Cloned calves produced by nuclear transfer from cultured cumulus cells

Short-term cultured cumulus cell lines (1-5BCC) derived from 5 individual cows were used in nuclear transfer (NT) and 1188 enucleated bovine oocytes matured in vitro were used as nuclear recipients. A total of 931 (78.4%) cloned embryos were reconstructed, of which 763 (82%) cleaved, 627 (67.3%) developed to 8-cell stage, and 275 (29.5%) reached blastocyst stage. The average cell number of blastocysts was 124±24.5 (n=20). In this study, the effects of donor cell sources, serum starvation of donor cells, time interval from fusion to activation (IFA) were also tested on cloning efficiency. These results showed that blastocyst rates of embryos reconstructed from 5 different individuals cells were significantly different among them (14.1%, 45.2%, 27.3%, 34.3%, vs 1.5%, P<0.05); that serum starvation of donor cells had no effect on blastocyst development rate of NT embryos (47.1% vs 44.4%, P>0.05); and that blastocyst rate (20.3%) of the group with fusion/activation interval of 2-3 h, was significantly lower     

Improvement of a porcine somatic cell nuclear transfer technique by optimizing donor cell and recipient oocyte preparations

This study was conducted to improve a porcine somatic cell nuclear transfer (SCNT) technique by optimizing donor cell and recipient oocyte preparations. Adult and fetal fibroblasts, and cumulus and oviduct cells were used as donor cells, and in vivo- and in vitro-matured oocytes were employed as recipient oocytes. The percentages of fusion and development to the blastocyst stage, the ratio of blastocysts to 2-cell embryos, and cell number of blastocysts were monitored as experimental parameters. In Experiment 1, donor cells of four different types were transferred to enucleated oocytes matured in vitro, and more (P < 0.05) blastocysts were derived from SCNT of fetal fibroblasts than from that of other cells (15.9% versus 3.1-7.9%). For SCNT using fetal fibroblasts, increasing the number of subcultures up to 15 times did not improve developmental competence to the blastocyst stage (12.2-16.7%). In Experiment 2, fetal fibroblasts were transferred to enucleated oocytes that matured in vivo or in vitro. When parthenogenetic activation of both types of oocytes was conducted as a preliminary control treatment, a significant increase in blastocyst formation was found for in vivo-matured compared with in vitro-matured oocytes (36.4% versus 29.5%). However, no improvement was achieved in SCNT using in vivo-matured oocytes. In conclusion, the type of donor somatic cell is important for improving development after porcine SCNT, and fetal fibroblasts were the most effective among examined cells. A system with good reproducibility has been established using fetal fibroblasts as the donor karyoplast after subculturing 1-10 times, and using both in vivo and in vitro-matured oocytes as the recipient cytoplast.     

Development of embryos reconstructed by interspecies nuclear transfer of adult fibroblasts between buffalo (Bubalus bubalis) and cattle (Bos indicus)

The objective of this study was to explore the feasibility of employing adult fibroblasts as donor cells in interspecies nuclear transfer (NT) between buffaloes and cattle. Buffalo and bovine oocytes matured in vitro for 22 h were enucleated by micromanipulation using the Spindle View system. An ear fibroblast, pretreated with 0.1 microg/mL aphidicolin for 24 h, followed by culture for 2-9 days in Dulbecco's Modified Eagle's Media+0.5% fetal bovine serum, was introduced into the cytoplast by microinjection. Reconstructed oocytes were activated by exposure to 5 microM ionomycin for 5 min and 2 mM 6-dimethylaminopurine for 3 h. When buffalo adult fibroblasts were used as donor cells, there were no differences (P < 0.75) in the cleavage rate (66.2% versus 64.0%) between bovine and buffalo recipient oocytes, but more embryos derived from bovine cytoplasts developed to blastocysts than from buffalo cytoplasts (13.3% versus 3.0%, P < 0.05). When bovine adult fibroblasts were used as donor nuclei, both cleavage rate (45.3%) and blastocyst yield (4.5%) of NT embryos derived from buffalo cytoplasts were lower than those of NT embryos derived from bovine cytoplasts (65.5 and 11.9%, P < 0.05). The proportion of parthenogenetic buffalo (29.1%) or bovine (35.6%) oocytes developing to blastocysts was higher than those of NT embryos (P < 0.01). Interspecies NT embryos were derived from the donor cells and 55.0-61.9% of them possessed a normal diploid karyotype. In conclusion, embryos reconstructed by interspecies NT of adult fibroblasts between buffaloes and cattle developed to blastocysts, but bovine cytoplasts may direct embryonic development more effectively than buffalo cytoplasts, regardless of donor cell species.     

