Comparative analysis of development-related gene expression in mouse preimplantation embryos with different developmental potential.

The potential of embryonic and somatic cell nuclear-transferred (NT) mouse oocytes to develop into young is low compared with bovine NT oocytes. To examine the reasons for the low developmental potential of NT mouse oocytes, we analyzed the gene expression patterns of six development-related genes (Oct4, Nanog, Stat3, stella, FGF4, and Sox2) during preimplantation development in manipulated oocytes with different potentials to develop into young using real-time polymerase chain reaction (PCR) methods. The manipulated oocytes were parthenogenetically activated oocytes and embryonic stem cell, cumulus cell, morula blastomere NT oocytes, and in vitro-cultured and in vivo-recovered embryos. The mRNA expression patterns in mouse NT-derived embryos markedly differed from in vivo and in vitro counterparts. Some transcript expression patterns in embryonic stem-cell NT oocytes resembled those of parthenogenetic oocytes. Of the six developmentally important transcripts examined in NT embryos, four had a downregulated expression pattern at the blastocyst stage. Our findings indicate that abnormal expression patterns of development-related genes during preimplantation development correlate with the low potential of NT oocytes to develop into young. Although more detailed information is required, Sox2 mRNA expression pattern in blastocysts seems to closely correlate with the developmental potential of NT embryos. (c) 2005 Wiley-Liss, Inc.