Effect of synchronization of donor cells in early G1‐phase using shake‐off method on developmental potential of somatic cell nuclear transfer embryos in cattle

In this study, we compared the developmental ability of somatic cell nuclear transfer (SCNT) embryos reconstructed with three bovine somatic cells that had been synchronized in G0‐phase (G0‐SCNT group) or early G1‐phase (eG1‐SCNT group). Furthermore, we investigated the production efficiency of cloned offspring for NT embryos derived from these donor cells. The G0‐phase and eG1‐phase cells were synchronized, respectively, using serum starvation and antimitotic reagent treatment combined with shaking of the plate containing the cells (shake‐off method). The fusion rate in the G0‐SCNT groups (64.2 ± 1.8%) was significantly higher than that of eG1‐SCNT groups (39.2 ± 1.9%) (P < 0.05), but the developmental rates to the blastocyst stage of SCNT embryos per fused oocytes were similar for all groups. The overall production efficiency of the clone offspring in eG1‐SCNT groups (12.7%) per recipient cow was higher than that in G0‐SCNT groups (3%) (P < 0.05). The mean birth weight of cloned calves and the average calving score in the G0‐SCNT groups (48.1 ± 3.4 kg and 3.3 ± 0.3, respectively) was significantly higher (P < 0.05) than those of eG1‐SCNT groups (37.2 ± 2.1 kg and 2.3 ± 0.2, respectively). Results of this study indicate that synchronization of donor cells in eG1‐phase using the shake‐off method improved the overall production efficiency of the clone offspring per transferred embryo.     

Effects of trichostatin A on in vitro development and transgene function in somatic cell nuclear transfer embryos derived from transgenic Clawn miniature pig cells

The present study was carried out to examine the effects of post‐activation treatment of trichostatin A (TSA), a histone deacetylase inhibitor, on in vitro development and transgene function of somatic cell nuclear transfer (SCNT) embryos derived from Clawn miniature pig embryonic fibroblast (PEF) transfected with a bacterial endo‐β‐galactosidase C gene (removal of the α‐galactosyl (Gal) epitope). SCNT embryos were incubated with or without TSA (50 or 100 nmol/L) after activation, cultured in vitro and assessed for cleavage, blastocyst formation and transgene function. The rate of blastocyst formation was significantly higher in SCNT embryos treated with 50 nmol/L TSA than that in control (P < 0.05), whereas the rate of cleavage and cell number of blastocyst did not differ. Following labelling with fluorescein isothiocyanate‐labelled BS‐I‐B₄ isolectin, the intensity of fluorescence observed on cell‐surface was dramatically reduced in transgenic SCNT blastocyst in comparison with non‐transgenic SCNT blastocyst. However, the reduction of α‐Gal epitope expression in transgenic SCNT blastocyst was not affected by TSA treatment. The results of this study showed that post‐activation treatment with 50 nmol/L TSA is effective to improve in vitro developmental capacity of transgenic SCNT miniature pig embryos without the modification of transgene function.     

Effect of mSOF and G1.1/G2.2 Media on the Developmental Competence of SCNT‐Derived Bovine Embryos

The objective of this study was to compare the effect of two culture media: modified synthetic oviductal fluid (mSOF) and G1.2/G2.2, on the developmental competence of bovine somatic cell–cloned embryos. Cloned embryos were produced by transferring adult skin fibroblasts into enucleated MII oocytes. After activation, the reconstructed embryos were randomly allotted to either mSOF or G1.2/G2.2 for culture (the embryos were transferred from G1.2 to G2.2 on days 3 of culture). The development competence of cloned embryos in these two culture systems was compared in terms of cleavage rate, blastocyst formation rate and apoptosis cell number in day 7 blastocyts. To investigate the in vivo developmental competence of cloned embryos in the two culture systems, a total of 87 and 104 blastocysts derived from mSOF and G1.2/G2.2 medium groups were transferred individually to recipient Angus cows, respectively. No differences were observed in terms of cleavage rate, day 7 blastocyst rate and blastocyst cell number between these two culture systems. However, the day 6 blastocyst formation rate was significantly higher in G1.2/G2.2 than that in mSOF. In addition, blastocysts cultured in mSOF have a higher percentage of apoptotic blastomeres compared to those in G1.2/G2.2 (8.5 ± 1.2 vs 16.8 ± 1.5, p < 0.05). Although difference in pregnancy rate was not observed 40 days after embryo transfer, significantly higher pregnancy rate was observed in G1.2/G2.2 group after 90 days of embryo transfer (12.4% vs 37.5%, p < 0.05). Moreover, calving rate was significantly improved in G1.2/G2.2 group compared to mSOF group (27.9% vs 6.7%, p < 0.05). In conclusion, our results indicate that G1.2/G2.2 can improve developmental competence of bovine SCNT embryos both in vitro and in vivo, which is more suitable for culture of bovine SCNT embryos than mSOF medium.     

