Project description:Mutations in components of the subcortical maternal complex (SMC) of the human oocyte are enigmatically associated with DNA methylation abnormalities specifically at imprinted genes in conceptuses, but the developmental timing, genomic extent and mechanistic details of these defects are unknown. Here, we show, by single-cell bisulphite sequencing, that mutation in human KHDC3L that causes recurrent hydatidiform mole results in a genome-wide deficit of de novo methylation in oocytes.

Project description:Imprinted genes are critical for normal human growth and neurodevelopment. We developed a strategy to identify new DNA differentially methylated regions (DMRs), a hallmark of imprinted genes. Using genome-wide methylation profiling, candidate DMRs were selected by identifying CpGs with putative allelic differential methylation in normal biparental tissues. In parallel, we looked for parent of origin-specific DNA methylation patterns in paternally derived human androgenetic complete hydatidiform mole (AnCHM), and maternally derived mature cystic ovarian teratoma (MCT). Using this approach, we found known DMRs associated with imprinted genomic regions as well as new DMRs for known imprinted genes, NAP1L5 and ZNF597. Most importantly, novel candidate imprinted genes were identified. The paternally methylated DMR for one candidate, AXL, a receptor tyrosine kinase, was validated by methylation analyses in humans. Further validation in mouse embryos showed that Axl was expressed preferentially from the maternal allele in a DNA methylation–dependent manner. We have analyzed 3 androgenetic complete hydatidiform mole (AnCHM), 16 white blood cell (WBC), 1 mature cystic ovarian teratoma (MCT), 5 placenta, and 1 lymphoblastoid cell line paternal UPD4 sample

Project description:Multi-locus imprinting Disturbances (MLID) are methylation defects affecting germline-derived Differentially Methylated Regions (gDMRs) and they have been associated with maternal-effect variants causing imprinting disorders in the offspring. In a family with multiple pregnancy losses, a child with Beckwith-Wiedemann syndrome (BWS) and a further child without any features of imprinting disorders, novel compound heterozygous variants in the NLRP5 gene of the mother were found. Locus-specific and whole-genome methylation analysis by using Infinium MethylationEPIC BeadChip (WG-317-1001, Illumina) revealed MLID with different methylation profiles in both the siblings. The proband and the normal sibling were found to cluster with other MLID cases as shown by principal component analysis and unsupervised hierarchical clustering and remain distinct from controls. However, we were unable to cluster MLID cases associated with specific clinical phenotypes. The identification of two novel maternal-effect variants of NLRP5 associated with poly-abortivity and MLID add further evidence to the role of NLRP5 in the maintenance of genomic imprinting in early embryos. Furthermore, our results demonstrate that within these pedigrees MLID can also be present in the progeny with healthy phenotype, indicating that some sort of compensation occurs between altered imprinted loci in these individuals.

Project description:The aim of our study was to characterize the genotypic and phenotypic extent of multi-locus imprinting disturbances. Therefore, we analyzed the DNA methylation pattern of 37 individuals with different DNA methylation disturbances. Of these 37 individuals 17 were previously diagnosed with a multi-locus methylation disturbance (MLID) and the remaing 20 were diagnosed with a typical single locus imprinting disorder (SLID). We compared the DNA methylation of these 37 individuals to the DNA methylation of 38 evaluable individuals born small for gestational age. Our analysis revealed 21/37 individuals with a multi-locus methylation disturbances, characterzied by an aberrant DNA methylation in more than one imprintend gene region. Validation analyses were performed by bisulfite-pyrosequencing in the two imprinted gene regions ZDBF2 and FAM50B. Our analyses revealed each one patient previously diagnosed with Temple- and Angelman syndrome to have MLID. Furthermore, we showed that many of the aberrantly methylated imprinted gene regions in patients with MLID are not associated with the so far known typical imprinting disorders.

