家兔胚胎细胞核移植与连续移植

将发育不同时期的兔胚和移核胚的卵裂球细胞核与去核的成熟卵母细胞共同组成移核胚,通过中间受体培养和移植实验检验胚胎的发育能力。结果表明,（１）兔囊胚之前各个时期的胚胎细胞核均可使移核胚发育到囊胚;（２）胚胎极化前后的卵裂球参与组成的移核胚发育到囊胚的比例无显著差异。但极化后 ６４细胞胚的卵裂球与去核卵母细胞的融合率低于极化前的 ８细胞胚胎卵裂球;（３）兔 １６细胞胚与去核的卵母细胞组成的移核胚可以发育到期,产仔率为 ３．１６％ ;（４）兔移核胚卵裂球用于连续核移植,其后 ２ 代均可发育成囊胚,其中第 １ 代移核胚与第 ２ 代移核胚发育率相似,但显著高于第 ３ 代移核胚;（５）兔移核胚和各代连续移核胚卵裂球与去核卵的融合率无显著差异。     

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.     

Developmental capacity of reconstituted mouse embryos: influences of nucleus and cytoplasm sources.

This study was undertaken to examine the developmental capacity of reconstituted mouse embryos, and the influences of nucleus and cytoplasm on the development of these embryos following reciprocal pronuclear transplantation between in vitro 2-cell blocked and nonblocked embryos. Karyoplast containing pronuclei was transferred into the perivitelline space of the enucleated zygote and fused to cytoplasm with electrofusion. Maximum fusion rate was obtained when a field strength of 1.5 kV/cm was used. The fusion rates were high (86.2 +/- 3.2 to 90.6 +/- 2.0%) regardless of the strains of donor nucleus and recipient cytoplasm. Developmental rates of reconstituted embryos to the blastocyst stage, which were similar to that of the F1 (C57BL/6J x CBA) control were high when F1 embryos were used as the cytoplasm recipients (88.8 +/- 1.5 and 91.9 +/- 2.0%). When ICR embryos were used as the recipient cytoplasm, developmental rates were significantly reduced (71.5 +/- 2.9 and 54.1 +/- 3.2%), and affected by the source of nucleus. There were no significant differences in the cell number of embryos that developed to blastocysts and in the developmental rates to live young among the embryos reconstituted with different nuclei and cytoplasm, and the ICR control. The results of this study show that the development of reconstituted embryos is hardly affected by nuclear transplantation and electrofusion procedures. It is indicated that the recipient cytoplasm, rather than the donor nucleus, has the greater influence on the in vitro development of the reconstituted embryos to the blastocyst stage.     

Production of HanWoo (Bos taurus coreanae) fetuses following interbreed somatic cell nuclear transfer

The possibility of producing HanWoo (Bos taurus coreanae) calves from transferable bovine embryos, obtained by interbreed nuclear transfer using Holstein cytoplasts and surrogates, was investigated. As donor nuclei, HanWoo fetal fibroblasts were used. Cells were induced into quiescence by serum deprivation for 4-7 days before nuclear transfer. In vitro matured Holstein oocytes were enucleated, and single donor cell was placed into the perivitelline space of enucleated oocyte. After reconstruction, the embryos were fused. activated and cultured. On day 7, the embryos that developed to the blastocyst stages were transferred into Holstein recipient cows on day 6 to 7 of estrous cycle (estrus=0). The reconstructed embryos were successfully fused (58.8%; 47/80), cleaved (91.5%; 43/47), and developed to blastocysts (29.8%; 14/47). Eleven blastocysts were transferred into 5 Holstein recipient cows. Two recipients were pregnant, confirmed by ultrasonography at day 60 of gestation. But, one of them was opened between on day 80 to 100 of pregnancy, and the other had a stillbirth on day 255. The stillborn calf was physically normal, and we couldn't find any evidence of anomaly. These results show that cells derived from HanWoo somatic cell lines can be reprogrammed by interbreed nuclear transfer and develop subsequently in vivo as well as in vitro.     