Xenonuclear transplantation of buffalo (Bubalus bubalis) fetal and adult somatic cell nuclei into bovine (Bos indicus) oocyte cytoplasm and their subsequent development

Bovine oocyte cytoplasm has been shown to support the development of nuclei from other species up to the blastocyst stage. Somatic cell nuclei from buffalo fetal fibroblasts have been successfully reprogrammed after transfer to enucleated bovine oocytes, resulting in the production of cloned buffalo blastocysts. The aim of this study was to compare the in vitro development of fetal and adult buffalo cloned embryos after the fusion of a buffalo fetal fibroblast, cumulus or oviductal cell with bovine oocyte cytoplasm. The fusion of oviductal cells with enucleated bovine oocytes was higher than that of fetal fibroblasts or cumulus cells (83% versus 77 or 73%, respectively). There was a significantly higher cleavage rate (P < 0.05) for fused nuclear transferred embryos produced by fetal fibroblasts and oviductal cells than for cumulus cells (84 or 78% versus 68%, respectively). Blastocyst development in the nuclear transferred embryos produced by fetal fibroblasts was higher (P < 0.05) than those produced either by cumulus or oviductal cells. Chromosome analysis of cloned blastocysts confirmed the embryo was derived from buffalo donor nuclei. This study demonstrates that nuclei from buffalo fetal cells could be successfully reprogrammed to develop to the blastocyst stage at a rate higher than nuclei from adult cells.     

Cloned calves produced by nuclear transfer from cultured cumulus cells

Short-term cultured cumulus cell lines (1-5BCC) derived from 5 individual cows were used in nuclear transfer (NT) and 1188 enucleated bovine oocytes matured in vitro were used as nuclear recipients. A total of 931 (78.4%) cloned embryos were reconstructed, of which 763 (82%) cleaved, 627 (67.3%) developed to 8-cell stage, and 275 (29.5%) reached blastocyst stage. The average cell number of blastocysts was 124±24.5 (n=20). In this study, the effects of donor cell sources, serum starvation of donor cells, time interval from fusion to activation (IFA) were also tested on cloning efficiency. These results showed that blastocyst rates of embryos reconstructed from 5 different individuals cells were significantly different among them (14.1%, 45.2%, 27.3%, 34.3%, vs 1.5%, P<0.05); that serum starvation of donor cells had no effect on blastocyst development rate of NT embryos (47.1% vs 44.4%, P>0.05); and that blastocyst rate (20.3%) of the group with fusion/activation interval of 2–3 h, was significantly lower than that of the 3–6 h groups (31.0%), while not significantly different among 3–4 h (P < 0.05), 4–5 h, and 5–6 h groups (P≥0.05). Sixty-three thawed NT blastocysts were transferred to 31 recipient cows, of which 4 pregnancies were established and two cloned calves were given birth. These results indicate that serum starvation of cumulus cells is not a key factor for successful bovine cloning, while IFA treatment and sources of donor cells have effects on cloning efficiency.     

Birth of calves expressing the enhanced green fluorescent protein after transfer of fresh or vitrified/thawed blastocysts produced by somatic cell nuclear transfer

The present study examined effects of genetic manipulation and serum starvation on in vitro developmental potential of bovine somatic cell nuclear transfer (SCNT) embryos and vitrification on in vivo developmental competence of transgenic SCNT blastocysts. Fetal oviduct epithelial cells (FOECs) were isolated from the oviduct of a Day 147 bovine fetus and transfected with a plasmid (pCE-EGFP-IRES-NEO) containing the enhanced green fluorescent protein (EGFP) and neomycin-resistant (Neor) genes. There were no significant differences (P > 0.05) in cleavage rates or development rates to the blastocyst stage for SCNT embryos derived from FOECs (72.5 and 47.8%, respectively) or transfected FOECs (TFOECs, 73.8 and 47.7%, respectively); nor from serum-fed (73.6 and 47.2%, respectively) or serum-starved (72.7 and 48.3%, respectively) cells. Seventeen of Day 7 GFP-embryos (eight fresh blastocysts and nine vitrified/thawed blastocysts ) were transferred to recipients with one embryo per recipient. Two (25%) recipients were confirmed pregnant at Day 60 in fresh blastocysts group, and three recipients (33%) were confirmed pregnant at Day 60 in vitrified/thawed blastocysts group. Two healthy calves (25%) were obtained from fresh blastocysts and one (11%) from vitrified/thawed blastocysts. Microsatellite analysis confirmed that the three clones were genetically identical to the donor cells. Moreover, PCR and Southern blot demonstrated integration of transgene in genomic DNA of all three cloned calves. Expression of GFP in skin biopsies isolated from transgenic cloned calves and fibroblasts derived from the skin biopsies revealed the activity of EGFP gene, and G418 resistance in vitro of these fibroblasts confirmed the activity of Neor gene. Our results show that genetic manipulation and serum starvation of donor cells (FOECs) do not affect in vitro developmental competence of bovine SCNT embryos, and vitrified transgenic SCNT blastocysts can develop to term successfully.     

