222 LOSS OF IMPRINTS OF PARTHENOGENETIC EMBRYONIC STEM CELLS IN MURINE CHIMERAS

Abstract

Mammalian parthenotes with the 2 maternal genomes cannot develop to term. By contrast, chimeras produced by parthenogenetic and normal embryos can develop to term. However, parthenogenetic cells contribute to restricted cells and body weights of the chimeras are reduced. These effects are due to aberrant expressions of imprinted genes, with complete methylation of the maternally methylated genes and complete loss of the paternally methylated genes. On the other hand, parthenogenetic ES (PGES) chimeras show more normal tissue contribution of donor cells and body weight compared to parthenogenetic embryo (PG) chimeras. To elucidate the epigenetic mechanisms underlying this, we analyzed the epigenetic status of maternally methylated genes in murine PG and PGES chimeras. To make parthenogenetic chimeras, PG and PGES cells which express green fluorescent protein (GFP) were introduced into normal host embryos. Mouse embryonic fibroblasts (MEFs) from E13.5 chimeric fetuses were sorted by the fluorescence-activated cell sorter (FACS). Methylation status of parthenogenetic cells was analyzed by combined bisulfite restriction analysis (COBRA) and bisulfite sequencing. Methylation of maternally methylated genes, Peg1/Mest, Snrpn, and Igf 2r, was almost totally maintained in PG chimeras. Average methylatation percentages of PG-derived MEFs were 80% in Peg1/Mest, 84% in Snrpn, and 81% in Igf 2r (n = 6). In contrast, methylation in some PGES chimeras was partially reduced to normal level in all 3 genes (10–45%, n = 7). To clarify whether demethylation is correlated with expression of the imprinted genes, gene expression was analyzed by quantitative real-time RT-PCR. Among maternally imprinted genes, Peg1/Mest and Snrpn are expressed from the paternal allele, whereas Igf 2r is expressed from the maternal allele. Therefore, in parthenogenetic cells, loss of imprints is expected to up-regulate Peg1/Mest and Snrpn expression, and down-regulate Igf 2r expression. In fact, PGES-derived MEFs were up-regulated in Peg1/Mest and Snrpn expression, and down-regulated in Igf 2r expression. This study revealed that variations of imprint status were observed frequently in somatic cells of PGES cell origin. Demethylation could have occurred during establishment and/or maintenance of PGES cells. This demethylation that occurred in PGES cells could reprogram the maternally methylated imprinted genes and improve tissue contribution and body weight to normal level. The PGES cells with reprogramming ability might be utilized for fertility treatment and regenerative medicine.