Effects of oxidative stress during bovine in vitro embryo production on miR-199a and its target genes ERBB2 and ERBB3

The in vitro embryo production exposes the concept to conditions different from the intra-tubal-uterine environment. The high oxygen tension during in vitro production induces the oxidative stress by increasing the concentration of reactive oxygen species. The oxidative stress condition changes the mRNA and miRNAs expression, it can compromise pathways of maternal-embryonic interaction. Recently, the exosomes have been described as a complementary mechanism of mRNA and miRNAs transport, which improve the bidirectional maternal-embryonic communication. Therefore, the studies of the embryos and exosomes isolated from the IVP culture medium are relevant. Two cultivation models are usually used in IVP, the high tension (20%) and the low tension (5%) of oxygen. The hypothesis of this study is that the high oxygen tension in the embryonic culture generates an oxidative stress condition that causes changes in the mRNA and miRNAs expression. In addition, this oxidative stress is able to modulate the secretion pattern of the exosomes isolated from IVP embryos. To test this hypothesis, this study produced in vitro bovine embryos developed at different oxygen tensions. The embryos were sampled on day 7 and the culture media, for exosomes isolation, were collected on days 3 and 7 of the embryo development. Blastocysts cultured in high oxygen tension showed increased levels of ROS through fluorescence analysis. This result validated the oxidative stress model for embryos. In order to understand the effect of oxidative stress on the pathways of maternal-embryonic interaction, this study aimed to analyze the ERBB signaling pathway. Despite the fact that miR-199a-5p, described as a possible regulator of the ERBB2 and ERBB3 target genes, showed higher expression in embryos cultured under high tension, the ERBB2 and ERBB3 transcripts and the ERBB2 protein showed no significant difference between high and low oxygen tension groups. Since a regulatory relationship between miR-199a-5p and the ERBB2 target gene was not established for bovine embryos, this study turned to the analysis of other 96 mRNAs and 378 miRNAs, out of 40 mRNAs and 8 miRNAs showed significant changes among the groups. The main altered functions are the response to oxidative stress, cell proliferation and differentiation, epigenetic remodeling, apoptosis, metabolism and maternal-fetal recognition. Finally, in order to understand the bigger picture of oxidative stress effect we analyze the secretion pattern and the miRNA content of the exosomes from culture medium of IVP embryos. Oxidative stress change both, the exosome concentration and the miRNA expression (at D3 and D7). Among the miRNAs, we highlight the miR-210 that was considered by this work as a non-invasive biomarker of the normoxia condition in the in vitro culture of bovine embryos. In conclusion, this study did not elucidate how oxidative stress changes the maternal-embryonic interaction in IVP embryos, but it generated additional knowledge about bovine embryonic development and the high oxygen tension effects. (AU)