核移植前激活受体卵子对牛核移植卵体外发育的影响

本研究探讨了核移植前对受体卵子进行激活、细胞融合开始时间及供体受精卵细胞周期调节对核移植卵体外发育的影响。其结果显示核移植前对受体卵子激活组的细胞融合率与对照组没有差异 ,但重组胚胎的卵裂率、8～ 16细胞期胚胎及囊胚的发育率比对照组明显提高 ;核移植前激活的受体卵子分别在卵子体外成熟开始的第30h和 4 5h与供体细胞进行细胞融合 ,结果 ,30h组的细胞融合率和卵裂率与 4 5h组没有差异 ,但发育到 8～ 16细胞期及囊胚的发育率均比 4 5h的高 ;将供体受精卵用诺考达唑 (Nocodazole)处理后 ,进行核移植的结果 ,处理组的细胞融合率、卵裂率、发育到 8～ 16细胞期和囊胚的发育率与对照组无差异     

Development of goat embryos reconstituted with somatic cells: the effect of cell-cycle coordination between transferred nucleus and recipient oocytes

The developmental ability and the nucleus and microtubule dynamics of nuclear transplanted goat embryos derived from in vitro matured oocytes were studied while controlling cell-cycle coordination of donor embryonic nuclei and recipient cytoplasts. Three groups of transfers were studied: G0/G1 (after the fibroblast cells grew to 100% confluence) and G2/M (nocodazole treated) phase fibroblasts transferred to MII cytoplasts (G0/G1-->MII and G2/M-->MII group, respectively), and G0/G1 phase fibroblasts transferred to preactivated cytoplasts, mostly at S-phase, (G0/G1-->Pre group) by electrical fusion. The results showed that fusion and developmental ability did not differ between G0/G1-->MII and G0/G1-->Pre groups. However the developmental rate of embryos in the G0/G1-->MII group was significantly higher than that of the G2/M-->MII group. Most fibroblast nuclei (G0/G1 and G2/M) transferred into MII oocytes underwent premature chromosome condensation (PCC). Normal spindle were only detected in the G0/G1-->MII group. In contract, fibroblast nuclei in pre-activated oocytes rarely underwent PCC, but formed a swollen nuclear structure. The data suggest that in vitro matured goat oocytes can support the development of somatic fibroblasts after nuclear transfer, G0/G1 -->MII and G0/G1-->S nuclear transfer might be effective ways for improving the developmental competence of the reconstituted embryos, and that G2/M-->MII nuclear transfer by electrical fusion (even in Ca2+-free fusion medium) induces abnormal chromosome ploidy.     

Association between embryonic loss and damage to the zona pellucida by invasive micromanipulation during oviductal transfer of early-stage embryos in pigs

The aim of this study was to examine the impact of zona pellucida damage, which might arise during somatic cell nuclear transfer (SCNT), on the development and survival of transferred embryos. The zonae pellucidae of in vitro matured oocytes were either punctured with 8- to 10-microm square-ended nuclear injection pipettes and piezo pulses or slit with 35- to 40-microm enucleation pipettes. Intact oocytes were used as controls. These oocytes were electroactivated to induce parthenogenesis and transferred to the oviducts of estrus-synchronized recipient gilts. After 5 to 7 days, the recipient uteri were flushed to collect embryos, and embryonic development (morula-blastocyst stage embryos/collected embryos) and survival (viable embryos/collected embryos) were determined. In total, 221 zona-punctured, 129 zona-slitted and 57 intact embryos were transplanted into four, two and two gilts, respectively. The efficiency of embryo recovery was similar in all groups (64.3 to 79.1%). However, the zona-penetrated and incised embryos exhibited unstable development and survival compared with the controls; development and survival of the control embryos were 94.7 and 87.7%, whereas those of the zona-punctured embryos were 69.0 and 47.9% (P<0.01) and those of the zona-slit embryos were 64.7 and 50.0% (P<0.01). Cells with large foci that appeared to be macrophage giant cells were observed at the surface or inside the degenerated zona-damaged embryos. These results indicate that the recipient's immune response to damage to the zona pellucida may impair embryonic development after transplantation to the oviduct. This may be one of the factors causing the reduced efficiency of live progeny production by SCNT.     

Attempt to produce nuclear transferred primordial germ cells using electrofusion in domestic chicken

As a step to develop a somatic nuclear transfer technique for avian species, an attempt to produce somatic nuclear transferred primordial germ cells (PGC) in the domestic chicken was carried out. Primordial germ cells and embryonic blood cells (EBC) were collected from 2‐day‐old embryos and the nuclei were transferred from EBC into PGC by electrofusion. The most efficient pearl chain was developed when a 350‐V/cm AC field was applied for 60 s. Cell fusion between PGC and EBC was most effective when 4‐kV/cm DC pulses, 60 µs pulse width, were applied three times to a cell suspension dispersed in 0.2 or 0.25 mol/L saccharose solution. The present results provide basic information for the production of somatic cell nuclear transferred chickens using PGC as the nuclear recipient.     

