Effects of superovulation, culture and microinjection on development of rabbit embryos in vitro

Abstract

Factors influencing the developmental potencial of cultured rabbit zygotes and their ability to incorporate and integrate the WAP-hPC (human protein C) gene were investigated. Rabbit zygotes (n=1053) were recovered from both superovulated and nontreated New Zealand White females. The hormonal treatment of rabbit donors resulted in a doubling of the number of recovered ova per donor when compared with the nontreated group (18 vs 9 ova). However, the quality of recovered zygotes (presence of both pronuclei) was significantly better in the nontreated group (99 vs 88%, Experiment 1). The effect of various culture media on the development of rabbit zygotes in vitro was evaluated after incubation under CO 2-free conditions (Experiment 2). In serum-free, growth factor-supplemented medium (BSEITS, DME/F 12, 1.5% BSA, EGF, insulin, transferrin and sodium selenite) the percentage of morula/blastocyst stage embryos was significantly higher (88%) than in DME/FCS, (DME/F12, 10% fetal calf serum, 59%) or the control group (DME/F12, 1.5% BSA, 25%). In Experiment 3, zygotes were microinjected with the WAP-hPC gene and were examined after 72 h of culture. Zygote cleavage and the percentage of morula/blastocyst stage intact embryos were higher (79 and 58%, respectively) than in microinjected embryos (31.0 and 21.5%, respectively). Summarized data of the PCR assay of microinjected zygotes demonstrated positive signals for the integration of the WAP-hPC gene in 6.6% (34 of 515) of all the microinjected zygotes.