体细胞的组织来源及培养代数对猪核移植重构胚发育的影响

本研究系统探讨了体细胞的组织来源及培养代数对猪核移植重构胚发育的影响。体外成熟培养40-44h的猪卵母细胞去核后,将经血清饥饿(0．5?s)培养2-9d、0．1mg/L Aphidicolin (APD)培养 0．5?S培养2-9d或一般培养法(10?S)培养的卵丘细胞、颗粒细胞、输卵管上皮细胞和耳皮成纤维细胞,直接注射到去核的卵母细胞质中,或注射到卵周隙中。再经电融合(100V/mm,30μs,电脉冲1次)构建重构胚。重构胚以钙离子载体A23817或电脉冲结合6- DMAP激活处理,体外培养6天。耳皮成纤维细胞和颗粒细胞经0．1mg/L APD 0．5?S培养处理后的重组胚卵裂率,均高于血清饥饿和一般培养处理的同种供体细胞(P＜0．01)。卵丘细胞、颗粒细胞经0．1mg/L APD 0．5?S处理后进行核移植的分裂率和发育率均高于输卵管上皮细胞和耳皮成纤维细胞(P＜0．05)。以猪颗粒细胞为核供体时,电融合法的重构胚分裂率显著高于胞质内注入法(P＜0．05),但囊胚发育率无显著差异(P＞0．05)。培养3代和6代的猪颗粒细胞以及培养6代和10代的耳皮成纤维细胞,其具有正常二倍染色体的细胞比例均无显著差异(P＞0．05);以这2种细胞不同培养代数做供体进行核移植时,各代之间核移胚的体外分裂率、囊胚发育率无显著差异(P＞0．05)。这些结果表明：(1)猪耳皮成纤维细胞和颗粒细胞经培养传代所建立起来的细胞系相对比较稳定;(2)0．1mg/L APD预培养处理供体细胞能提高猪体细胞核移植的效果,血清饥饿培养则无明显效果;(3)猪颗粒细胞和耳皮成纤维细胞等均可做供核细胞．核移植后都能得到体细胞克隆的囊胚,但前者的效果略优于后者,且其核移植效果不受供核细胞培养代数的影响;(4)电融合核移植胚胎的发育率高于胞质内直接注入法,但两者的总体效率相近。     

Development of cloned embryos from adult rabbit fibroblasts: effect of activation treatment and donor cell preparation

This research was to study the in vitro and in vivo development of cloned embryos derived from adult rabbit fibroblasts following various activation protocols. Effects of serum starvation and passage number of donor cells on the efficiency of cloning were also examined. In experiment I, oocytes were activated either by electric pulses or by electric pulses followed by culture with 6-dimethylaminopurin (DMAP). For experiment II, the best activation protocol from experiment I was employed for cloning using adult rabbit fibroblasts that were cultured for 0-15 passages. In experiment III, the effect of serum starvation of the donor cells on cloning was examined. Finally, in experiment IV, embryo transfers were conducted. These experiments showed that combined electrical pulse and DMAP treatment resulted in superior parthenogenetic blastocyst development (up to 29%), and that activation of the cytoplast before versus after fusion was not different in supporting the in vitro development of nuclear transferred embryos (16%-18% blastocysts). Adult fibroblasts derived from nonpassaged cells were less capable of developing into blastocysts than passaged cells (6% vs. 17%). Serum starvation of donor cells improved cleavage (up to 71%) but did not improve blastocyst development (13%), and no progeny was obtained, irrespective of the treatment. Cell-cycle analysis of adult rabbit fibroblast cells showed that passage 6 and 12 cells were more likely to be in G(0)/G(1) than passage 0 cells, which agrees with the improved embryo development in the passaged-cell groups.     