Development to Term of Fused and Partially Enucleated Mouse Two-Cell Embryos

Contents: After the blastomeres of mouse two-cell embryos were fused by electric pulses within the zona pellucida, one nucleus of the fusion products was removed following the enucleation method described by McGrath and Solter (1983a, 1983b). 38% (196/520) of the fused embryos were enucleated successfully when Whitten's medium was used as enucleation medium and 434 of 1007 (43%) of the embryos when M 2 was used. 30% (47/159) of the partially enucleated embryos cleaved during their in vitro cultivation but only 3% developed to the morula or blasto cyst stage. 20 young (17%) were born after the transfer of 120 fused and partially enucleated two-cell embryos to 8 pseudopregnant recipients. It was shown that fused and partially enucleated two-cell embryos are able to survive and are able to reach adulthood, although their developmental rate is significantly lower than that of control embryos .
Here we report experiments for the examination of the developmental capacity of two-cell mouse embryos partially enucleated after fusion .     

Effect of activation treatments of recipient oocytes on subsequent development of bovine nuclear transfer embryos

Effects of recipient oocyte activation methods on the development of nuclear transfer (NT) embryos were investigated. In Exp. 1, cell-cycle phase of serum-starved bovine cumulus cells was examined by flow cytometry. Majority (95.5%) of medium-sized (16-20 microm) cells that made up 56% of total cells was at the G0/G1 phase. NT embryos were constructed by electric fusion with the medium-sized serum-starved cumulus cells and bovine oocytes of 3 different preparations: enucleated oocytes treated with calcium ionophore A 23187 for 5 min and cycloheximide for 5 hr (A 23187/CHX), those treated with ethanol for 7 min and cycloheximide for 2 hr(ethanol/CHX) and those without treatment. In Exp. 2 and 3, developmental competence of NT embryos constructed with A 23187/CHX- and ethanol/CHX-treated oocytes was compared to that of NT embryos constructed with non-treated oocytes, respectively. Further, nuclear behavior in 3 different NT embryos was examined in Exp. 4. Within 1 hr after fusion, majority of the NT embryos constructed with non-treated oocytes showed condensed chromosome. Three hours after fusion, about 50% of NT embryos constructed with non-treated or ethanol/CHX-treated oocytes showed a single pronucleus-like structure. NT embryos constructed with ethanol/CHX-treated oocytes showed similar rates of fusion, cleavage and blastocyst formation to those of the non-treated oocytes. In contrast, NT embryos constructed with A 23187/CHX-treated oocytes did not show any pronucleus-like structure and showed lower cleavage rate and no development to blastocysts. The results indicate that ethanol/CHX-treated oocytes could support development of somatic cell NT embryos to the blastocyst stage at a similar rate to that of non-treated oocytes.     

Nuclear transfer using a bovine mammary epithelial cell line (BMEC)

The developmental potential of nuclei from a bovine mammary epithelial cell line (BMEC) in nuclear transfer was investigated. For nuclear transfer donors, BMEC cells (passage 15) were cultured for 4–5 days after seeding at cell densities of 1.0 × 10⁵ cells/cm² (high‐density group) or 0.8 × 10⁴ cells/cm² (low‐density group). First, the effective electric stimulation for fusion of enucleated oocytes with BMEC cells was examined. Fusion rates reached maximum with two DC pulses of 30 V/150 µm for 20 µs in the high‐density group and with two DC pulses of 25 V/150 µm for 10 µs in the low‐density group. The fusion rate (37.5%) in the high‐density group was significantly (P < 0.005) lower than in the low‐density group (71.4%). Second, the in vitro developmental potential of nuclear transfer embryos derived from BMEC cells was examined. In the high‐density and low‐density groups, 18.8% and 24.1% of fused oocytes, respectively, developed to blastocyst stage. The results of this study indicate that nuclei from BMEC cells support the development of nuclear transfer embryos to the blastocyst stage and that the efficiency of oocyte–cell fusion is affected by the culture conditions of the donor BEMC cells before nuclear transfer.     

