Oocyte Vitrification Temporarily Turns on Oxidation-Reduction Process Genes in Mouse Preimplantation Embryos.

We aim to understand how oocyte vitrification impacts subsequent mouse preimplantation embryo development at molecular level. We profiled transcriptomics of fertilized preimplantation embryos derived from mouse vitrified-warmed oocytes. Concomitantly, we evaluated epigenetic markers in fertilized preimplantation embryos. We found that oocyte vitrification did not affect the fertilization and cleavage process but delayed embryo development until blastocyst stage. RNA sequencing revealed that 1575 genes were profoundly altered in the 2-cell stage embryos developed from vitrified oocytes. The most significantly altered biological pathway was "oxidation-reduction process." Such profound transcriptomics change was associated with decreased level of oocyte-specific histone H1FOO in zygote and 2-cell stage. Transcriptome alteration due to oocyte vitrification was less pronounced as embryos develop into the morula stage. Oocyte vitrification temporarily changes transcriptomics in early preimplantation embryos. Targeting oxidation-reduction pathway might be a potential therapeutic strategy to improve embryo quality and long-term embryo survival.