Birth of a cloned calf derived from a vitrified hand-made cloned embryo.

The hand-made cloning (HMC) technique describes a simplified nuclear transfer process without the need for micromanipulators. The technique involves manual bisection of zona-free oocytes, selection of cytoplasts by Hoechst staining and fusion of a single somatic cell and two cytoplasts. In this proof-of-principle experiment, the objective was to examine the developmental competence of HMC embryos following embryo transfer. Modifications to the original method include not selecting of matured oocytes and simultaneous fusion of cytoplasts and karyoplast. Blastocyst rates for embryos cultured in the glass oviduct system as singles (10.5%; 24/228) or in pairs (16.1%; 36/224) did not differ significantly. Fresh and vitrified-thawed blastocysts were transferred to 16 synchronised recipients (three to four embryos per recipient). Ultrasound examination on Days 35-45 showed an initial pregnancy rate of 43.8% (7/16) and a pregnancy rate >8 months of 12.5% (2/16). A male cloned calf (42 kg) derived from a vitrified HMC blastocyst was delivered by Caesarean section on Day 271. The birth and ongoing survival (15 months, 243 kg) of a healthy and apparently normal calf, combining both HMC and vitrification technologies, provides a 'proof of principle' of the technology and a promising alternative to traditional nuclear-transfer techniques.

Comparison of gene transcription in cloned bovine embryos produced by different nuclear transfer techniques.

The efficiency of animal production using cloning technology is still relatively low and research to determine a more efficient nuclear transfer procedure is ongoing. One approach which may be informative in assessing the viability of nuclear transfer embryos is the analysis of embryonic gene expression. Using RT-PCR techniques we have previously detected the aberrant expression of FGF4, FGFr2 and IL6 in a significant proportion of bovine granulosa cell-derived nuclear transfer embryos, which correlated with a limited developmental potential in vivo. In order to analyse the effect of different donor cell nuclei on embryonic gene expression we have now analysed the expression of these genes in nuclear transfer embryos reconstructed with fetal epithelial cell nuclei. In addition, we have compared the expression of these genes in bovine nuclear transfer embryos produced by cell fusion or direct injection with variations in the timing of oocyte activation. In all nuclear transfer embryos analysed, FGFr2 and IL6 transcripts were detected at a similar rate to that in IVF embryos. However, the absence of FGF4 transcripts was again evident in a large proportion of nuclear transfer embryos and most significantly in those embryos whose development was activated almost immediately following the transfer of the donor nucleus. The results demonstrate the effects that different donor cell lines and different nuclear transfer procedures may have on the expression of developmentally important genes in nuclear transfer embryos.

Simplified technique for differential staining of inner cell mass and trophectoderm cells of mouse and bovine blastocysts.

Histological staining and counting of blastocyst inner cell mass (ICM) and trophectoderm (TE) cells differentially with chromatin-specific dyes is a more accurate indicator of cultured blastocyst quality and normality than total cell number assessment. The aim of this study was to test the effectiveness of a simplified method of chemically-defined differential blastocyst staining. The TE of cultured mouse and bovine blastocysts of different developmental stages was stained when blastocysts were treated with a permeabilizing solution containing the ionic detergent Triton X-100 and the fluorochrome propidium iodide. Blastocysts were then incubated in a second solution containing 100% ethanol (for fixation) and the secondary fluorochrome bisbenzimide. Fixed and stained whole blastocysts were mounted and assessed for cell number using ultraviolet fluorescent microscopy. Using this method, in-vitro cultured mouse blastocysts (day 4.5) were shown to have an ICM:TE ratio of 1:2.63 with an average total cell count of 75.3 +/- 3. While day 7 and 8 in-vitro produced bovine blastocysts were shown to have an ICM:TE ratio of 1:3.42 and 1:3.36 with an average total cell count of 151.3 +/- 5.48 and 217.8 +/- 8.75 respectively. Blastocyst staining patterns indicate that this modified technique represents a simple and reliable alternative to current bichromatic blastocyst staining techniques for the differential assessment of cell numbers and may be useful for the assessment of blastocysts derived from in-vitro maturation, novel culture systems and advanced reproductive technologies such as cloning.