In vitro development and postvitrification survival of cloned feline embryos derived from preadipocytes

The aim of the present study was to optimize the conditions for in vitro development and postvitrification survival of somatic cell cloned feline embryos. To determine the effects of cell cycle synchronization of the nuclear donor cells, we cultured preadipocytes under serum starvation or conventional conditions. After two days in serum starvation culture, the proportion of synchronized donor cells at the G0/G1 phase was 91.6%. This was significantly higher than the proportion of non-synchronized cells in the proliferative phase (72.6%, P<0.05). The in vitro development of somatic cell nuclear transfer (SCNT) embryos reconstructed using donor cells treated under serum starvation conditions (normal cleavage rate of 65.7%, 46/70, and blastocyst formation rate of 20.0%, 14/70) was comparable to that of the serum supplemented group (52.5%, 31/59, and 20.3%, 12/59). Use of in vitro or in vivo matured oocytes as recipient cytoplasts equally supported development of the SCNT embryos to the blastocyst stage (11.9%, 5/42, vs. 9.5%, 2/21). SCNT-derived blastocysts were vitrified using the original minimum volume cooling (MVC) or the modified (stepwise) MVC method. Although none (n=10) of the SCNT blastocysts survived following vitrification by the original MVC method, the stepwise MVC method resulted in 100% survival after rewarming (n=11). In conclusion, we demonstrated that feline somatic cell cloned embryos with a high developmental ability can be produced irrespective of cell cycle synchronization of donor cells using either in vivo or in vitro matured oocytes. Furthermore, by utilizing a stepwise vitrification method, we showed that it is possible to cryopreserve cloned feline blastocysts.     

Constant transmission of mitochondrial DNA in intergeneric cloned embryos reconstructed from swamp buffalo fibroblasts and bovine ooplasm

Although interspecies/intergeneric somatic cell nuclear transfer (iSCNT) has been proposed as a tool to produce offspring of endangered species, conflict between donor nucleus and recipient cytoplasm in iSCNT embryos has been identified as an impediment to implementation for agricultural production. To investigate the nuclear–mitochondrial interactions on the developmental potential of iSCNT embryos, we analyzed the mtDNA copy numbers in iSCNT embryos reconstructed with water buffalo (swamp type) fibroblasts and bovine enucleated oocytes (buffalo iSCNT). As controls, SCNT embryos were derived from bovine fibroblasts (bovine SCNT). Buffalo iSCNT and bovine SCNT embryos showed similar rates of cleavage and development to the 8‐cell stage (P > 0.05). However, buffalo iSCNT embryos did not develop beyond the 16‐cell stage. Both bovine and buffalo mtDNA content in buffalo iSCNT embryos was stable throughout the nuclear transfer process, and arrested at the 8‐ to 16‐cell stage (P > 0.05). In bovine SCNT embryos that developed to the blastocyst stage, mtDNA copy number was increased (P < 0.05). In conclusion, both the donor cell and recipient cytoplast mtDNAs of buffalo iSCNT embryos were identified and maintained through the iSCNT process until the 8–16‐cell stage. In addition, the copy number of mtDNA per embryo was a useful monitor to investigate nuclear–mitochondrial interactions.     

