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Vertebrate reproductive science and technology
RESEARCH ARTICLE

331 ABNORMAL DNA METHYLATION PATTERNS AND ALLELE-SPECIFIC EXPRESSION OF IMPRINTED GENES IN BOVINE-INDUCED PLURIPOTENT STEM CELLS

F. F. Bressan A , J. Therrien B , F. Filion B , F. Perecin A , L. C. Smith B and F. V. Meirelles A
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A Department of Veterinary Medicine, Faculty of Animal Sciences and Food Engineering, University of São Paulo, Pirassununga, São Paulo, Brazil;

B Centre de recherche en reproduction animale (CRRA), Faculty of Veterinary Medicine, University of Montreal, Saint-Hyacinthe, Quebec, Canada

Reproduction, Fertility and Development 27(1) 254-254 https://doi.org/10.1071/RDv27n1Ab331
Published: 4 December 2014

Abstract

Pluripotency reacquisition of somatic cells has been achieved through nuclear transfer (NT) to oocytes and, more recently, through induction with pluripotency-related factors (iPS cells). However, the epigenetic reprogramming process that enables the derivation of both NT-derived cloned animals and iPS cells is usually incomplete, leading to unhealthy offspring and poorly reprogrammed iPS cell lines. These unfavourable outcomes result in part from abnormal genome DNA methylation that leads to aberrant gene expression patterns. For instance, differentially methylated regions (DMR) and monoalleleic expression of imprinted genes, essential for normal cellular commitment and early development, are thought to be severely disturbed by reprogramming techniques. Indeed, H19 and SNRPN, imprinted genes, were disturbed in bovine NT-derived embryos and fetuses. Herein we investigated whether the DMR and parent-of-origin expression of the imprinted genes H19 and SNRPN are also perturbed in iPS lines. To analyse the DMR methylation patterns and allelic expression of H19 and SNRPN using parental-specific polymorphisms, we derived multiple clones of bovine iPS (biPS) cells from an interspecies (Bos indicus × Bos taurus) fetal fibroblast (bFF) using transduction with a policystronic lentivirus containing mouse Oct4, Sox2 c-Myc, and Klf-4 transcription factors. The DNA methylation patterns were evaluated by bisulfite sequencing and allelic expression by designing allele-specific PCR probes. We also quantified transcript expression by RT-PCR of H19, IGF2, SNRPN, OCT4, and NANOG by normalization with 3 housekeeping genes (GAPDH, NAT1, and ACTB). The biPS lines were characterised by a high nuclear : cytoplasmic ratio, dome-shaped colonies, positive AP activity, embryoid body formation, in vitro and in vivo (teratoma) formation, and expression of pluripotency-related genes. Compared to the bFF cells, methylation analyses of H19 showed partial hypomethylation of the paternal DMR on 1 iPS cell line and partial demethylation of the CTCF-binding region in the DMR of 2 other biPS lines, indicating abnormal demethylation of 3 out of the 4 biPS lines analysed. Methylation analyses of SNRPN revealed a partial hypomethylation in the maternal DMR and partial hypermethylation of the paternal DMR in 2 iPS lines. Gene expression analyses revealed the biallelic expression of H19 and decreased global expression of both H19 and IGF2, as well as the exclusively monoallelic paternal expression and significant increase in global expression of SNRPN. Interestingly, although OCT4 was substantially overexpressed in biPS lines, we identified a hypermethylation of the CG-rich region of the OCT4 exon 1. Endogenous NANOG expression was observed in 2 biPS clones. We conclude that imprinting errors are observed in biPS clones, suggesting that these epigenetic anomalies are related to the reprogramming process and could be directly responsible for the variable phenotypes and low success rates of both cloning and iPS derivation procedures.

Financial support was from NSERC, FAPESP (13/13686-8, 11/08376-4, 57877-3/2008, 08.135-2/2013), CNPq (573754/2008-0, 482163/2013-5).