Improving in vitro development of cloned bovine embryos with hybrid (Holstein-Chinese Yellow) recipient oocytes recovered by ovum pick up

In the present study, oocytes from F1 hybrid cattle, as well as their parental lines, were recovered by ovum pick up (OPU) and used as recipient cytoplasm for somatic cell nuclear transfer (SCNT). Four F1 hybrid (Holstein dam x Chinese Yellow sire), 10 Holstein and four Chinese Yellow cattle were subjected to OPU once weekly. There were no significant differences among breeds for number of recovered oocytes per session (overall average, 7.8+/-0.5; mean+/-S.E.M.), quality of the recovered oocytes, or oocyte maturation rate (72-73%). Matured oocytes were all used as recipient cytoplasm (without selection) and a single batch of cumulus cells collected from a Holstein cow were used as donor cells. Although reconstructed embryos initiated cleavage sooner when the recipient cytoplasm was from hybrid cattle versus the two parental breeds, the overall cleavage rate was indistinguishable among breeds. At Day 8, the blastocyst rate from the cleaved embryos (51% versus 37% and 27%), the total number of cells per blastocyst (135+/-4.1 versus 116+/-3.6 and 101+/-4.2), and the percentage of Grade-A (excellent quality) blastocysts (54% versus 42% and 29%) in the hybrid group were all higher than that of Holstein and Yellow groups. Furthermore, the proportion of blastocysts obtained at Day 7 (as a percentage of the total number of blastocysts) was greater in the hybrid group than in Holstein and Yellow groups (89% versus 71% and 63%). In conclusion, the use of F1 hybrid oocytes as recipient cytoplasm significantly improved in vitro development of cloned bovine embryos relative to oocytes derived from the parental lines.     

Blastocyst development after intergeneric nuclear transfer of mountain bongo antelope somatic cells into bovine oocytes

Intergeneric embryos were constructed by nuclear transfer using Mountain Bongo antelope somatic cells fused with enucleated bovine oocytes and their subsequent development in vitro was investigated. After two to six passages, starved or non-starved skin fibroblast cells were used as donor nuclei. In vitro matured bovine oocytes were enucleated by squeezing the first polar body and surrounding cytoplasm through a slit in the zona pellucida. After injection of a somatic cell into the perivitelline space, couplets were fused electrically and activated chemically, then subjected to different embryo culture treatments. Serum starvation had no effect on the frequency of cleavage to two cells or on development to the blastocyst stage in either sequential hamster embryo culture medium (HECM)-6/TCM-199 + serum or HECM-9/TC-199 + serum, or modified synthetic oviduct fluid (mSOF) culture medium. When couplets from non-starved donor nuclei were cultured, the frequency of cleavage (66 +/- 8% vs. 44 +/- 5%), development to >/=9 cells (46 +/- 6% vs. 24 +/- 4%), and formation of blastocysts (24 +/- 5% vs. 11 +/- 2%) were all significantly higher (p < 0.05) in the HECM-6 medium than in mSOF medium. In conclusion, bovine oocytes can support blastocyst development after intergeneric fusion with bongo fibroblasts. This technique could potentially be used as an alternative to using scarce bongo oocytes in attempts to propagate these endangered animals.     

不同供体细胞及其处理对猪核移植重构胚体外发育的影响

系统探讨了体细胞的组织来源及培养代数对猪核移植重构胚发育的影响。体外成熟培养40~44 h的猪卵母细胞去核后, 将经血清饥饿(0.5%FBS)培养2~9天、0.1 mg/L Aphidicolin(APD)培养+0.5% FBS培养2~9天或一般培养法(10% FBS)培养的卵丘细胞、颗粒细胞、输卵管上皮细胞和耳皮成纤维细胞, 直接注射到去核的卵母细胞质中, 或注射到卵周隙中, 再经电融合(100 V/mm, 30 [mu]s, 电脉冲1次)构建重构胚。重构胚以钙离子载体A23817 或电脉冲结合6-DMAP 激活处理, 体外培养6天。耳皮成纤维细胞和颗粒细胞经0.1 mg/L APD + 0.5% FBS培养处理后的重组胚卵裂率, 均高于血清饥饿和一般培养处理的同种供体细胞(P<0.01)。卵丘细胞、颗粒细胞经0.1 mg/L APD + 0.5% FBS处理后进行核移植的分裂率和发育率均高于输卵管上皮细胞和耳皮成纤维细胞(P<0.05)。以猪颗粒细胞为核供体时, 电融合法的重构胚分裂率显著高于胞质内注入法(P<0.05), 但囊胚发育率无显著差异(P>0.05)。培养3代和6代的猪颗粒细胞以及培养6代和10代的耳皮成纤维细胞, 其具有正常二倍染色体的细胞比例均无显著差异(P>0.05); 以这2种细胞不同培养代数做供体进行核移植时, 各代之间核移胚的体外分裂率、囊胚发育率无显著差异(P>0.05)。这些结果表明: (1) 猪耳皮成纤维细胞和颗粒细胞经培养传代所建立起来的细胞系相对比较稳定; (2) 0.1 mg/L APD预培养处理供体细胞能提高猪体细胞核移植的效果, 血清饥饿培养则无明显效果; (3) 猪颗粒细胞和耳皮成纤维细胞等均可做供核细胞, 核移植后都能得到体细胞克隆的囊胚, 但前者的效果略优于后者, 且其核移植效果不受供核细胞培养代数的影响; (4) 电融合核移植胚胎的发育率高于胞质内直接注入法, 但两者的总体效率相近。     

