Abstract
Oxygen tension is one of the most critical factors for mammalian embryo development and its survival. The HIF protein is an essential transcription factor that activated under hypoxic conditions. In this study, we evaluated the effect of dynamic oxygen conditions on the expression of embryonic genes and translocation of hypoxia-inducible factor-1α (HIF-1α) in cultured mouse blastocysts. Two-pronuclear (2PN) zygotes harvested from ICR mice were subjected to either high oxygen (HO; 20%), low oxygen (LO; 5%), or dynamic oxygen (DO; 5% to 2%) conditions. In the DO group, PN zygotes were cultured in 5% O2 from days 1 to 3 and then in 2% O2 till day 5 after hCG injection. On day 5, the percentage of blastocysts in the cultured embryos from each group was estimated, and the embryos were also subjected to immunocytochemical and gene expression analysis. We found that the percentage of blastocysts was similar among the experimental groups; however, the percentage of hatching blastocysts in the DO and LO groups was significantly higher than that in the HO group. The total cell number of blastocysts in the DO group was significantly higher than that of both the HO and LO groups. Further, gene expression analysis revealed that the expression of genes related to the embryonic development was significantly higher in the DO group than that in the HO and LO groups. Interestingly, HIF-1α mRNA expression did not significantly differ; however, HIF-1α protein translocation from the cytoplasm to the nucleus was significantly higher in the DO group than in the HO and LO groups. Our study suggests that dynamic oxygen concentrations increase the developmental capacity in mouse preimplantation embryos through activation of the potent transcription factor HIF-1α.
Highlights
Optimized in vitro culture conditions for human zygotes and preimplantation embryos are vital in determining embryo developmental competency and fetus quality [1]
Mouse 2. Collection of Two-Pronuclear (2PN) zygotes were cultured for 4 days, and the effect of different oxygen concentrations on the development of blastocysts was evaluated on day 5 after human chorionic gonadotropin (hCG) administration (Table 2)
The percentage of hatching blastocysts was significantly increased in the dynamic oxygen (DO) group (49.7%) compared to that in both the high oxygen (HO) (32.3%) and low oxygen (LO) (39.7%) groups (p < 0:01)
Summary
Optimized in vitro culture conditions for human zygotes and preimplantation embryos are vital in determining embryo developmental competency and fetus quality [1]. Several studies have reported that low oxygen (LO; ≤5% oxygen) concentrations enhance the embryonic developmental competence of human zygotes and preimplantation embryos in vitro [2,3,4,5,6,7,8,9]. There are no optimized culture systems that reflect the different oxygen concentrations within the female reproductive tract. In vitro culture systems for preimplantation embryos that mimic oxygen concentrations in the in vivo female reproductive system have begun to emerge [13,14,15], despite lack of standards for the culture systems and conditions
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