Electroactivation of rabbit oocytes in an hypotonic pulsing medium and parthenogenetic in vitro development without cytochalasin B-diploidizing pretreatment

We investigated the electroactivation frequencies, type of activation and in vitro development of rabbit oocytes. In Experiment 1, activation (8 pulses, 12 min apart, 60 microsec, 0.6 kVcm(-1)) was performed by altering osmolarity (190 vs. 320 mOsm kg(-1)) and Ca++ concentration (10, 60 or 100 microM) in mannitol pulsing media. More oocytes were activated in hypotonic pulsing medium, regardless of Ca++ concentration (96 to 100%). Both haploid and diploid parthenogenetic embryos developed to compacted morulae (57 to 92% and 63 to 100%, respectively) regardless of the activation treatment; however, the blastocyst rates were more variable (0 to 74% and 0 to 73%, respectively). In Experiment 2, the effects of pulse duration (30 or 60 microsec) and number of applied pulses (4, 8 or 12) under hypotonic conditions were studied. Activation frequencies were the lowest after four 30 microsec-pulses (58 vs. 88 to 100%, respectively). A lower haploid frequency was obtained when more than four 30 or 60 microsec-pulses were applied (from 67 to 25% and 83 to 0%, respectively). Increasing the number of 60-microsec pulses improved the compacted morula rate of haploid and diploid oocytes (47 to 83% and 57 to 96%, respectively). Overall, haploid development to morulae and blastocysts was lower than diploid development to these stages (69 and 25% vs. 74 and 44%, respectively).     

Effects of microinjection-related treatments on the subsequent development of in vitro-produced bovine oocytes

The effects of gene injection-related handling on the subsequent development of in vitro-produced bovine oocytes were studied. In Experiment 1, centrifuged oocytes were stored in an injection chamber for 30 min on a warm (+39 degrees C) stage at 18, 22, 26 or 30 h post insemination. In Experiment 2, centrifuged oocytes were stored for 60, 90 or 120 min on a warm stage, while in Experiment 3 they were stored for 60 min on a warm or cool (+22 degrees C) stage. In Experiment 4, the centrifuged zygotes were injected with buffer either into the pronucleus or cytoplasm. Development to morulae and blastocysts at Day 7 was monitored. The results indicate that handling of oocytes either very early (18 h post insemination) or very late (30 h post insemination) significantly reduced development (P<0.05). The duration of the storage or the temperature during storage did not have any significant effect on the development of the embryos. Development (counted from the cleaved ova), however, was significantly lower (P<0.01) in pronucleus-injected than in cytoplasm-injected or control embryos (27.7, 45.5 and 44.0% morulae and blastocysts, respectively). The conclusion of this study is that the main reason for decreased development of pronucleus-injected, in vitro-produced bovine zygotes is the pronucleus-injection itself rather than injection-related handling or the overall damage caused by zygote piercing.     

Pregnancies and live birth from in vitro fertilization of calf oocytes collected by laparoscopic follicular aspiration

Oocytes were recovered by laparoscopic aspiration from 3- to 8-week-old calves treated with follicle-stimulating hormone (FSH) followed by human chorionic gonadotropin (hCG) to induce follicular growth and oocyte maturation in vivo. Most of the recovered oocytes either had resumed meiotic maturation at the time of aspiration or were competent to undergo maturation during subsequent culture in vitro. Oocytes matured in vivo following FSH and hCG treatment underwent in vitro fertilization (70%) at rates not significantly different from those of control oocytes recovered from adult cow ovaries at abattoirs and matured in vitro (75%). Calf oocytes that were immature at aspiration exhibited lower fertilization rates after in vitro maturation (36%) but their rate of development to morulae and blastocysts did not differ from that of mature oocytes at aspiration. A total of 91% of the zygotes produced from calf oocytes developed to morula and 27% to blastocyst stages during 6 days of culture. The proportion developing to morulae was significantly higher (P<0.05) than that observed for zygotes resulting from in vitro maturation and fertilization of oocytes recovered from cow ovaries obtained at an abattoir and processed concomitantly (59% to morulae and 18% to blastocysts). Morulae or blastocysts developed from oocytes from 5 to 6-week-old calves, when transferred to synchronized recipient heifers, resulted in 2 confirmed pregnancies, one of which produced a single full-term live calf. The ability to produce embryos from oocytes recovered from newborn or prepubertal calves offers the potential for markedly reducing the generation interval in cattle, thereby substantially accelerating the rate of genetic gain that can be achieved through embryo transfer.     