Project description:Genomic imprinting is a mechanism in which the expression of genes varies depending on their parent-of-origin. Imprinting occurs through differential DNA methylation and histone modifications on the two parental alleles, with most imprinted genes marked by CpG-rich differentially methylated regions (DMRs). DNA methylation profiling in cases of uniparental disomy (UPD) provides a unique system permitting the study of DNA derived from a single parent (PMID: 20631049). Approximately 70 human imprinted genes have been described, and imprinted loci have been associated with diseases such as diabetes and cancer. We profiled parent of origin DNA methylation marks to find novel imprinted loci. Methods: We have an unprecedented collection of whole blood DNA from XX patients with UPD covering 18 different chromosomes, allowing for the efficient detection of DMRs associated with imprinted genes for 84% of the human genome. Our study is complimented with Ovarian Teratoma DNA (maternal DNA) and Complete hydatidiform Mole (paternal DNA). DNA methylation was profiled using Illumina Infinium 450K Methylation BeadArrays. Imprinted DMRs were defined by sites at which the maternal and paternal methylation levels diverged significantly from the biparental average. We confirmed novel DMRs by bisulfite sequencing of informative trios and SequenomEpiTYPER assays. Allelic specific gene expression studies were also performed by RNA sequencing in independent biparental controls. Findings: Our results provide for the first comprehensive map of the human imprintome, doubling the number of known imprinted regions. We identified a total of 71 DMRs, 41 of which were novel. 27 novel DMRs were maternally methylated and 14 were paternally methylated. We identified DMRs on chromosomes 5, 21 and 22 previously considered devoid of imprinting, highlighting potential parent-of-origin effects in chromosomal aneuploidies such as Down syndrome. We also found DMRs in genes associated with Schizophrenia and epilepsy. Interpretation: Our data provide the first comprehensive genome-wide map of imprinted sites in the human genome, and provide novel insights into potential parent-of-origin effects in human disorders. 66 UPD samples analyzed in total, From each individual, whole bllod DNA was extracted and global DNA methylation levels were assessed using Illumina Infinium HumanMethylation450 BeadChip.

Project description:Androgenetic induced pluripotent stem cells (AgHiPSCs) were generated from androgenetic fibroblasts derived from a complete hydatidiform mole. AgHiPSCs can be used in regenerative medicine, for analysis of genomic imprinting, to study imprinting-related development, and for disease modeling in humans. To investigate the pluripotency state of AgHiPSCs, we analyzed their cellular and molecular characteristics (morphology, RT-PCR, qPCR, immunochemistry, and differentiation capacity in vitro and in vivo). We tested the DNA methylation status of imprinted genes using bisulfite sequencing and demonstrated the androgenetic identity of AgHiPSCs.

Project description:The term gestational trophoblastic disease (GTD) describes a range of pathologies derived from the villous trophoblasts of the placenta. These include benign entities such as partial and complete hydatidiform mole as well as invasive cancers such as gestational choriocarcinoma, placental site trophoblastic tumors, and epithelioid trophoblastic tumors. Collectively, the malignant forms of GTD are known as gestational trophoblastic neoplasia (GTN). The risk of GTN following a complete molar pregnancy ranges between 8-25%. Low risk patients are expected to have a high likelihood of response to single agent chemotherapy with methotrexate or actinomycin D, but the incidence of resistance to single agent chemotherapy among low risk patients remains 25-50%. We used gene expression microarrays to compare methotrexate sensitive trophoblastic cell lines to sublines that were conditioned to become methotrexate resistant.

Project description:PADI6 is a component of the subcortical maternal complex (SCMC) which is a group of proteins that are abundantly expressed in the oocyte cytoplasm and essential for the proper development of the early embryo. The mutation(s) in the components of the subcortical maternal complex have been associated with reproductive failures, including formation of hydatidiform mole, female infertility and imprinting disorders with multi-locus imprinting disturbance (MLIDs).In the current study by using whole-exome sequencing analysis, we identified four cases of Beckwith-Wiedemann Syndrome with multi-locus imprinting disturbance while their mothers were carriers of variants in PADI6 gene. Genome-wide methylation profiling using Methylation EPIC array depicted the loss of methylation specifically at several known imprinted loci in affected individuals as compared to healthy siblings, parents and controls. Our findings firmly establish the role of PADI6 in imprinting disorders.

Project description:Patients with molar pregnancy are at risk of developing persistent trophoblastic disease (PTD). Previous study indicated that PTD risk was not related to evacuation time of hydatidiform mole (HM), leading to our hypothesis that HM might be pre-programmed before evacuation to determine the PTD risk. Considering the similarity between PTD and tumorigenesis, we investigated the methylation alterations in PTD conceptus using reduced representation bisulfite sequencing (RRBS), in order to identify potential predictors for PTD.

Project description:MLID imprinting disorders