Improved development of somatic cell cloned bovine embryos by a mammary gland epithelia cells in vitro model

Previous studies have established a bovine mammary gland epithelia cells in vitro model by the adenovirus-mediated telomerase (hTERT-bMGEs). The present study was conducted to confirm whether hTERT-bMGEs were effective target cells to improve the efficiency of transgenic expression and somatic cell nuclear transfer (SCNT). To accomplish this, a mammary-specific vector encoding human lysozyme and green fluorescent protein was used to verify the transgenic efficiency of hTERT-bMGEs, and untreated bovine mammary gland epithelial cells (bMGEs) were used as a control group. The results showed that the hTERT-bMGEs group had much higher transgenic efficiency and protein expression than the bMGEs group. Furthermore, the nontransgenic and transgenic hTERT-bMGEs were used as donor cells to evaluate the efficiency of SCNT. There were no significant differences in rates of cleavage or blastocysts or hatched blastocysts of cloned embryos from nontransgenic hTERT-bMGEs at passage 18 and 28 groups (82.8% vs. 81.9%, 28.6% vs. 24.8%, 58.6% vs. 55.3%, respectively) and the transgenic group (80.8%, 26.5% and 53.4%); however, they were significantly higher than the bMGEs group (71.2%, 12.8% and 14.8%), (p < 0.05). We confirmed that hTERT-bMGEs could serve as effective target cells for improving development of somatic cell cloned cattle embryos.

Somatic nuclear transplantation and serial nuclear transplantation of human finger-domain lacking t-PA gene in goat / 生物工程学报

In order to research developmental competence of transgenic somatic cell by serial nuclear transplantation, goat cloned embryos were compared with recloned embryos in ability of in vitro development. Fetal fibroblasts including human finger-domain lacking t-PA gene was microinjected into cytoplasm of the MII oocytes. Goat embryos (G0) were cloned by this procedure. A single blastomere from 16 - 64-cell goat cloned embryos (G0) was microinjected into Intracytoplasm of the MII oocytes. Goat embryos (G) were cloned by this procedure. Goat embryos (G2, G3) were recloned by using 16 - 64-cell recloned embryos. The developmental time of donor embryo affected the developmental rate of recloned embryos (G1, G2). The results show: the cleavage rate of cloned embryos (G0) (76.45% +/- 1.17%) was no difference significantly with recloned embryos (G1 G2 G3) (72.18% +/- 1.97%, 76.05% +/- 2.38%, 75.99% +/- 2.84%); the developmental rate of morulae and blastocysts of cloned embryos (47.20% +/- 2.93%, 11.00% +/- 1.42%) were higher than these of recloned embryos(34.99% +/- 2.66%, 28.23% +/- 2.00%, 23.34% +/- 1.99%) (3.87% +/- 0.67%, 2.08% +/- 1.66%, 0); the morulae rate(29.57% +/- 1.53%, 24.43% +/- 1.87%) and blastocysts rate(1.96% +/- 1.31%, 2.01% +/- 1.34%) of recloned embryos (G1 G2) from 16-cell recloned embryos were lower than those(34.32% +/- 1.31%, 29.76% +/- 1.66% and 3.86% +/- 1.03%, 3.48% +/- 0.34% )from 32 - 64-cell recloned embryos (P > 0.05). In conclusion, nuclear transfer embryos should not were recloned mostly; and the embryos recloned by using 32 - 64-cell embryos achieved higher developmental ability compared with using 16-cell embryos.