Offspring from heterotopic transplantation of newborn mice ovaries

This study is aimed at investigating the developmental potential of the primordial follicles from ovaries of newborn mice after cryopreservation in liquid nitrogen for long-term storage, thawing, and heterografting into the kidney capsules of ovariectomized adult female mice. After stimulation of recipient mice with pregnant mare serum gonadotropin on day-19 after heterografting, the primordial follicles of the transplanted ovaries could develop into antral follicles. When the oocyte-cumulus cell complexes were retrieved from these antral follicles, they could mature after in vitro culture for 16–17 h. After in vitro fertilization, the rates of embryos derived from these oocytes that developed into the two-cell stage and the blastocyst stage after 16–17 h and after day-4, respectively, in the culture medium were 55.40% (55/107) and 9.09% (5/55), respectively. In the ovarian transplantation groups, no pups were derived from the 410 embryos that were transferred into 10 pseudopregnant mothers at the pronuclear stage. However, of the 10 surrogate mothers in whom 570 embryos were transferred at the two-cell stage, four achieved pregnancy and gave birth to 20 live offspring. These results demonstrated that primordial follicles in newborn mice ovaries were capable of sustaining their developmental potential after freezing and thawing. Once transplanted into the kidney capsules of ovariectomized adult female mice, these primordial follicles could develop and respond to gonadotropin stimulation and reach the antral stage; further, live offspring could be derived from these follicles.     

Effect of transfection and passage number of ear fibroblasts on in vitro development of bovine transgenic nuclear transfer embryos

The objective of this study was to determine if the transfection of human prourokinase (ProU) gene and passage number of transfected ear fibroblasts affected in vitro development of bovine transgenic nuclear transfer (NT) embryos. An expression plasmid for human ProU was constructed by inserting a bovine beta-casein promoter, a green fluorescent protein (GFP) marker and human ProU gene into a pcDNA3 plasmid and transfected into bovine ear fibroblasts using a lipid mediated method. Abattoir derived oocytes were enucleated at 18-20 hr post maturation and a single donor cell was transferred into the perivitelline space of a recipient oocyte. After fusion and activation, the couplets were cultured in modified synthetic oviductal fluid (mSOF) medium for 168 hr. In Experiment 1, significantly lower rate in blastocysts formation (10.3%) was observed in transfected donor cells at early passage than that in nontransfected counterparts (22.1%, P<0.05). In Experiment 2, development to blastocysts and GFP expression in blastocysts were not significantly different between early (3-7) and late (8-12) passage donor cells (10.3 vs. 11.3% and 54.5 vs. 41.7%, respectively). This study indicates that in vitro development of bovine transgenic NT embryos is negatively influenced by transfection of human ProU gene into donor fibroblasts. However, passage number of transfected ear fibroblasts does not affect in vitro development of bovine transgenic NT embryos.     

供体细胞培养处理方法对水牛核移植效果的影响

以经常规培养法 (DMEM 10 % FCS)、血清饥饿法 (DMEM 0 .5 % FCS培养 5～ 10 d)和 Apidicolin- APD结合血清饥饿法 (0 .1mg/ L APD培养 2 4 h,DMEM 0 .5 % FCS培养 1～ 18d)培养处理的水牛卵巢颗粒细胞和水牛成体耳部成纤维细胞作供核 ,分别采取带下注核法和胞质内注核法进行核移植。同一供核细胞各处理组间的核移植胚融合率 (以颗粒细胞作供核 )以及重组胚的囊胚发育率无明显差异 (P>0 .0 5 ) ,但经 APD 0 .5 % FCS培养处理供体细胞核移植后的分裂率显著高于其他组 (P<0 .0 5 )。用 7%乙醇处理的成体耳部成纤维细胞进行核移植 ,其重组胚的分裂率和囊胚发育率与对照组 (不含乙醇 )均无明显差异 (P>0 .0 5 )。结果表明 ,(1)血清饥饿处理水牛供体细胞对其核移植效果没有影响 ;(2 ) DNA合成抑制剂 APD结合血清饥饿培养处理水牛颗粒细胞和成体耳部成纤维细胞 ,可提高其核移植效果 ;(3)乙醇预激活处理水牛成体耳部成纤维细胞 ,对其核移植效果没有影响     

牛胚胎原代和继代细胞核移植结果比较

比较了原代和继代核移植的操作各环节以及核移植胚胎在体外发育能力上的差异。通过显微操作将体外受精发育而来的８～３２细胞期胚胎的单个卵裂球注入激活的去核卵母细胞的卵周隙内,并用８０Ｖ/mm、４０us２次电脉冲诱导卵裂球与去核卵母细胞融合,借此进行牛胚胎的原代核移 体外发育来的８～３２细胞期的原代核移植胚胎作为供体,用原代核移植相同的方法进行牛胚胎的继代移植。原代核移植的存活率和融合率（８７．３％和６８．５     

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.     