Comparative study of the developmental competence of cloned pig embryos derived from spermatogonial stem cells and fetal fibroblasts

Spermatogonial stem cells (SSC) are promising resources for genetic preservation and restoration of male germ cells in humans and animals. However, no studies have used SSC as donor nuclei in pig somatic cell nuclear transfer (SCNT). This study investigated the potential for use of porcine SSC as a nuclei donor for SCNT and developmental competence of SSC‐derived cloned embryos. In addition, demecolcine was investigated to determine whether it could prevent rupture of SSC during SCNT. When the potential of SSC to support embryonic development after SCNT was compared with that of foetal fibroblasts (FF), SSC‐derived SCNT embryos showed a higher (p < .05) developmental competence to the blastocyst stage (47.8%) than FF‐derived embryos (25.6%). However, when SSC were used as donor nuclei in the SCNT process, cell fusion rates were lower (p < .05) than when FF were used (61.9% vs. 75.8%). Treatment of SSC with demecolcine significantly (p < .05) decreased rupture of SSC during the SCNT procedure (7.5% vs. 18.8%) and increased fusion of cell‐oocyte couplets compared with no treatment (74.6% vs. 61.6%). In addition, SSC‐derived SCNT embryos showed higher blastocyst formation (48.4%) than FF‐derived embryos without (28.4%) and with demecolcine treatment (17.4%), even after demecolcine treatment. Our results demonstrate that porcine SSC are a desirable donor cell type for production of SCNT pig embryos and that demecolcine increases production efficiency of cloned embryos by inhibiting rupture of nuclei donor SSC during SCNT.     

Stage‐specific effects of osmolarity of a culture medium on development of pig oocytes and miniature pig somatic cell nuclear transfer embryos activated by ultrasound treatment

Whether high osmolarity of a culture medium at the early culture stage affects the development of pig oocytes and miniature pig somatic cell nuclear transfer (SCNT) embryos activated by ultrasound was examined. When oocytes were cultured in modified porcine zygote medium‐3 (mPZM‐3) with increased NaCl to 138 mmol/L (mPZM‐3+NaCl; 326 mOsm) or 50 mmol/L sucrose (mPZM‐3+sucrose; 318 mOsm) for the first 2 days and then cultured in normal mPZM‐3 (273 mOsm) for 5 days, the cleavage and blastocyst formation rates were significantly (P < 0.05) higher than those of oocytes cultured in mPZM‐3 for 7 days. The cleavage and blastocyst formation rates of SCNT embryos cultured in mPZM‐3+NaCl for the first 2 days and then cultured in mPZM‐3 for 5 days were also significantly (P < 0.05) higher than those of embryos cultured in mPZM‐3 for 7 days. These results showed that the high osmolarity of a culture medium induced by increasing NaCl concentration during the first 2 days improves the development of pig oocytes and miniature pig SCNT embryos activated by ultrasound.     

Effects of synchronization of donor cell cycle on embryonic development and DNA synthesis in porcine nuclear transfer embryos

The relationship between donor cell cycle and the developmental ability of somatic cell nuclear transfer (SCNT) embryos has not fully been elucidated. Donor cells that are usually prepared by serum starvation or confluent-cell culture for SCNT represent a heterogeneous population that includes mainly G0 phase cells, other cells in different phases of the cell cycle and apoptotic cells. In this study, we compared the developmental ability of porcine SCNT embryos reconstructed from G0 phase cells (G0-SCNT embryos) and strictly synchronized-G1 phase cells (G1-SCNT embryos), and examined the developmental rates and timing of first DNA synthesis. The G0 phase cells were synchronized by confluent culture, and the G1 phase cells were prepared from actively dividing M phase cells. The G1-SCNT embryos showed a significantly higher (P<0.05) developmental rate to the blastocyst stage per cleaved embryo (59%) than the G0-SCNT embryos (43%). Moreover, initiation of first DNA synthesis and cleavage occurred significantly earlier in the G1-SCNT embryos than in the G0-SCNT embryos. Delay of initiation of first DNA synthesis in the SCNT embryos by aphidicolin resulted in decreased developmental rates to the blastocyst stage without any effect on cleavage rates. Our data demonstrates that synchronized-G1 phase cells can be used as donor cells for SCNT embryos and that earlier initiation of first DNA synthesis may be important for subsequent development of SCNT embryos. The SCNT system using G1-synchronized cells, in terms of their highly uniform and viable cell states, can be useful for studying the reprogramming processes and embryonic development of SCNT embryos.     

