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Vertebrate reproductive science and technology
RESEARCH ARTICLE

84 MARKERS OF DNA METHYLATION IN OVINE UTERO–PLACENTAL TISSUES DURING EARLY PREGNANCY: EFFECTS OF ASSISTED REPRODUCTIVE TECHNOLOGY

A. T. Grazul-Bilska A , M. L. Johnson A , P. P. Borowicz A , D. A. Redmer A and L. P. Reynolds A
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Department of Animal Science and Center for Nutrition and Pregnancy, North Dakota State University, Fargo, ND, USA

Reproduction, Fertility and Development 24(1) 154-155 https://doi.org/10.1071/RDv24n1Ab84
Published: 6 December 2011

Abstract

Compromised pregnancies can be caused by genetic, epigenetic, environmental and/or other factors. Assisted reproductive technology (ART) may have profound effects on placental and fetal development, leading eventually to compromised pregnancy. DNA methylation, regulated by DNA methyltransferases (Dnmt) and other factors, plays an important role during embryonic, including placental, development. Altered DNA methylation in the trophoblast and, subsequently, the placenta has been reported for compromised pregnancies and may contribute to embryonic/fetal loss. Little is known, however, about DNA methylation processes in placental tissues during early stages of normal or compromised pregnancies in any species. Thus, we hypothesised that ART would affect the expression of 5 methylcytosine (5mC; a marker of global methylation) and mRNA for Dnmt1, 3a and 3b in utero-placental tissues during early pregnancy in sheep. Pregnancies (n = 7 per group) were achieved through natural breeding (NAT, control), or transfer of embryos generated through natural breeding (NAT-ET), in vitro fertilization (IVF) or in vitro activation (IVA; parthenogenetic clones). On Day 22 of pregnancy, caruncle (CAR; maternal placenta) and fetal membranes (FM; fetal placenta) were snap-frozen separately for RNA extraction followed by quantitative real-time PCR. In addition, cross sections of gravid uterus were fixed and then used for immunohistochemical detection and image analysis of 5 mC in FM. In FM, expression of mRNA for Dnmt3a was ∼2-fold greater (P < 0.01) in IVA compared with the other groups and was similar in NAT, NAT-ET and IVF groups. Expression of 5 mC was ∼2- to 3-fold greater (P < 0.02) in IVF and IVA than in NAT. In CAR, mRNA expression for Dnmt1 was ∼1.5-fold greater (P < 0.04) in IVA compared with the other groups, but Dnmt3a expression was less (P < 0.04) in NAT-ET and IVA than NAT. Expression of mRNA for Dnmt1 in FM and 3b in FM and CAR was similar in all groups. In IVA and/or IVF pregnancy, increased expression of Dnmt3a mRNA and/or 5 mC in FM may indicate de novo methylation in the fetal placenta. Furthermore, in pregnancies created through ART, decreased expression of Dnmt3a in CAR may indicate reduced de novo methylation in maternal placenta. Thus, in sheep, ART may have specific effects on growth and function of utero-placental and fetal tissues through regulation of DNA methylation and likely other mechanisms. These data provide a foundation for determining the basis for altered DNA methylation of specific genes in placental and embryonic tissues in compromised pregnancies. In addition, these data will help us to better understand placental regulatory mechanisms in compromised pregnancies and to identify strategies for rescuing such pregnancies.

Supported by Hatch Project ND01712; USDA grant 2007-01215 to LPR and ATGB, NIH grant HL64141 to LPR and DAR and NSF-MRI-ARRA grant to ATGB.