TY - JOUR
T1 - Human Oocyte-Derived Methylation Differences Persist in the Placenta Revealing Widespread Transient Imprinting
AU - Sanchez-Delgado, Marta
AU - Court, Franck
AU - Vidal, Enrique
AU - Medrano, Jose
AU - Monteagudo-Sánchez, Ana
AU - Martin-Trujillo, Alex
AU - Tayama, Chiharu
AU - Iglesias-Platas, Isabel
AU - Kondova, Ivanela
AU - Bontrop, Ronald
AU - Poo-Llanillo, Maria Eugenia
AU - Marques-Bonet, Tomas
AU - Nakabayashi, Kazuhiko
AU - Simón, Carlos
AU - Monk, David
N1 - Publisher Copyright:
© 2016 Sanchez-Delgado et al.
PY - 2016/11
Y1 - 2016/11
N2 - Thousands of regions in gametes have opposing methylation profiles that are largely resolved during the post-fertilization epigenetic reprogramming. However some specific sequences associated with imprinted loci survive this demethylation process. Here we present the data describing the fate of germline-derived methylation in humans. With the exception of a few known paternally methylated germline differentially methylated regions (DMRs) associated with known imprinted domains, we demonstrate that sperm-derived methylation is reprogrammed by the blastocyst stage of development. In contrast a large number of oocyte-derived methylation differences survive to the blastocyst stage and uniquely persist as transiently methylated DMRs only in the placenta. Furthermore, we demonstrate that this phenomenon is exclusive to primates, since no placenta-specific maternal methylation was observed in mouse. Utilizing single cell RNA-seq datasets from human preimplantation embryos we show that following embryonic genome activation the maternally methylated transient DMRs can orchestrate imprinted expression. However despite showing widespread imprinted expression of genes in placenta, allele-specific transcriptional profiling revealed that not all placenta-specific DMRs coordinate imprinted expression and that this maternal methylation may be absent in a minority of samples, suggestive of polymorphic imprinted methylation.
AB - Thousands of regions in gametes have opposing methylation profiles that are largely resolved during the post-fertilization epigenetic reprogramming. However some specific sequences associated with imprinted loci survive this demethylation process. Here we present the data describing the fate of germline-derived methylation in humans. With the exception of a few known paternally methylated germline differentially methylated regions (DMRs) associated with known imprinted domains, we demonstrate that sperm-derived methylation is reprogrammed by the blastocyst stage of development. In contrast a large number of oocyte-derived methylation differences survive to the blastocyst stage and uniquely persist as transiently methylated DMRs only in the placenta. Furthermore, we demonstrate that this phenomenon is exclusive to primates, since no placenta-specific maternal methylation was observed in mouse. Utilizing single cell RNA-seq datasets from human preimplantation embryos we show that following embryonic genome activation the maternally methylated transient DMRs can orchestrate imprinted expression. However despite showing widespread imprinted expression of genes in placenta, allele-specific transcriptional profiling revealed that not all placenta-specific DMRs coordinate imprinted expression and that this maternal methylation may be absent in a minority of samples, suggestive of polymorphic imprinted methylation.
UR - http://www.scopus.com/inward/record.url?scp=85000631215&partnerID=8YFLogxK
U2 - 10.1371/journal.pgen.1006427
DO - 10.1371/journal.pgen.1006427
M3 - Article
C2 - 27835649
AN - SCOPUS:85000631215
SN - 1553-7390
VL - 12
JO - PLoS Genetics
JF - PLoS Genetics
IS - 11
M1 - e1006427
ER -