Effect of postactivation treatment with latrunculin a on in vitro and in vivo development of cloned embryos derived from kidney fibroblasts of an aged clawn miniature boar

The objective of this study was to examine the effect of postactivation treatment with latrunculin A (LatA), an actin polymerization inhibitor, on in vitro and in vivo development of somatic cell nuclear transfer (SCNT) embryos derived from kidney fibroblasts of an aged Clawn miniature boar (12 years old). After electric activation, SCNT embryos were treated with 0, 0.5 or 1 μM LatA and cultured in vitro. The rate of blastocyst formation was significantly higher (P<0.05) in SCNT embryos treated with 0.5 μM LatA (38%) than those in control (14%). When cloned embryos treated with 0.5 μM LatA were transferred into the oviducts of two recipient miniature gilts to assess their development in vivo, both recipients became pregnant; one maintained pregnancy to term, and a live piglet (weighing 220 g) was delivered by Caesarean section. The results of this study indicated that the postactivation treatment with LatA was effective in improving in vitro developmental capacity of SCNT miniature pig embryos derived from kidney fibroblasts of an aged animal and that miniature pig cloned embryos treated with LatA had the ability to develop to term.     

Application of laser-assisted zona drilling to in vitro fertilization of cryopreserved mouse oocytes with spermatozoa from a subfertile transgenic mouse

Development of assisted reproductive technologies is necessary to obtain fertilized oocytes in a subfertile transgenic mouse strain. Here, we showed the application of laser-assisted drilling of the zona pellucida to in vitro fertilization of cryopreserved mouse oocytes with sperm from subfertile transgenic mice (C57BL/6N-Tg(UCP/FAD2)U8 strain). After cryopreservation by vitrification, the recovery and survival rates of the zona-drilled mouse oocytes were 97% (97/100) and 94% (91/97), respectively. In vitro fertilization of the cryopreserved zona-drilled mouse oocytes with sperm from the subfertile transgenic mice was greatly facilitated (60%, 55/91) compared to that of the cryopreserved zona-intact mouse oocytes (11%, 81/768). In vitro fertilized embryos that developed to the 2-cell stage were again cryopreserved by vitrification, and after warming they were transferred into recipient females. Subsequently, six viable offspring were delivered, and all were confirmed to be transgenic mice. These results indicate that laser-assisted zona drilling of oocytes combined with cryopreservation by vitrification may be a useful approach for large-scale production of in vitro fertilized embryos for managing transgenic mouse strains with reproductive disabilities such as subfertile sperm.     

Coating of Objects Introduced into the Oviduct of Pseudopregnant Rabbit Does

This investigation addresses the possibility of providing mouse embryos or other foreign objects with a protective mucin coat by transferring them into the oviduct of a life rabbit doe. Mouse embryos at the 8 or 16-cell stage, rabbit oocytes and latex spheres resembling mouse embryos in size were transferred to the ligated oviducts of ovulation-induced rabbit does. The does were killed 24 h later to have their oviducts flushed. A large proportion of the latex spheres (89%) and of the ovulated oocytes of the recipient does (92%) was recovered. The recovery rates for transferred rabbit oocytes, either intact or with the zona pellucida removed, were 61% and 51%, respectively, whereas that for mouse embryos was extremely poor (20%). Rabbit oocytes with or without zona were enveloped in a thick mucin coat regardless whether they had been transferred or ovulated by the recipients. The same applied to empty rabbit zonae. Mouse embryos and latex spheres were also covered by a mucin coat, but it was four times thinner. While residing in the rabbit oviduct, the mouse embryos continued developing to a stage comparable to what would have been expected in situ . During the subsequent in vitro culture, mouse embryos continued developing to the expanded blastocyst stage. They did, yet, not hatch from the zona. It may be concluded that particles of various origins, when placed into the oviduct of ovulated rabbit does, will be provided with a mucin covering which is, however, considerably thinner than that surrounding oocytes or zonae pellucidae originating from rabbits.     

