AUTHOR=de Sá Machado Araújo Graziela , da Silva Francisco Junior Ronaldo , dos Santos Ferreira Cristina , Mozer Rodrigues Pedro Thyago , Terra Machado Douglas , Louvain de Souza Thais , Teixeira de Souza Jozimara , Figueiredo Osorio da Silva Cleiton , Alves da Silva Antônio Francisco , Andrade Claudia Caixeta Franco , da Silva Alan Tardin , Ramos Victor , Garcia Ana Beatriz , Machado Filipe Brum , Medina-Acosta Enrique 

TITLE=Maternal 5mCpG Imprints at the PARD6G-AS1 and GCSAML Differentially Methylated Regions Are Decoupled From Parent-of-Origin Expression Effects in Multiple Human Tissues

JOURNAL=Frontiers in Genetics

VOLUME=9

YEAR=2018

URL=https://www.frontiersin.org/journals/genetics/articles/10.3389/fgene.2018.00036

DOI=10.3389/fgene.2018.00036

ISSN=1664-8021

ABSTRACT=<p>A hallmark of imprinted genes in mammals is the occurrence of parent-of-origin-dependent asymmetry of DNA cytosine methylation (5<sup>m</sup>C) of alleles at CpG islands (CGIs) in their promoter regions. This 5<sup>m</sup>CpG asymmetry between the parental alleles creates allele-specific imprinted differentially methylated regions (iDMRs). iDMRs are often coupled to the transcriptional repression of the methylated allele and the activation of the unmethylated allele in a tissue-specific, developmental-stage-specific and/or isoform-specific fashion. iDMRs function as regulatory platforms, built through the recruitment of chemical modifications to histones to achieve differential, parent-of-origin-dependent chromatin segmentation states. Here, we used a comparative computational data mining approach to identify 125 novel constitutive candidate iDMRs that integrate the maximal number of allele-specific methylation region records overlapping CGIs in human methylomes. Twenty-nine candidate iDMRs display gametic 5<sup>m</sup>CpG asymmetry, and another 96 are candidate secondary iDMRs. We established the maternal origin of the 5<sup>m</sup>CpG imprints of one gametic (<italic>PARD6G-AS1</italic>) and one secondary (<italic>GCSAML</italic>) iDMRs. We also found a constitutively hemimethylated, nonimprinted domain at the <italic>PWWP2AP1</italic> promoter CGI with oocyte-derived methylation asymmetry. Given that the 5<sup>m</sup>CpG level at the iDMRs is not a sufficient criterion to predict active or silent locus states and that iDMRs can regulate genes from a distance of more than 1 Mb, we used RNA-Seq experiments from the Genotype-Tissue Expression project and public archives to assess the transcriptional expression profiles of SNPs across 4.6 Mb spans around the novel maternal iDMRs. We showed that <italic>PARD6G-AS1</italic> and <italic>GCSAML</italic> are expressed biallelically in multiple tissues. We found evidence of tissue-specific monoallelic expression of <italic>ZNF124</italic> and <italic>OR2L13</italic>, located 363 kb upstream and 419 kb downstream, respectively, of the <italic>GCSAML</italic> iDMR. We hypothesize that the <italic>GCSAML</italic> iDMR regulates the tissue-specific, monoallelic expression of <italic>ZNF124</italic> but not of <italic>OR2L13</italic>. We annotated the non-coding epigenomic marks in the two maternal iDMRs using data from the Roadmap Epigenomics project and showed that the <italic>PARD6G-AS1</italic> and <italic>GCSAML</italic> iDMRs achieve contrasting activation and repression chromatin segmentations. Lastly, we found that the maternal 5<sup>m</sup>CpG imprints are perturbed in several hematopoietic cancers. We conclude that the maternal 5<sup>m</sup>CpG imprints at <italic>PARD6G-AS1</italic> and <italic>GCSAML</italic> iDMRs are decoupled from parent-of-origin transcriptional expression effects in multiple tissues.</p>