Optimization of culture medium for cloned bovine embryos and its influence on pregnancy and delivery outcome

This study was conducted to establish an effective culture system for supporting in vitro development of cloned bovine embryos and to evaluate whether improved development in the optimal culture system could contribute to enhancing pregnancy and delivery outcomes after transfer. Enucleated oocytes at the metaphase II stage were reconstructed with serum-starved ear fibroblasts and cloned embryos were subsequently cultured for 168 h in vitro. In Experiment 1, cloned embryos were cultured in either modified Charles Rosenkrans 2 amino acid medium (mCR2aa) or modified synthetic oviduct fluid medium (mSOF). More (P < 0.05) 2-cell embryos (78% versus 92%), morulae (51% versus 69%) and blastocysts (2% versus 39%) were obtained after culture in mSOF than after culture in mCR2aa. In Experiment 2, cloned embryos were successively cultured in mSOF supplemented with various macromolecules during different periods of culture. A successive culture of oocytes in BSA-containing medium for 72 h and then in FBS-containing medium for the next 96 h yielded a higher rate of blastocyst formation (49% versus 25-36%) than other combinations (BSA to BSA or PVA to PVA, BSA or FBS). This macromolecule supplementation also significantly increased the number of total blastomeres (117.3 cells/blastocyst) and inner cell mass cells (ICM, 49.7 cells/blastocyst), and the ratio of ICM cells to trophoblast cells (TB, 0.98). In Experiment 3, a total of 85 blastocysts obtained from each 2-step culture were transferred individually to recipient cows at the end of the culture period and 32 pregnancies (38%) were diagnosed on Day 60 after transfer. However, no (P > 0.05) significant differences due to culture were apparent in the pregnancy outcome. Although six calves were produced using the 2-step culture regime of either BSA-BSA or PVA-FBS, no calves were produced using the successive culture of BSA then FBS, which optimized preimplantation development. In conclusion, mSOF has more potential to support the development of clone embryos than mCR2aa, and successive supplementation of BSA and FBS to mSOF further promotes blastocyst formation. However, enhanced development in vitro might not directly contribute to improving pregnancy outcomes.     

Preimplantational embryo development and incidence of blastomere apoptosis in bovine somatic cell nuclear transfer embryos reconstructed with long-term cultured donor cells

This study was performed to investigate whether types and/or age of donor cells affect preimplantational embryo development and the incidence of apoptosis in bovine somatic cell nuclear transfer (SCNT) embryos. Bovine fetal or adult ear fibroblasts were isolated, cultured in vitro and categorized into fresh or long-term cultured cells in terms of population doublings (PD): in fetal fibroblasts, <16 being considered fresh and >50 being long-term cultured; in adult ear fibroblasts, <16 being considered fresh and >30 being long-term cultured. Bovine oocytes from slaughterhouse ovaries were matured in TCM-199, enucleated and reconstructed by SCNT. The reconstructed oocytes were fused, chemically activated, and cultured in modified synthetic oviduct fluid (mSOF) at 39 degrees C in a humidified atmosphere of 5% CO(2) air for 7 days. The early development of SCNT embryos was monitored under a microscope and the quality of blastocysts was assessed by differential counting of inner cell mass (ICM) and trophectoderm (TE) cells and by apoptosis detection in blastomeres using a terminal deoxynucleotidyl transferase-mediated d-UTP nick end-labeling (TUNEL) assay. As results, types and/or age of donor cells did not affect the rate of blastocyst formation and the number of ICM and TE cells. However, a significant increase in apoptotic blastomeres was observed in SCNT embryos reconstructed with long-term cultured fetal or adult ear fibroblasts compared to those in SCNT embryos derived from fresh fetal or adult ear fibroblasts. In conclusion, these results indicated that the long-term culture of donor cells caused increased the incidence of apoptosis in bovine SCNT embryos but did not affect the developmental competence and the cell number of blastocysts.     