In Vitro Production of Equine Embryos

The development of methods to produce embryos in vitro in the horse has been delayed compared with other domestic species. Oocytes can be collected from excised ovaries or from the small or preovulatory follicles of live mares. Intracytoplasmic sperm injection is the only reliable method to fertilize equine oocytes in vitro. Intracytoplasmic sperm injection-produced embryos can be transferred into the oviducts of recipient mares or cultured to the morula or blastocyst stage of development for nonsurgical embryo transfers into recipients' uteri. Embryos cultured in vitro have some morphological differences compared with embryos collected from the mares' uteri. Most notably, the embryonic capsule does not form in culture, and the zona pellucida fails to expand completely. However, embryo produced in vitro can result in viable pregnancies and healthy offspring.     

Embryo cloning in domestic animals]

The cloning of livestock is performed by the nuclear transfer of early embryonic stages into prepared oocytes in order to obtain a high number of genetic identical animals. As the most important technical steps there are maturation and enucleation of the oocytes, isolation of single blastomeres or karyoplasts of the donor embryo, transfer of the nucleus-containing membrane vesicle under the zona pellucida of the recipient cell, and fusion of the recipient cell and blastomere or karyoplast. Until now, the largest clone which is known exists of seven bulls. The efficiencies of the particular methodical steps have to be improved. More knowledge of the activation of oocytes, nucleus differentiation and availability of determined cell cycle-stages of mitosis is required. The combination of embryo cloning, cryopreservation of embryos and non-surgical embryo transfer is required for basic research and animal breeding.     

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.     

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.     

Transfer of Bisected Cattle Embryos within the Same Zona Pellucida*

Cattle embryos at the compact morula and blastocyst stages were bisected by two different methods. In some embryos the embryo bisection was performed outside of the zona pellucida and both halves were replaced into it. Other embryos were bisected within the zona pellucida and no pipetting of the halves was required. They were transferred to synchronized recipient cows and the pregnancy rates and twinning rates were evaluated.     

Relationship between plasminogen activator production and bovine embryo development in vitro

The relationship of plasminogen activator (PA) production to cell stage, cell number and changes in overall diameter and zona pellucida thickness for bovine embryos developing in vitro was determined. Late morulae to blastocysts (n = 80) were collected nonsurgically from naturally mated, estrous-synchronized, superovulated crossbred beef cows. Embryos were cultured, one embryo per 25-microliters microdrop, for 6 d. At 24-h intervals, embryos were evaluated for stage of development and transferred to fresh microdrops; media were recovered for PA analysis. In addition, embryo diameter and zona pellucida thickness were measured with an ocular micrometer. Plasminogen activator production was determined using a caseinolytic assay with urokinase as the standard. Changes in diameter, zona pellucida thickness and PA production per 24-h interval for each embryo were plotted, and the graphs were cut out and weighed. Sixty-one embryos (76%) completed the hatching process. Total PA production was correlated positively (P less than .005) to embryonic size (r = .40), developmental stage (r = .35) and cell number (r = .35) and negatively, but weakly, correlated to zona pellucida thickness (r = -.13; P = .267). Hatched embryos produced more total PA than embryos that did not hatch (.140 +/- .011 vs .070 +/- .019 g; P less than .01). These results suggest that as embryonic size and cell number increase and development progresses, bovine embryos liberate more PA.     

Supplement of autologous ooplasm into porcine somatic cell nuclear transfer embryos does not alter embryo development

Somatic cell nuclear transfer (SCNT) is considered as the technique in which a somatic cell is introduced into an enucleated oocyte to make a cloned animal. However, it is unavoidable to lose a small amount of the ooplasm during enucleation step during SCNT procedure. The present study was aimed to uncover whether the supplement of autologous ooplasm could ameliorate the oocyte competence so as to improve low efficiency of embryo development in porcine SCNT. Autologous ooplasm‐transferred (AOT) embryos were generated by the supplementation with autologous ooplasm into SCNT embryos. They were comparatively evaluated with respect to embryo developmental potential, the number of apoptotic body formation and gene expression including embryonic lineage differentiation, apoptosis, epigenetics and mitochondrial activity in comparison with parthenogenetic, in vitro‐fertilized (IVF) and SCNT embryos. Although AOT embryos showed perfect fusion of autologous donor ooplasm with recipient SCNT embryos, the supplement of autologous ooplasm could not ameliorate embryo developmental potential in regard to the rate of blastocyst formation, total cell number and the number of apoptotic body. Furthermore, overall gene expression of AOT embryos was presented with no significant alterations in comparison with that of SCNT embryos. Taken together, the results of AOT demonstrated inability to make relevant values improved from the level of SCNT embryos to their IVF counterparts.     