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.     

Specific activation requirements of in vitro-matured sheep oocytes following vitrification-warming

Oocyte vitrification and assisted oocyte activation have increasingly important roles in assisted reproductive technology. Yet, an important area of concern with matured oocyte cryobiology is that elements of oocytes intimately involved in metaphase‐II arrest may be modified by cryopreservation. By comparing different cellular characteristics of unvitrified, vitrified‐warmed, and unvitrified‐activated oocytes, the present study investigated how vitrification‐warming process may affect developmental competence of in vitro‐matured sheep oocytes following parthenogenetic activation. Structural, ultrastructural, and molecular analyses indicated that the characteristics of vitrified‐warmed oocytes vastly differed from fresh oocytes, instead resembling unvitrified‐activated oocytes. For unvitrified oocytes, the highest blastocyst yield (41.8 ± 0.6%) was achieved using the maximum ionomycin concentration (5 µM), and importantly, the duration of ionomycin treatment was not of utmost importance at this concentration. In contrast, the maximum blastocyst yield of vitrified‐warmed oocytes (28.4 ± 1.4%) was achieved with a minimal duration of ionomycin treatment (1 min), and further extending the duration dramatically reduced developmental potential of vitrified‐warmed oocytes. These results suggested that vitrified‐warmed oocytes may need an activation protocol different from unvitrified oocytes. In this respect, unvitrified oocytes were more sensitive to the concentration rather than the duration of ionomycin treatment when compared with vitrified oocytes, which were sensitive to the treatment duration. These results may provide a platform to improve the potential applications of vitrified oocytes in medicine and agriculture. Mol. Reprod. Dev. 79:434–444, 2012. © Wiley Periodicals, Inc.     

Developmental potential of selectively enucleated immature mouse oocytes upon nuclear transfer

Selective enucleation (SE) was applied to germinal vesicle (GV) oocytes by removing the chromatin attached to nuclear envelope, and leaving the liquid contents of GV in the cytoplast. However, after reconstruction with 1/8 blastomeres or fetal fibroblasts (FFs) neither the maturation efficiency nor the frequency of normal (asymmetric) division was improved as compared with completely enucleated (CE) oocytes. Chromosomal aberrations introduced with somatic nuclei were not rescued in SE oocytes either. On the other hand, timing of maturation division in SE GV oocytes, but not in CE GV oocytes, reconstructed with GV-karyoplasts was like in the control. After maturation and fertilization in vitro, SE oocytes reconstructed with 1/8 blastomeres developed nucleolated donor pronuclei, contrary to CE oocytes. The latter could be rescued with nucleoli-containing nucleus, but not anucleolate nucleus, from a 1/2 blastomere. SE oocytes reconstructed with FFs contained nucleolated pronuclei upon activation, unlike CE GV oocytes. These experiments show that the ooplast nucleolar material and/or embryonic nucleolus are indispensable for pronuclei formation. SE oocytes reconstructed with 1/8 blastomeres or FFs failed to cleave after activation or in vitro fertilization. Control GV oocytes enucleolated before fertilization seized cleavage at the 6-cell stage, as oppose to intact GV oocytes, which in 50.9% yielded morulae/blastocysts. These results suggest that ooplast nucleolar material is essential for the cleavage divisions. Activation of cumulus-enclosed SE GV oocytes matured in hormone-supplemented medium and fused to 1/2 blastomere-karyoplasts, yielded morulae, and blastocysts in 45.5% and 23.4% of reconstructed oocytes, respectively.     