In vitro developmental competence of domestic cat embryos after somatic cloning: a preliminary report

This work was undertaken in order to study the developmental competence of nuclear transfer feline embryos with regard to the recipient-cytoplast's age and type of somatic cells used as donor nuclei. Oocytes were recovered by mincing the ovaries in HEPES-buffered TCM-199. Selected cumulus-oocyte complexes (COCs) with compact cumulus cell mass and a dark, homogenous ooplasm were cultured for maturation in the modified medium TC-199 for 24, 35, and 43 h, and after enucleation were used as a source of recipient cytoplasts for exogenous somatic nuclei. Two experiments were carried out. In Experiment 1, the source of recipient cytoplasts was oocytes matured in vitro for 24 h (Group 1), 35 h (Group 2), and 43 h (Group 3), while the source of donor nuclei was cycling fetal fibroblasts. Somatic cell-cytoplast complexes (SC-CCs) were fused electrically by double DC pulses of 2.0 kV/cm for 15 micros. The reconstructed embryos were cultured in B2 medium for 72 h after NT, then co-cultured with BRL cells in the same medium supplemented with 10% FBS at 38.5 degrees C under 5% CO2 in air. In Groups 1, 2, and 3, the fusion rates were 71.4 (25/35), 74.6 (47/63), and 57.5% (46/80), respectively. The cleavage rates in Groups 1, 2, and 3 were 80.0 (20/25), 55.3 (26/47), and 60.8% (28/46), respectively. The development to morula and blastocyst stages was higher in Groups 1 and 2 compared to Group 3 (morula stage 14/25 (56.0%), 16/47 (34.0%), and 13/46 (28.2%); blastocyst stage 2/20 (8.0%), 4/47, (8.5%), and 0/46, respectively). In Experiment 2, the oocytes matured for 24-35 h were used as a source of recipient cytoplasts and cycling fetal fibroblasts and cumulus cells derived from mature COCs were used as a source of donor nuclei. The fusion rates were 115/193 (59.6%) versus 65/143 (45.4%) for fetal fibroblasts and cumulus cells, respectively. The cleavage rate was 72/115 (62.6%) versus 48/65 (73.8%), and the development to blastocyst stage 6/115 (5.2%) versus 5/65 (7.7%), for fetal fibroblast and cumulus cells, respectively. In conclusion, a prolonged maturation period of cat oocytes decreases developmental competence of reconstructed embryos, especially the ability to reach the blastocyst stage. The in vitro development of reconstructed embryos with either nuclei of fetal fibroblasts or cumulus cells was at approximately the same level.     

Effects of different states of sheep fetal fibroblasts as donor cells on the early development in vitro of reconstructed sheep embryos

To investigate the effects of different states of donor cells on the development of reconstructed sheep embryos, we designed five treatments of donor cells, including cell passage, cell size, serum starvation,colchicine treatment and gene transfection. Results are as follows: ( Ⅰ ) Compared with 16-18 passage cells, the morula/blastocyst rate of 5-7 passage cells as donor nuclei was significantly higher (17.3%vs. 4.9%, P＜0.05), suggesting the advantage of short-time cultured cells in supporting the development of reconstructed embryos. (Ⅱ) The morula/blastocyst rate of reconstructed embryos derived from medium cells (15-25 μm) as donor nuclei was higher than that from large cells (25-33 μm) and small cells (8-15 μm)( 20.0% vs. 8.0%, 9.7%), indicating that reconstructed embryos from medium cells had a greater potentiality to develop into morula/blastocysts than those from small or large ones. (Ⅲ) The morula/blastocyst rate of reconstructed embryos from donor cells of SS (serum starvation) was lower than that from donor cells of NSS (non-serum starvation), but no significant difference was detected between SS and NSS( 11.8% vs. 18.6%, P＞0.05). (Ⅳ) Fetal fibroblasts treated with 0.05 μmol/L colchicine exhibited a higher morula/blastocyst rate of reconstructed embryos than those treated with 0.10 μmol/L colchicine and untreated ones (27.5% vs. 12.1%, 17.1%), however, no significant difference among the three treatments was detected (P＞0.05). (Ⅴ) The morula/blastocyst rate of reconstructed embryos from fetal fibroblasts transfected with GFP gene only was 3.1%, significantly lower than that from non-transgenic cells (3.1% vs. 20.4%, P＜0.05). In conclusion, our results demonstrated that fetal fibroblasts of fewer passages, medium size could ensure a higher morula/blastocyst rate of reconstructed embryos. Serum starvation of donor cells might be unnecessary to the development of reconstructed embryos. Donor cells treated with 0.05 μmol/L colchicine could facilitate the development of reconstructed embryos. Additionally, as cells transfected with GFP gene were used as donor nuclei, adverse effect on the development of reconstructed embryos was observed. Therefore, the developmental efficiency of reconstructed embryos could be improved if proper treatments to donor cells were used.     