Effects of cumulus cells on in vitro maturation of oocytes and development of cloned embryos in the pig

The purpose of this study was to investigate the role of porcine cumulus cells (CC) in oocyte maturation and somatic cell nuclear transfer (SCNT) embryo development in vitro. Denuded pig oocytes were co-cultured with CC or routinely cultured in maturation medium without a feeder layer. Porcine CC inactivated with mitomycin C or non-inactivated were used for the feeder layer in co-culture with porcine SCNT embryos to investigate comparatively the developmental competence of cloned embryos. The DNA damage aspects of apoptosis and expression pattern of genes implicated in apoptosis (Fas/FasL) as well as the mRNA expression of DNA methyltransferase (Dnmt1, Dnmt3a) of porcine SCNT embryos were also evaluated by comet assay or real-time RT-PCR, respectively. The results showed that co-culture with CC improved the extrusion rate of pbI (49.3% vs 31.5%, p<0.05) and survival rate (75.7% vs 53.3%, p<0.05) of denuded oocytes, but had no effects on blastocyst developmental rate or 2-cell-stage survival rate of in vitro fertilization embryos. Co-culture with CC inactivated by mitomycin C improved the blastocyst developmental rate (26.6% vs 13.0%, p<0.05) and decreased the apoptotic incidence (27.6% vs 46.2%, p<0.05) of porcine cloned embryos. Co-culture with inactivated CC reduced Fas and FasL mRNA expression of cloned embryos at the blastocyst stage compared with NT controls (p<0.05), but there were no differences in Dnmt1 and Dnmt3a mRNA expression among groups. Co-culture with inactivated cumulus cell monolayer significantly increased blastocyst formation and decreased the apoptotic incidence in porcine cloned embryos during in vitro development.     

Modification of maturation condition improves oocyte maturation and in vitro development of somatic cell nuclear transfer pig embryos

This study examined effects on the developmental competence of pig oocytes after somatic cell nuclear transfer (SCNT) or parthenogenetic activation (PA) of : 1) co-culturing of oocytes with follicular shell pieces (FSP) during in vitro maturation (IVM); 2) different durations of maturation; and 3) defined maturation medium supplemented with polyvinyl alcohol (PVA; control), pig follicular fluid (pFF), cysteamine (CYS), or β-mercaptoethanol (β-ME). The proportion of metaphase II oocytes was increased (p < 0.05) by co-culturing with FSP compared to control oocytes (98% vs. 94%). However, blastocyst formation after SCNT was not improved by FSP coculture (9% vs. 12%). Nuclear maturation of oocytes matured for 39 or 42 h was higher (p < 0.05) than that of oocytes matured for 36 h (95-96% vs. 79%). Cleavage (83%) and blastocyst formation (26%) were significantly higher (p < 0.05) in oocytes matured for 42 h than in other groups. Supplementation of a defined maturation medium with 100 µM CYS or 100 µM β-ME showed no stimulatory effect on oocyte maturation, embryo cleavage, or blastocyst formation after PA. β-ME treatment during IVM decreased embryo cleavage after SCNT compared to pFF or PVA treatments, but no significant difference was found in blastocyst formation (7-16%) among the four treatment groups. The results indicated that maturation of oocytes for 42 h was beneficial for the development of SCNT embryos. Furthermore, the defined maturation system used in this study could support in vitro development of PA or SCNT embryos.     

Effects of trichostatin A on histone acetylation and methylation characteristics in early porcine embryos after somatic cell nuclear transfer

Until now, the efficiency of animal cloning by somatic cell nuclear transfer (SCNT) has remained low. Efforts to improve cloning efficiency have demonstrated a positive role of trichostatin A (TSA), an inhibitor of deacetylases, on the development of nuclear transfer (NT) embryos in many species. Here, we report the effects of TSA on pre‐implantation development of porcine NT embryos. Our results showed that treatment of reconstructed porcine embryos with 50 nmol/L TSA for 24 h after activation significantly improved the production of blastocysts (P < 0.05), while treating donor cells with the same solution resulted in increases in cleavage rates and blastomere numbers (P < 0.05). However, TSA treatment of both donor cells and SCNT embryos did not improve blastocyst production, nor did it increase blastomere numbers. Using indirect immunofluorescence, we found that TSA treatment of NT embryos could improve the reprogramming of histone acetylation at lysine 9 of histone 3 (H3K9) and affect nuclear swelling of transferred nuclei. However, no apparent effect of TSA treatment on H3K9 dimethylation (H3K9me2) was observed. These findings suggest a positive effect of TSA treatment (either treating NT embryos or donor cells) on the development of porcine NT embryos, which is achieved by improving epigenetic reprogramming.     