The effect of experimental infection of mouse preimplantation embryos with paramyxovirus Sendai.

Zona-intact and zona-free mouse embryos at the morula stage were exposed to Sendai virus in vitro, and then transferred to the uteri of recipient foster mothers. Both embryos developed into expanded blastocyst stage after 48 hr of culture. Zona-intact embryos were resistant to infection and subsequent transfer resulted in the development of fetuses, indicating that the zona pellucida plays a role of a barrier to virus infection. On the other hand, zona-free embryos were susceptible to infection and only one fetus out of 64 transfers developed to term. Implantation sites were scarcely observed in the uteri of the foster mothers that received zona-free embryos, suggesting that most of the embryos did not develop after embryo transfer. Sendai virus was shed in the culture fluid of the zona-free embryos indicating viral replication in the embryonic cells. By immunofluorescence assay, viral antigens were detected in the embryos, tissues of the fetus and implantation site derived from the zona-free embryos. These findings indicate that replication of Sendai virus in the embryonic cells interfere with early embryonic development and fetal growth of the embryo.     

Cloned foal derived from in vivo matured horse oocytes aspirated by the short disposable needle system

Transvaginal ultrasound-guided follicle aspiration is one method of obtaining recipient oocytes for equine somatic cell nuclear transfer (SCNT). This study was conducted: (1) to evaluate the possibility of oocyte aspiration from pre-ovulatory follicles using a short disposable needle system (14-G) by comparing the oocyte recovery rate with that of a long double lumen needle (12-G); (2) to investigate the developmental competence of recovered oocytes after SCNT and embryo transfer. The recovery rates with the short disposable needle vs. the long needle were not significantly different (47.5% and 35.0%, respectively). Twenty-six SCNT embryos were transferred to 13 mares, and one mare delivered a live offspring at Day 342. There was a perfect identity match between the cloned foal and the cell donor after analysis of microsatellite DNA, and the mitochondrial DNA of the cloned foal was identical with that of the oocyte donor. These results demonstrated that the short disposable needle system can be used to recover oocytes to use as cytoplasts for SCNT, in the production of cloned foals and for other applications in equine embryology     

Production of transgenic cloned pigs expressing the far-red fluorescent protein monomeric Plum

Monomeric Plum (Plum), a far-red fluorescent protein with photostability and photopermeability, is potentially suitable for in vivo imaging and detection of fluorescence in body tissues. The aim of this study was to generate transgenic cloned pigs exhibiting systemic expression of Plum using somatic cell nuclear transfer (SCNT) technology. Nuclear donor cells for SCNT were obtained by introducing a Plum-expression vector driven by a combination of the cytomegalovirus early enhancer and chicken beta-actin promoter into porcine fetal fibroblasts (PFFs). The cleavage and blastocyst formation rates of reconstructed SCNT embryos were 81.0% (34/42) and 78.6% (33/42), respectively. At 36–37 days of gestation, three fetuses systemically expressing Plum were obtained from one recipient to which 103 SCNT embryos were transferred (3/103, 2.9%). For generation of offspring expressing Plum, rejuvenated PFFs were established from one cloned fetus and used as nuclear donor cells. Four cloned offspring and one stillborn cloned offspring were produced from one recipient to which 117 SCNT embryos were transferred (5/117, 4.3%). All offspring exhibited high levels of Plum fluorescence in blood cells, such as lymphocytes, monocytes and granulocytes. In addition, the skin, heart, kidney, pancreas, liver and spleen also exhibited Plum expression. These observations demonstrated that transfer of the Plum gene did not interfere with the development of porcine SCNT embryos and resulted in the successful generation of transgenic cloned pigs that systemically expressed Plum. This is the first report of the generation and characterization of transgenic cloned pigs expressing the far-red fluorescent protein Plum.     

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.     

