCClinical Epigenetics1868-70751868-70832018-11-0110111810.1186/s13148-018-0581-1Methylome profiling of healthy and central precocious puberty girlsDanielle S. Bessa0Mariana Maschietto1Carlos Francisco Aylwin2Ana P. M. Canton3Vinicius N. Brito4Delanie B. Macedo5Marina Cunha-Silva6Heloísa M. C. Palhares7Elisabete A. M. R. de Resende8Maria de Fátima Borges9Berenice B. Mendonca10Irene Netchine11Ana C. V. Krepischi12Alejandro Lomniczi13Sergio R. Ojeda14Ana Claudia Latronico15Division of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloBrazilian Biosciences National Laboratory (LNBio), Brazilian Center for Research in Energy and Materials (CNPEM)Division of Genetics, Oregon National Primate Research Center/OHSUDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloDivision of Endocrinology, Triangulo Mineiro Federal UniversityDivision of Endocrinology, Triangulo Mineiro Federal UniversityDivision of Endocrinology, Triangulo Mineiro Federal UniversityDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloSorbonne Université, INSERM, UMR_S 938 Centre de Recherche Saint Antoine, APHP, Hôpital Armand Trousseau, Explorations Fonctionnelles EndocriniennesDepartment of Genetics and Evolutionary Biology, Institute of Biosciences, University of Sao PauloDivision of Genetics, Oregon National Primate Research Center/OHSUDivision of Neuroscience, Oregon National Primate Research Center/OHSUDivision of Endocrinology & Metabolism, Development Endocrinology Unit, Laboratory of Hormones and Molecular Genetics/LIM42, Clinical Hospital, Sao Paulo Medical School, University of Sao PauloAbstract Background Recent studies demonstrated that changes in DNA methylation (DNAm) and inactivation of two imprinted genes (MKRN3 and DLK1) alter the onset of female puberty. We aimed to investigate the association of DNAm profiling with the timing of human puberty analyzing the genome-wide DNAm patterns of peripheral blood leukocytes from ten female patients with central precocious puberty (CPP) and 33 healthy girls (15 pre- and 18 post-pubertal). For this purpose, we performed comparisons between the groups: pre- versus post-pubertal, CPP versus pre-pubertal, and CPP versus post-pubertal. Results Analyzing the methylome changes associated with normal puberty, we identified 120 differentially methylated regions (DMRs) when comparing pre- and post-pubertal healthy girls. Most of these DMRs were hypermethylated in the pubertal group (99%) and located on the X chromosome (74%). Only one genomic region, containing the promoter of ZFP57, was hypomethylated in the pubertal group. ZFP57 is a transcriptional repressor required for both methylation and imprinting of multiple genomic loci. ZFP57 expression in the hypothalamus of female rhesus monkeys increased during peripubertal development, suggesting enhanced repression of downstream ZFP57 target genes. Fourteen other zinc finger (ZNF) genes were related to the hypermethylated DMRs at normal puberty. Analyzing the methylome changes associated with CPP, we demonstrated that the patients with CPP exhibited more hypermethylated CpG sites compared to both pre-pubertal (81%) and pubertal (89%) controls. Forty-eight ZNF genes were identified as having hypermethylated CpG sites in CPP. Conclusion Methylome profiling of girls at normal and precocious puberty revealed a widespread pattern of DNA hypermethylation, indicating that the pubertal process in humans is associated with specific changes in epigenetically driven regulatory control. Moreover, changes in methylation of several ZNF genes appear to be a distinct epigenetic modification underlying the initiation of human puberty.http://link.springer.com/article/10.1186/s13148-018-0581-1Human pubertyCentral precocious pubertyDNA methylationEpigeneticsGenomic imprintingZinc finger genes

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