Somatic cell nuclear transfer in domestic cat oocytes treated with IGF-I for in vitro maturation

Oocyte maturation and somatic cell nuclear transfer (NT) studies conducted in the domestic cat can provide valuable insights that are relevant to the conservation of endangered species of felids. The present investigation focuses on the in vitro maturation (IVM) of domestic cat oocytes stimulated by insulin-like growth factor-I (IGF-I) and their possible use as recipient cytoplasts for somatic cell NT. In Experiment I, the effects of IGF-I on cat oocyte IVM were monitored. Cumulus-oocyte complexes (COCs) were recovered in TALP-HEPES medium following ovarian follicular aspiration and were classified under a stereomicroscope into four grades using criteria based on cumulus cell investment and the uniformity of ooplasm. The COCs were either cultured in Dulbecco's modified Eagle medium (DMEM) alone as a control group or supplemented with 100 ng/ml IGF-I. After culturing for 32-34 h, oocytes were denuded and maturation rate was evaluated by observing the extrusion of the first polar body and staining with aceto-orcein. The percentages of maturation of Grades 1 and 2 oocytes were significantly increased (P<0.05) in IGF-I supplemented medium compared with medium alone (85.8 versus 65.5 and 70.3 versus 51.8, respectively) whereas the maturation rates of Grades 3 and 4 oocytes were not different. The IVM of Grade 1 oocytes was significantly higher (P<0.05) than for all other grades in both control and experimental groups. In Experiment II, the in vitro development of cat NT embryos using cumulus cells, fetal or adult fibroblasts as donor nuclei was investigated. The IVM oocytes in medium containing IGF-I were enucleated and fused with cumulus cells, fetal or adult fibroblasts between passages 2 and 4 of culture. Reconstructed embryos were cultured and monitored every 24h for progression of development through Day 9. There was no significant difference in the percentage of fusion of NT embryos using different donor nuclei whereas the cleavage rates of NT embryos reconstructed with fetal fibroblasts and cumulus cells were significantly higher (P<0.05) than those reconstructed with adult fibroblasts (72.5 and 70.7% versus 54.8%, respectively). Development of NT embryos reconstructed with adult fibroblast to the morula stage was significantly lower (P<0.05) compared with cumulus cell or fetal fibroblast donor cells (25.8% versus 37.9 or 47.5%, respectively). However, no difference was observed in development to the blastocyst stage. These results demonstrated that IGF-I promoted the IVM of domestic cat oocytes. The enucleated IVM oocytes could be used as recipient cytoplasm for fetal and adult somatic cell nuclei resulting in the production of cloned cat embryos.     

Production of nuclear transfer-derived piglets using porcine fetal fibroblasts transfected with the enhanced green fluorescent protein

A system for somatic cell nuclear transfer (SCNT) was developed and led to the successful production of GFP-transfected piglets. In experiment 1, two groups of SCNT couplets reconstructed with porcine fetal fibroblasts (PFF) and enucleated sow (S) or gilt oocytes (G): 1). received a simultaneous electrical fusion/activation (S-EFA or G-EFA groups), or 2). were electrically fused followed by activation with ionomycin (S-EFIA or G-EFIA groups), or 3). were subjected to electrical fusion and subsequent activation by ionomycin, followed by 6-dimethylaminopurine treatment (S-EFIAD or G-EFIAD groups). The frequency of blastocyst formation was significantly higher in S-EFA (26%) compared with that observed in the other experimental groups (P < 0.05), but not with S-EFIA (23%). Sow oocytes yielded significantly higher cleavage frequencies (68%-69%) and total cell numbers of blastocysts when compared with gilt oocytes, regardless of fusion/activation methods (P < 0.05). However, the ratio of inner cell mass (ICM)/total cells in G-EFA and S-EFA was significantly lower than in the other groups (P < 0.05). In experiment 2, SCNT couplets reconstructed with PFF cultured in the presence or absence of serum and enucleated sow oocytes were subjected to EFA. There were no effects of serum starvation on cell-cycle synchronization, developmental competence, total cell numbers, and ratio of ICM/total cells. In experiment 3, SCNT couplets reconstructed with PFF transfected with an enhanced green fluorescence protein (EGFP) gene using FuGENE-6 and enucleated sow oocytes were subjected to EFA and cultured for 7 days. Expression frequencies of GFP gene during development were 100%, 78%, 72%, 71%, and 70% in fused, two-cell, four to eight cells, morulae, and blastocysts, respectively. In experiment 4, SCNT embryos derived from different recipient cytoplasts (sows or gilts) and donor karyoplasts (PFF or GFP-transfected) were subjected to EFA and transferred to the oviducts of surrogates. The pregnancy rates in SCNT embryos derived from sow oocytes (66%-69%) were higher than those with gilt oocytes (23%-27%) regardless of donor cell types. One live offspring from GFP-SCNT embryos and two from PFF-SCNT embryos were delivered. Microsatellite analysis confirmed that the clones were genetically identical to the donor cells and polymerase chain reaction (PCR) from genomic DNA of cloned piglets and subsequent southern blot analysis confirmed the integration of EGFP gene into chromosomes.     