Cilostazol Improves Developmental Competence of Pig Oocytes by Increasing Intraoocyte Cyclic Adenosine Monophosphate Level and Delaying Meiotic Resumption

Cilostazol (CLZ) is a cyclic adenosine monophosphate (cAMP) modulator that influences the steady state of the meiotic stage. This study was conducted to determine the effects of CLZ treatment during in vitro maturation (IVM) on developmental competence of pig oocytes. Immature oocytes were exposed to 0 (control), 0.5, 2 and 4 μm CLZ during the first 22 h of IVM. Nuclear maturation, intraoocyte glutathione content and embryo cleavage after parthenogenesis (PA) and somatic cell nuclear transfer (SCNT) were not influenced by CLZ at any concentrations. However, 4 μm CLZ significantly (p < 0.05) improved blastocyst formation after PA (52.1% vs 38.7–46.0%) and SCNT relative to other concentrations (40.8% vs 25.0–30.7%). The mean cell numbers of SCNT blastocysts were significantly increased by 4 μm CLZ compared to the control (42.6 cells vs 35.3 cells/blastocyst). CLZ treatment significantly increased the intraoocyte cAMP level and effectively arrested oocytes at the germinal vesicle (GV) and GV break down stages compared to the control (74.5% vs 45.4%). Our results demonstrated that improved developmental competence of PA and SCNT pig embryos occurred via better synchronization of nuclear and cytoplasmic maturation induced by increased cAMP and delayed meiotic resumption after CLZ treatment.     

Effects of Donor Cells Treated with Egg Extracts on the Development Competence of Cloned Embryos

Japanese Balck cattle fetal fibroblasts (JBCFF) were induced with Xenopus leavis egg extracts and somatic cell nuclear transfer (SCNT) was carried out with the reprogrammed JBCFF as donor cells in order to investigate their effects on SCNT efficiency.Three samples of egg extracts were acquired from different Xenopus laevis.The protein contents and kinds in extracts were evaluated with BCA Protein Quantification Kit and SDS-PAGE.Concentration of Digitonin to permeabilize JBCFF was optimized and assessed with PI staining.Reprogrammed cells treated with egg extract were used as donor in SCNT.Additionally the reconstructed embryos were activated with ionomycin+6-DMAP and A23187+6-DMAP to compare their effects on the development competence.The protein contents of extracts samples were 56.2255,64.6570 and 71.2158 μg/mL,respectively,the each extract had the same composition about 40-55 and 70-100 ku.The optimal concentration of Digitonin was 7 μg/mL and the permeabilization rate was 55.44%.After extracts treatment and continuous culture for 6-7 d,JBCFF formed well-defined colony structures.No significant composition difference was found in rates of fusion (92.83% vs 96.04%),cleavage (89.64% vs 89.78%) and blastocyst formation (24.06% vs 23.12%) of cloned embryos when the colony cells and JBCFF without extracts treatment were used as donor cells (P>0.05).Similarly,the two activation methods had no significant effect on the developmental competence of cloned embryos (cleavage rate 92.16% vs 92.28%,blastocyst rate 23.21% vs 24.18%).Conclusively,Xenopus leavis,egg extracts could induce JBCFF reprogramming to a low differentiated state.However donor cells with reprogramming partially could not improve the development of cloned embryos and its mechanism requires further research.     