精子和卵母细胞质量控制对山羊卵胞质内精子注射（ICSI）受精的影响

ABSTRACT Effects of sperm and oocyte quality control on the efficiency of ICSI of in vitro matured goat oocytes were studied in this paper. The results showed that when injected intracytoplasmically, spermatozoa from caput, corpus and cauda epididymidis resulted in similar rates of fertilization, cleavage and morulae/blastocysts, but when injected subzonally, spermatozoa from caput and corpus gave rise to significantly lower rates of fertilization and embryo development than spermatozoa from the cauda epididymidis and ejaculates. When dead spermatozoa collected from semen that had been preserved in different ways were used for ICSI, those dead from liquid storage at 20 degrees C for 24 h gave rise to the best, but those dead from liquid storage at 5 degrees C for 15 days produced the poorest fertilization and embryo development. When spermatozoa were treated with different concentrations of Triton X-100 before ICSI, significantly higher rates of fertilization, cleavage and morulae/blastocysts were obtained with 0.0005% Triton X-100 than with other concentrations and manual immobilization. Oocytes were classified as of good and poor qualities by treatment in hypertonic sucrose solution, and rates of fertilization and embryo development were significantly higher in the good than in the poor oocytes after ICSI. Post-injection activation of oocytes with either A23187 or ionomycin/6-DMAP significantly increased the rates of fertilization, cleavage and morulae/blastocysts after ICSI. It is therefore concluded that (i) epididymal maturation mainly endowed spermatozoa with the capacity to fuse with the egg plasma membrane; (ii) different methods of semen storage caused different impairment of sperm fertilizing capacity; (iii) pre-injection treatment of spermatozoa with proper concentrations of Triton X-100 might be used to replace manual immobilization for ICSI; (iv) oocyte quality was a major factor influencing the efficiency of ICSI; (v) post-injection activation treatment of oocytes improved fertilization and embryo development after ICSI.     

Factors affecting the efficiency and reversibility of roscovitine (ROS) block on the meiotic resumption of goat oocytes

Goat oocytes from 2 to 4 and 0.8 to 1.2-mm follicles were freed (DOs) or not (COCs) of cumulus cells and cultured for different times in an inhibition medium supplemented with different concentrations of roscovitine (ROS). At the end of culture, oocytes were either cultured in a maturation medium for 24 hr and activated chemically for embryo development, or examined for GV chromatin configurations. Nuclear status was checked at different time points during maturation culture. Although both 200 and 250 microM ROS maintained 78-85% of oocytes at the GV stage for 24 hr, only oocytes blocked with 200 microM ROS developed to MII stage at a high rate after maturation culture. While few oocytes blocked with 200 microM ROS for 24 hr developed into morulae and none into blastocysts after activation, percentages of oocytes developing into morulae and blastocysts increased to the level of the control oocytes when the block time was reduced to 8 hr. While the GV and pMI stages were shortened with MI, and A/TI unaffected after oocytes were blocked for 8 hr, all the stages but A/TI were shortened after 24 hr of block. The sizes of nucleoli diminished with time and the GV chromatin configuration changed during ROS block. Significantly more DOs than COCs were blocked with 200 microM ROS, but none of the blocked DOs matured after drug withdrawal. However, maturation of the DOs improved significantly when ROS concentration was reduced to 150 microM or DOs were co-inhibited with COCs. The GV intact percentages of DOs did not differ after ROS inhibition with or without eCG, but those of COCs decreased significantly after ROS inhibited in the presence of eCG. When MII-incompetent oocytes from 0.8 to 1.2-mm follicles were inhibited with ROS for 8 and 24 hr prior to maturation culture, nuclear maturation improved significantly, activation rates were as high as that of the control oocytes, and some of the activated developed to 4- or 8-cell stages. It is concluded that (i) the efficiency and reversibility of ROS block was both drug concentration and exposure-time dependent; (ii) cumulus cells alleviated the toxicity of ROS on goat oocytes; (iii) eCG released goat oocytes from ROS block through the mediation of cumulus cells; (iv) ROS block quickened the nuclear maturation of goat oocytes and improved the developmental competence of meiosis-incompetent oocytes, possibly due to a sustained nuclear activity during inhibition culture; (v) oocyte nuclear maturation and activation did not depend upon cumulus expansion, but the embryo development occurred in association with cumulus expansion.     