In vitro development up to hatching of bovine in vitro-matured and fertilized oocytes with or without support from somatic cells

To verify the importance of somatic cells upon in vitro embryo development, in vitro-matured (IVM) and -fertilized (IVF) bovine oocytes were cultured in TCM 199 supplemented with estrous cow serum (10% v/v) and 0.25 mM sodium pyruvate (ECSTCM) under the following treatments: 1) ECSTCM alone; 2) together with bovine oviduct epithelial cells (BOEC); 3) with cumulus cells (CC); 4) in fresh BOEC conditioned ECSTCM; or 5) in frozen-thawed BOEC conditioned ECSTCM. Culturing zygotes encased in cumulus cells significantly reduced the cleavage rate (P<0.05). There was no difference between culture systems in the proportions of embryo development through the 8-cell stage (P=0.42) up to the morula/blastocyst stages (P=0.50) at Day 7 post insemination. However, co-culture with BOEC yielded the highest percentage (21.2% of zygotes; P<0.05) of quality Grade-1 and Grade-2 embryos with the number of blastomeres per embryo (114.4) comparable to that of 7-day-old in vivo-developed embryos of similar grades (102.5), and higher (P<0.05) than those of the other treatments. The ratio of blastocysts to total morulae/blastocysts obtained from frozen-thawed conditioned medium was lower (P<0.05) than that from ECSTCM or after co-culture with BOEC at Day 7 post insemination. On average, 7.5 to 17.5% of the zygotes developed to blastocyst, expanded blastocyst and hatched blastocyst stages by Day 10 post insemination, depending upon the culture system. The difference between treatments, however, was not significant (P=0.68). The results indicate that chronological development up to hatching of bovine IVM-IVF embryos is not favored by somatic cells; however, the presence of viable oviduct epithelial cells in culture significantly improves the quality of 7-day-old embryos.     

In vitro development of yak (Bos grunniens) embryos generated by interspecies nuclear transfer

Interspecies cloning may be used as an effective method to conserve highly endangered species, but at present it suffers from relatively low levels of efficiency. In order to find a technique that could be used in conservation of the wild yak (Bos grunniens), we designed in six separate experiments to investigate the following factors that might influence the efficiency of interspecies cloning: (1) maturation rates of the recipient bovine oocytes; (2) nuclear donor cell types; (3) age of the yak from which the yak ear skin fibroblast cell line originated; (4) donor cells treated with or without serum starvation; (5) nuclear donor gained from fresh cells or frozen-thawed cells; (6) effect of 0.5 or 1.5 h from fusion to activation. The results of experiment 1 showed that when recipient oocytes in a replicate had a maturation rate of <40% (34+/-3.0%; three replicates) the proportion of nuclear transferred oocytes that developed to blastocyst was 2+/-1.1%, which was significantly lower (P<0.01) than the 25+/-3.2% achieved when the recipient oocyte maturation rate was 71+/-3.7% (three replicates). The efficiency of blastocyst production was increased substantially (P<0.05) when the time from fusion to activation increased from 0.5 h (21+/-2.3%; three replicates) to 1.5 h (35+/-3.5%; five replicates; experiment 6). There was no significant effect of the source of the donor nuclei (ear skin fibroblast or cumulus cells), the age of the animal (3 months or 4 years) from which the donor cells were derived, serum deprivation of the donor cells, or the use of fresh or frozen-thawed donor cells (experiments 2-5). Transfer of three interspecies cloned blastocysts to each of 108 bovine recipients resulted in two pregnancies being established that did not survive to day 120 of gestation.     

Production of cloned bovine embryos by somatic cell transfer into enucleated zona-free oocytes

Cloned bovine embryos were produced at the blastocyst stage. Prior to enucleation, oocytes were freed from the zona pellucida. Fibroblasts isolated from the bovine fetus were used as nuclear donors. Pairs of fetal fibroblasts and enucleated oocytes (cytoplasts) were glued in phytohemagglutinin solution under a binocular microscope. The subsequent electrofusion of 39 fetal fibroblast-cytoplast pairs yielded 36 reconstructed one-cell embryos (92.3%). After culturing in synthetic oviduct fluid for 7.5 days, seven cloned embryos developed to the blastocyst stage (19.4%) and six blastocysts were considered fit for transplantation. The applied technique of bovine embryo growth allowed 31.1% zona-free oocytes parthenogenetically activated by to reach the blastocyst stage.