抽提物处理供体细胞对克隆胚胎发育的影响

本研究采用爪蟾卵母细胞抽提物处理和牛胎儿成纤维细胞(JBCFF),并以发生重编程的细胞为核供体进行体细胞核移植,研究其对克隆效率的影响.分别超排3只爪蟾,收集卵母细胞后提取其抽提物,用BCA蛋白浓度测定试剂盒确定其蛋白含量,SDS-PAGE分析其中所含蛋白的种类.应用细胞膜透化剂Digitonin对建立的JBCFF进行通透处理和PI染色,筛选最适浓度;并用获得的抽提物处理牛体细胞,获得重编程细胞.以发生重编程的体细胞为供体进行核移植,同时比较离子霉素+6-DMAP和A23187+6-DMAP两种组合激活后克隆胚的体外发育能力.结果,3个爪蟾卵母细胞抽提物样品的蛋白浓度分别为56.2255、64.6570和71.2158 μg/mL,其中所含蛋白种类一致,主要集中在40~55、70~100 ku之间.经过连续的筛选,透化剂Digitonin对JBCFF通透处理的最适浓度为7 μg/mL,PI染色显示透化效率为55.44%.爪蟾卵母细胞抽提物与体细胞共孵育后继续培养6~7 d,细胞聚集形成"克隆簇".分别以"克隆簇"细胞和未处理细胞为核供体,制备的重构胚在融合率(92.83%和96.04%)、卵裂率(89.64%和89.78%)和囊胚率(24.06%和23.12%)均无显著差异(P>0.05);离子霉素+6-DMAP和A23187+6-DMAP两种激活方式对克隆胚胎的分裂率(92.16%和92.28%)和囊胚率(23.21%和24.18%)均无显著影响(P>0.05).爪蟾卵母细胞抽提物诱导和牛体细胞发生重编程,并恢复到较低的分化状态,但没有显著促进克隆胚胎的体外发育,可见缺少对胚胎发育起重要作用的重编程过程,还需要继续深入研究.     

水牛体细胞核移植方法比较及激活前的时间间隔对全细胞胞质内注射法核移植效果的影响

本研究旨在比较水牛2种体细胞核移植(Somatic Cell Nuclear Transfer,SCNT)方法的效果以及激活前的时间间隔对全细胞胞质内注射法(Whole-Cell Intracytoplasmic Microinjection,WCICSI)核移植效果的影响.采用水牛胎儿成纤维细胞作为供核,比较了透明带下注核法(Perivitelline Microinjection,PM)和WCICSI核移植效果.另外,试验了不同类型的供体细胞进行全细胞胞质内注射后与激活前的受体胞质的最适宜作用时间.结果,WCICSI构建核移植重构胚的成功率显著高于PM(87.1%vs 81.1%,P＜0.05),虽然其重构胚的分裂率极显著低于PM(49.5%vs 71.8%,P＜0.01),但囊胚率、核移植的效率无显著差异(P＞0.05).卵丘细胞和胎儿成纤维细胞在注射后3 h激活,重构胚的囊胚发育率最高;颗粒细胞注射后与激活前的最佳时间间隔可在1.5～3 h,但3 h是最佳的作用时间.结果表明,(1)WCICSI可用于水牛体细胞核移植的研究;(2)水牛胞质内注射供体细胞后3 h进行激活,核移植重构胚的发育效果最好.     

水牛徒手克隆胚胎培养及冷冻条件的优化

本试验利用微滴、微穴和平板培养系统对徒手克隆(hand-made clone,HMC)重组胚进行体外培养;采用了40% EG(ethylene glycol,EG)、25% EG＋25% DMSO(dimethylsulphoxide,DMSO) 和20% EG＋20% DMSO＋0.5 mol/L蔗糖作为玻璃化冷冻液对HMC囊胚进行了超低温冷冻;并且比较了HMC与传统核移植的胚胎生产效率及囊胚冷冻存活率。结果表明,微穴系统的卵裂率要显著高于平板系统(P<0.05),极显著高于微滴系统(P<0.01);且微穴系统的囊胚率(40.0%)极显著高于平板(19.8%)和微滴系统(8.3%)(P<0.01)。采用20% EG＋20% DMSO＋0.5 mol/L蔗糖作为冷冻保护剂时HMC囊胚存活率极显著高于40% EG(P<0.01);HMC重组胚的融合率和囊胚率均高于传统核移植法(P<0.05;P<0.01),而HMC囊胚的冷冻存活率与传统核移植生产的囊胚没有显著差异。以上结果说明水牛HMC可以替代传统核移植法生产克隆胚胎,微穴体系最适合水牛HMC胚胎的体外培养,且采用20% EG＋20% DMSO＋0.5 mol/L蔗糖对HMC囊胚进行玻璃化冷冻可以取得良好的冷冻效果。     

Treating Cloned Embryos,But Not Donor Cells,with 5-aza-2’-deoxycytidine Enhances the Developmental Competence of Porcine Cloned Embryos

