Differential Effects of Trichostatin A on Mouse Embryogenesis and Development

Trichostatin A (TSA), a histone deacetylase (HDAC) inhibitor, can significantly improve the reprogramming efficiency of somatic cells. However, whether TSA has detrimental effect on other kinds of embryos is largely unknown because of the lack of integrated analysis of TSA effect on natural fertilized embryos. To investigate the effect of TSA on mouse embryo development, we analyzed preimplantation and post-implantation development of in vivo, in vitro fertilized, and parthenogenetic embryos treated with TSA at different concentrations and durations. In vivo fertilized embryos appeared to be the most sensitive to TSA treatment among the three groups, and the blastocyst formation rate decreased sharply as TSA concentration and treatment time increased. TSA treatment also reduced the livebirth rate for in vivo fertilized embryos from 56.59% to 38.33%, but did not significantly affect postnatal biological functions such as the pups’ reproductive performance and their ability for spatial learning and memory. Further analysis indicated that the acetylation level of H3K9 and H4K5 was enhanced by TSA treatment at low concentrations, while DNA methylation appeared to be also disturbed by TSA treatment only at high concentration. Thus, our data indicates that TSA has different effects on preimplantation embryonic development depending on the nature of the embryo’s reproductive origin, the TSA concentration and treatment time, whereas the effect of TSA at indicated concentration on postnatal function was minor.