Trichostatin A (TSA) is a potent inhibitor of histone deacetylases and has been shown to improve cloned embryo pre-implantation and term development. We examined the effects of TSA treatment on cloned mouse embryonic gene expression using microarrays. Cloned mouse embryos were generated using long-term haematopoietic stem cells (LT-HSC) and terminally differentiated granulocytes (Gr-1) as nuclear donors, which have been shown to have significantly different cloning efficiencies (Sung et al. 2006 Nat. Gen. 38, 1323–1328). Late 2-cell and blastocyst stage cloned embryos and control, BDF1 in vivo and IVF embryos (n = 10 from each embryo type and stage, except LT-HSC blastocysts, where n = 5) were snap frozen in liquid nitrogen. Total RNA was isolated from individual embryos and amplified using the TargetAmp 2 round Aminoallyl aRNA amplification kit (Epicentre Biotechnologies, Madison, WI, USA). Amplified RNA from each embryo and a standard reference was labelled with Cy3 or Cy5 and hybridized to the mouse exonic evidence based oligonucleotide (MEEBO) microarray allowing for the interrogation of ~25 000 genes. After Loess normalization, ANOVA with false discovery rate (P < 0.001) was used to identify differentially expressed (DE) genes. A subset of the DE genes was verified by RT-qPCR. These two cell types drastically differed in their potential to give rise to morula/blastocyst stage embryos: LT-HSC: 4.1% v. Gr-1: 38.9%. When treated with 10 nM TSA (Sigma, St. Louis, MO, USA) for 10 h immediately after activation, the morula/blastocyst rate increased to 66.1% for the LT-HSC cloned embryos and to 69.3% for the Gr-1 cloned embryos. At the 2-cell stage, we identified 2172 DE genes between the TSA-treated and untreated LT-HSC embryos. There were 512 DE genes between the Gr-1 and Gr-1 TSA embryos. Interestingly, the cloned embryos were more similar to the in vivo and IVF embryos after TSA treatment at the 2-cell stage, as evidenced by hierarchical clustering and the reduced number of DE genes: LT-HSC v. in vivo = 2622 genes; LT-HSC TSA v. in vivo = 473; Gr-1 v. in vivo = 1448; Gr-1 TSA v. in vivo = 312. By the blastocyst stage, the effect of TSA was considerably less pronounced with 18 and 17 DE genes between the LT-HSC/TSA and Gr-1/TSA embryos, respectively. These data indicate that TSA treatment normalizes 2-cell cloned embryo gene expression, enabling significantly more embryos to develop to the blastocyst stage. Our findings demonstrate that TSA exerted the greatest effect on the LT-HSC embryos, which were the most difficult to reprogram by SCNT.
Bioconductor caAffy Loess Normalization