The efficiency of cloning by somatic cell nuclear transfer (SCNT) has remained low. In most cloned embryos, epigenetic reprogramming is incomplete, and usually the genome is hypermethylated. The DNA methylation inhibitor 5-aza-2’-deoxycytidine (5-aza-dC) could improve the developmental competence of cow, pig, cat and human SCNT embryos in previous studies. However, the parameters of 5-aza-dC treatment among species are different, and whether 5-aza-dC could enhance the developmental competence of porcine cloned embryos has still not been well studied. Therefore, in this study, we treated porcine fetal fibroblasts (PFF) that then were used as donor nuclei for nuclear transfer or fibroblast-derived reconstructed embryos with 5-aza-dC, and the concentration- and time-dependent effects of 5-aza-dC on porcine cloned embryos were investigated by assessing pseudo-pronucleus formation, developmental potential and pluripotent gene expression of these reconstructed embryos. Our results showed that 5-aza-dC significantly reduced the DNA methylation level in PFF (0 nM vs. 10 nM vs. 25 nM vs. 50 nM, 58.70% vs. 37.37% vs. 45.43% vs. 39.53%, P<0.05), but did not improve the blastocyst rate of cloned embryos derived from these cells. Treating cloned embryos with 25 nM 5-aza-dC for 24 h significantly enhanced the blastocyst rate compared with that of the untreated group. Furthermore, treating cloned embryos, but not donor cells, significantly promoted pseudo-pronucleus formation at 4 h post activation (51% for cloned embryos treated, 34% for donor cells treated and 36% for control, respectively, P<0.05) and enhanced the expression levels of pluripotent genes (Oct4, Nanog and Sox2) up to those of in vitro fertilized embryos during embryo development. In conclusion, treating cloned embryos, but not donor cells, with 5-aza-dC enhanced the developmental competence of porcine cloned embryos by promotion of pseudo-pronucleus formation and improvement of pluripotent gene expression.     

供体细胞的不同处理方法对牛核移植重构胚发育能力的影响

为了研究供体细胞不同的处理方法对核移植重构胚的作用，比较了用于保种的冻存和新鲜的成纤维细胞做供体细胞、供体细胞不同的离心转数、供体细胞不同的血清饥饿时间及用本实验室冻存的成纤维细胞，解冻复苏后，不同传代次数对重构胚的影响。结果表明分别用冷冻保存的和新鲜的成纤维细胞作为核供体，所得重构胚卵裂率、囊胚率无显著差（P>0.05）；供体细胞离心800 r/min时所得重构胚效果较好，离心1500 r/min所得重构胚的卵裂率、囊胚率与其他3组相比较低；血清饥饿3～5 d组所得重构胚比其他3组好；用解冻复苏后再传2、5代的细胞进行核移植，所得重构胚的卵裂率、囊胚率无明显差异(P>0.05)，显著高于传8代的细胞所得重构胚。说明供体细胞的不同处理方法对核移植重构胚发育有很重要的影响。     

Cellular Composition and Viability of Cloned Bovine Embryos Using Exogene-Transfected Somatic Cells

The present study compared the efficiency of transgenic (TG) cloned embryo production by somatic cell nuclear transfer (SCNT) with fetal-derived fibroblast cells (FFCs) which were transfected with pEGFP-N1 to in vitro-fertilized (IVF), parthenogenetic and SCNT counterparts by evaluating the rates of cleavage and blastocyst formation, apoptosis rate at different developmental stages, cell number, ploidy and gene expression in blastocysts. In SCNT and TG embryos, the rates of cleavage and blastocyst formation were significantly lower (p < 0.05) than those of IVF controls, but it did not differ between SCNT and TG embryos. In IVF control, 86.7% embryos displayed diploid chromosomal complements and the rates were significantly (p < 0.05) higher than those of SCNT and TG embryos. Most TG embryos (79%) with FFCs expressed the gene by both PCR and under fluorescence microscopy. The expression of apoptosis by TUNEL was first detected at six to eight cell stages in all embryos of IVF, SCNT and TG groups, but the expression rate at each developmental stages was significantly higher (p < 0.05) in SCNT and TG embryos than in IVF counterparts. The expression rate in inner cell mass (ICM) of TG embryos was significantly higher (p < 0.05) than in SCNT and IVF embryos. These results indicate that the high occurrence of apoptosis observed in SCNT and TG embryos compared with IVF counterparts might influence the developmental competence. Moreover, the SCNT embryos derived using non-transfected donor cells exhibited a lower apoptosis expression in ICM cells than in TG embryos derived using pEGP-N1-transfected donor cells suggesting a possible role of negative gene effect in TG embryos.