Study on Oocyte Nuclear Factor Promotes the Early Development of Tetraploid Somatic Cell Nuclear Transfer Embryos

The study was aimed to investigate the role of porcine oocyte nuclear factors during reprogramming. Somatic cell nuclei was introduced into intact MⅡ oocytes to establish tetraploid somatic cell nuclear transfer (SCNT) embryos containing both somatic nuclei and oocyte nuclei. And then the influence of the oocyte nucleus on tetraploid SCNT embryo development was examined by assessing characteristics including cleavage rate and blastocyst rate. The results showed that the cleavage rate of tetraploid SCNT embryos,diploid parthenogenetic embryos and haploid parthenogenetic embryos was extremely significantly higher than that of standard diploid SCNT embryos (P<0.01). The blastocyst rate and the total number of cells in tetraploid SCNT embryos were extremely significantly higher than that of standard diploid SCNT embryos (P<0.01).Overall,tetraploid SCNT embryos had a higher developmental competence than standard diploid SCNT embryos. In conclusion, the embryonic model was established in which a fetal fibroblast nucleus and an oocyte M Ⅱ plate coexist. Tetraploid SCNT represented a new research platform that was potentially useful for examining interactions between donor nuclei and oocyte nuclei. This platform should facilitate further understanding of the roles played by nuclear factors during reprogramming.     

卵母细胞核因子促进核移植四倍体胚胎早期发育研究

研究旨在探讨猪卵母细胞核因子在重编程过程中发挥的作用。将体细胞引入未去核的MⅡ期卵母细胞中,构建体细胞核与卵母细胞核共存的核移植四倍体胚胎。通过分析核移植四倍体胚胎的早期发育情况探讨卵母细胞核因子对核移植四倍体胚胎早期发育的影响。结果显示,核移植四倍体胚胎、孤雌二倍体胚胎及孤雌单倍体胚胎这3组胚胎的卵裂率极显著高于核移植二倍体胚胎（P<0.01）,且核移植四倍体囊胚率及总细胞数也极显著高于核移植二倍体囊胚（P<0.01）。与通过标准核移植程序构建的核移植二倍体胚胎相比,核移植四倍体胚胎具有更强的发育能力。本研究建立了一个体细胞核与完整卵母细胞核因子物质共存的四倍体胚胎模型,有助于研究供体核与卵母细胞核之间的联系,为研究核因子在重编程过程中发挥的作用提供了平台。     

Transfer of bovine demi-embryos with and without the zona pellucida

Bisected bovine embryos with or without the zona pellucida were transferred to recipients nonsurgically in five field trials. Embryos were collected from superovulated donors 6.5 to 7.5 d after estrus; only embryos of good and excellent quality were bisected. Demi-embryos were transferred either within a zona pellucida, without a zona pellucida, without a zona pellucida, or in the third and fourth trials, without a zona but embedded in 7% gelatin. Pregnancies were diagnosed at 44 to 68 d of gestation. In a preliminary trial, 9/29 zona pellucida-intact demi-embryos developed into fetuses compared with 1/10 zona pellucida-free demi-embryos (P greater than .1). The proportion of zona-free demi-embryos developing to fetuses was not significantly different from the zona-intact group in the second trial either, 24/49 and 5/19, respectively. In trial 3, the proportion of zona pellucida-free demi-embryos developing was 8/25; of zona-enclosed embryos, 29/88; and of zona-free demi-embryos embedded in gelatin, 8/22 (P greater than .1). Similarly, in the fourth trial the rate of development of zona-free demi-embryos to fetuses was 5/12, that of zona-enclosed embryos was 32/81, and that of zona-free demi-embryos embedded in gelatin was 3/12 (P greater than .1). In trial 5, survival of zona-enclosed demi-embryos to fetuses was 40/105, and of zona-free demi-embryos, 46/109 (P greater than .1). Except for trial 2, half of the demi-embryos were twinned, one to each uterine horn; twinning did not significantly affect the proportion developing to fetuses for any of the demi-embryo groups. It is concluded that placing post-compaction demi-embryos into the zona pellucida for transfer does not improve pregnancy rates significantly.     

Development of mouse embryonic nuclei transferred to enucleated oocytes and zygotes.

