Developmental competence of nuclear transfer cow oocytes after direct injection of fetal fibroblast nuclei.

We have examined the in vitro and in vivo development of cloned embryos produced by incorporation of fetal fibroblast into in vitro matured and enucleated cow oocytes by direct injection and by fusion. For injection, nuclei were either mechanically isolated using the microinjection needle or chemically isolated by treatment with NP-40 lysis buffer. Fetal fibroblasts were serum starved and treated with calcium ionophore before injection to induce chromatin condensation. A range of 8% to 16% of successfully injected oocytes developed to blastocysts in culture and a total of nine pregnancies resulted from transfer of cloned embryos produced by this method. Nuclear transfer by fusion resulted in 22% development to blastocysts. Unlike in mice, the embryos derived from injection did not result in viable pregnancies, which may suggest species differences. All pregnancies were terminated after 45 to 150 days from transfer. Two pregnancies resulted from transfer of cloned embryos obtained by fusion which produced two healthy female calves. The study proposes an alternative method for the production of cow cloned embryos. Further research, however, is required to optimize bovine cloning by injection.

Reprogramming cattle somatic cells by isolated nuclear injection.

The development of a somatic cell nuclear transfer procedure for the production of blastocyst stage cattle embryos is described. Bovine fetal fibroblasts were used for fusion experiments with surgically enucleated oocytes (cytoplasts) following the establishment of optimal parameters for electrofusion from isofusion contours. Fusion rates were increased by decreasing size of the cytoplasts used but cleavage was decreased by decreasing size of the cytoplast used (quarter, half and whole cytoplasts). The use of double cytoplasts did not improve cleavage, and development to blastocysts could not be achieved. In a comparison of electrofusion of fibroblasts with cytoplasts in the subzonal perivitelline space with intracytoplasmic injection of nuclei and parthenogenetically activated oocytes, 2%, 14% and 24% developed to blastocysts respectively. In the group injected with isolated nuclei, the passage number (4 to 9) had no apparent influence on developmental competence to blastocysts. The embryos produced by nuclear injection of somatic cell nuclei showed the normal pattern of cell surface appearance of TEC-3 and TEC-4 stage-specific epitopes during development, as seen in fertilized oocytes. We conclude that the nuclear injection of somatic cell nuclei is a relatively efficient way to clone bovine embryos.