Production of blastocysts after intergeneric nuclear transfer of goral (Naemorhedus goral) somatic cells into bovine oocytes

Interspecies cloning may be a useful method to help conserve endangered species and to study nuclear-cytoplasm interaction. The present study investigated in vitro development of goral (Naemorhedus goral) intergeneric nuclear transfer embryos produced by fusing goral fibroblasts with enucleated metaphase II (MII) bovine oocytes. After two to five passages, serum-starved or non-starved goral skin fibroblast cells were transferred into enucleated MII bovine oocytes. Couplets were electrically fused and chemically activated, and then cultured in either modified synthetic oviduct fluid (mSOF) or tissue culture medium-199 (TCM-199) supplemented with 10% FBS. Serum starvation of donor cells did not affect the fusion rate and or development to of cells to the two-cell stage, to more than 9-cells, or to morulae, regardless of culture medium. Three blastocysts from 202 fused embryos were obtained when embryos reconstructed with non- serum- starved donor cells were cultured in mSOF. However, no blastocysts were obtained when the embryos reconstructed with serum-starved donor cells were cultured in mSOF. The total cell number of goral intergeneric embryos averaged 130.3 (range 105-180). In conclusion, this study demonstrated that bovine oocytes can support blastocyst development after intergeneric SCNT with goral fibroblasts.     

Early morphological nuclear events and developmental capacity of embryos reconstructed with fetal fibroblasts at the M or G1 phase after intracytoplasmic nuclear injection in cattle

We examined morphological nuclear events during the first cell cycle of bovine embryos reconstructed with somatic cells at the M and G1 phases (M-embryos and G1-embryos, respectively) by intracytoplasmic nuclear injection, and the subsequent development of these embryos in vitro and in vivo. Bovine fetal fibroblasts (BFFs) at the M or G1 phase were directly injected into enucleated oocytes, and activated immediately. Only half (48%) of the M-embryos extruded polar body-like cells (PBCs) at 6 h post injection (hpi). At 15 to 19 hpi, 54% of the M-embryos formed a single pronucleus-like nucleus. Nuclear envelope-breakdown, premature chromosome condensation and single nuclear clusters were observed in most of the G1-embryos (88%) within 30 min following the nuclear injection. At 15 to 19 hpi, single pronucleus-like nuclei were formed in most G1-embryos (83%). The potential of G1-embryos to develop to blastocysts was significantly higher than that of M-embryos (31% vs 16%). Three of five recipients following transfer of blastocysts derived from the G1-embryos became pregnant on Day 30, and one recipient delivered a calf. Our results indicate that almost a half of the M-embryos failed to extrude PBCs and that the G1-embryos developed to blastocysts at a higher rate than the M-embryos.     

RNA Synthesis in Porcine Blastomere Nuclei Introduced into in Vitro Matured Ooplasm

The objective was to investigate the RNA synthesis in porcine blastomere nuclei upon transplantation into in vitro matured enucleated oocytes. Nuclei from 2- to 8-cell porcine embryos were introduced into the ooplasm of in vitro matured and enucleated porcine oocytes by electrofusion, and the resultant reconstructed embryos were cultured in vitro. Before fusion or at different intervals after this event embryos were incubated with [³H]-uridine, fixed, and histologically processed for autoradiography in order to detect RNA synthesis. About two thirds of the embryos were considered to depict normal development. All blastomeres displayed pronounced RNA synthesis before fusion, at 3 and 9 h after fusion the synthesis decreased or ceased, and at 24-49 h some embryos resumed synthesis at the 1- to 2-cell stage.     

Aging of recipient oocytes reduces the development of cloned embryos receiving cumulus cells

Parthenogenetic activation is an important factor in successful production of cloned mammals. Because it has been reported that aged oocytes are more sensitive to parthenogenetic activation than young oocytes, the present study examined the effects of oocyte aging on the in vitro and in vivo developmental potential of nuclear-transferred (NT) mouse oocytes receiving cumulus cells. The potentials of young NT oocytes (14 h after human chorionic gonadotrophin [hCG] injection) to develop into blastocysts was, however, significantly higher than that of aged oocytes (20 h after hCG injection; 16% vs 6%). When the nuclei of NT oocytes at the 2-cell stage were fused with enucleated fertilized 2-cell embryos, the potentials of the serial NT embryos to develop into blastocysts were no different for both young and aged oocytes (74% vs 74%). Live young, however, were obtained only after transfer of serial NT blastocysts developed from young NT oocytes (2%). In contrast to a report using embryonic nuclei as the nuclear donors, the results of the present study indicate that young oocytes are superior to aged oocytes as a source of recipient cytoplasm for mouse somatic cell cloning.