The present study was conducted to examine the development of nuclear transplant embryos produced by transplanting nuclei to either oocytes or zygotes in the mouse. Metaphase II oocytes and one-cell zygotes were enucleated and fused with transferred nuclei from late two-, four- and eight-cell stage embryos. Enucleation of metaphase oocytes was achieved using the interference microscope without staining. Fusion and oocyte activation were performed by means of electric fields. Similar development rates to the blastocyst stage were obtained from enucleated oocytes (28.0%) and zygotes (30.9%) reconstituted with nuclei from late two-cell embryos. Cleavage and blastocoele formation of reconstituted embryos occurred at around the same time as observed in the control embryos, with some exceptions. After transfer to recipient females, live young were obtained from both reconstituted oocytes (9.1%) and zygotes (11.5%) that received a nucleus from late two-cell embryos. The results indicate that enucleated zygotes as well as oocytes can support development to term of nuclei introduced from late two-cell embryos in which activation of the embryonic genome has occurred, which may be a result of the reprogramming of the donor nucleus.     

Spindle formation and microtubule organization during first division in reconstructed rat embryos produced by somatic cell nuclear transfer

The present study was conducted to demonstrate the spindle formation and behavior of chromosomes and microtubules during first division in reconstructed rat embryos produced by somatic cell nuclear transfer (SCNT) with cumulus cell nuclei. To demonstrate the effect of oocyte aging after ovulation on the cleavage of SCNT embryos, micromanipulation was carried out 11, 15 and 18 h after injection of hCG. SCNT oocytes were activated by incubation in culture medium supplemented with 5 microM ionomycin for 5 min followed by treatment with 2 mM 6-dimethylaminopurine (6-DMAP) in mR1ECM for 2-3 h. For immunocytochemical observation, the SCNT embryos were incubated with monoclonal anti-alpha-tubulin antibody and then fluorescein isothiocyanate (FITC)-conjugated goat anti-mouse IgG. Cleavage rates were significantly higher for oocytes collected after 15 and 18 h rather than for those collected 11 h after injection of hCG (56 and 53%, respectively vs. 28%; P<0.05). Premature chromosome condensation occurred before activation of the SCNT oocytes, but adequate spindle formation was only rarely observed. The distribution of microtubules in SCNT embryos after activation was different from those of fertilized and parthenogenic oocytes, i.e., a dense microtubule organization shaped like a ring was observed. Eighteen to 20 h post-activation, most SCNT embryos were in the 2-cell stage, but no nucleoli were clearly visible, which was quite different from the fertilized oocytes. In addition, first division with and without small cellular bodies containing DNA was observed in the rat SCNT embryos in some cases. The present study suggests that reorganization of transferred nuclei in rat SCNT embryos may be inadequate in terms of formation of the mitotic assembly and nucleolar reorganization.     

Effects of recloning on the efficiency of production of alpha 1,3-galactosyltransferase knockout pigs

Obtaining sufficient transgenic cells via selective cultivation of genetically manipulated somatic cells is difficult due to the limited number of cell divisions. Additionally, if irreversible mutations in a cell's chromosomes occur during selective cultivation and the cell is used as the nuclear donor, somatic cell nuclear transfer (SCNT) embryos often exhibit abnormal development. On the other hand, a SCNT method in which fetal cells derived from SCNT embryos are used as the nuclear donor (recloning method) is an effective technique for obtaining large quantities of transgenic cells. In this study, we compared the in vivo development rate of SCNT embryos produced from porcine alpha1-3 galactosyltransferase gene knockout (GTKO) cells by a recloning method with that of SCNT embryos produced without recloning from porcine GTKO cells (direct method). In the direct method, 557 and 462 cloned embryos were produced using two types of activation methods, the two-step activation (TA) method and the delayed activation (DA) method, and then transferred into 6 and 4 recipients, respectively, but no piglets were born from these recipients. In the recloning method, 956 and 1038 cloned embryos were produced using the TA and DA methods, respectively, and then transferred to 8 and 7 recipients, respectively. Two piglets were born from one recipient in the TA group and 6 piglets were born from 3 recipients in the DA group. This report indicates that the recloning method improved the developmental capacity of SCNT embryos reconstructed with gene-targeted somatic cells.