Abstract

Interspecies nuclear transfer has been used as an invaluable tool for studying nucleus-cytoplasm interactions and it may also be used for rescuing endangered species whose oocytes are difficult to obtain. In this study, we investigated interaction of the cynomolgus monkey cell as a nuclear donor with the rabbit oocyte as a host cytoplasm. Whole cynomolgus fibroblast cells were injected into the rabbit enucleated oocytes (cynomolgus-rabbit cloned embryos) and cultured in TCM-199 and RPMI 1640 culture media. Rabbit-rabbit cloned embryos we used as control in this study. Karyotype analyses confirmed that genetic material of blastocysts was derived from the cynomolgus donor cells at blastocyst stage. Mitochondrial constitution analysis of the cynomolgus-rabbit cloned embryos indicated that mitochondria from both donor cells and enucleated oocytes coexisted. After culture for 168 h post-nuclear transfer, all cynomolgus-rabbit cloned embryos in TCM-199 were arrested at the 8-cell stage, but some of them developed to the blastocyst stage in RPMI 1640 (11/59, 18.6%). In this experiment, the nutrition requirement in vitro and the cleavage rate at each 24 h were examined. When TCM-199 was supplemented with lactate, some of these embryos developed to the blastocyst stage (15.3%, 2/13). This means that cynomolgus-rabbit cloned embryos might be controlled by the donor nucleus even in these early developmental stages. However, the timing of cleavage of cynomolgus-rabbit cloned embryos is very similar to that of the rabbit-rabbit cloned embryos. Time of cleavage may depend on the protein accumulated in the cytoplasm. In the prolonged culture of reconstructed embryos on feeder cells, adhesion cells were observed. These cells are also very similar to the cells derived from cynomolgus embryos by the same method. Our results suggest that: (1) a cynomolgus nucleus can co-ordinate with rabbit oocyte cytoplasm in early embryo development, (2) the 8- to 16-cell stage block in the cynomolgus-rabbit cloned embryos may due to the same reason as that in the cynomolgus embryos, and (3) ooplasmic factors that control time of cleavage are highly conservative between the species.