Effect of linoleic acid-albumin in the culture medium on freezing sensitivity of in vitro-produced bovine morulae

The objective of this study was to improve the survival of in vitro-produced bovine morulae after cry opreservation. In Experiment 1, presumptive zygotes at 20 h post-insemination (hpi) were cultured in a mixture of modified synthetic oviduct fluid (m-SOF)/0.3% BSA and m-SOF/0.3% linoleic acid-albumin from bovine serum (LAA) at 39.0 degrees C in 5% O2, 5% CO2 and 90% N2 (final LAA concentration: 0, 0.01, 0.03, 0.1 or 0.3%). Morulae harvested at 138 hpi were frozen and thawed in m-PBS/0.3% BSA containing 1.5 M ethylene glycol and were cultured for 96 h in m-SOF/10% FBS to assess further development. The post-thaw survival of morulae derived from culture in 0.1% LAA (60%, P < 0.01) and in 0.03% LAA (55%, P < 0.05) was higher than that in 0% LAA (32%). Lowering the LAA concentration below 0.1% resulted in similar rates of morula development as in m-SOF/0.3% BSA. In Experiment 2, zygotes were cultured in m-SOF/0.1% LAA from 20 to 90 hpi and/or from 90 to 138 hpi. Post-thaw survival of morulae that had been exposed to LAA from 20 to 90 hpi (39%) or from 90 to 138 hpi (56%) was higher than that of morulae cultured without LAA from 20 to 138 hpi (12%, P < 0.02). These survival rates were lower than that of morulae cultured with LAA over a period of 20 to 138 hpi (76%, P < 0.001). The results indicate that cell-free culture of IVM/IVF bovine zygotes in m-SOF supplemented with LAA produces morula-stage embryos relatively tolerant to the process of freezing and thawing.     

Effects of duration, concentration, and timing of ionomycin and 6-dimethylaminopurine (6-DMAP) treatment on activation of goat oocytes

The protocol of ionomycin followed by 6-dimethylaminopurine (6-DMAP) is commonly used for activation of oocytes and reconstituted embryos. Since numerous abnormalities and impaired development were observed when oocytes were activated with 6-DMAP, this protocol needs optimization. Effects of concentration and treatment duration of both drugs on activation and development of goat oocytes were examined in this study. The best oocyte activation (87-95%), assessed by pronuclear formation, was obtained when oocytes matured in vitro for 27 hr were treated with 0.625-20 microM ionomycin for 1 min before 6-hr incubation in 2 mM 6-DMAP. Progressional reduction of time for 6-DMAP-exposure showed that the duration of 6-DMAP treatment can be reduced to 1 hr from the second up to the fourth hour after ionomycin, to produce activation rates greater than 85%. Activation rates of oocytes in vitro matured for 27, 30, and 33 hr were higher (P < 0.05) than that of oocytes matured for 24 hr when treated with ionomycin plus 1-hr (the third hour) 6-DMAP, but a 4-hr incubation in 6-DMAP enhanced activation of the 24-hr oocytes. Goat activated oocytes began pronuclear formation at 3 hr and completed it by 5-hr post ionomycin. An extended incubation in 6-DMAP (a) impaired the development of goat parthenotes, (b) quickened both the release from metaphase arrest and the pronuclear formation, and (c) inhibited the chromosome movement at anaphase II (A-II) and telophase II (T-II), leading to the formation of one pronucleus without extrusion of PB2. In conclusion, duration, concentration, and timing of ionomycin and 6-DMAP treatment had marked effects on goat oocyte activation, and to obtain better activation and development, goat oocytes matured in vitro for 27 hr should be activated by 1 min exposure to 2.5 microM ionomycin followed by 2 mM 6-DMAP treatment for the third hour.     

Cloned mice derived from embryonic stem cell karyoplasts and activated cytoplasts prepared by induced enucleation

Our objective was to induce enucleation (IE) of activated mouse oocytes to yield cytoplasts capable of supporting development following nuclear transfer. Fluorescence microscopy for microtubules, microfilaments, and DNA was used to evaluate meiotic resumption after ethanol activation and the effect of subsequent transient treatments with 0.4 micro g/ml of demecolcine. Using oocytes from B6D2F1 (C57BL/6 x DBA/2) donors, the success of IE of chromatin into polar bodies (PBs) was dependent on the duration of demecolcine treatment and the time that such treatment was initiated after activation. Similarly, variations in demecolcine treatment altered the proportions of oocytes exhibiting a reversible compartmentalization of chromatin into PBs. Treatment for 15 min begun immediately after activation yielded an optimized IE rate of 21% (n = 80) when oocytes were evaluated after overnight recovery in culture. With this protocol, 30-50% of oocytes were routinely scored as compartmentalized when assessed 90 min postactivation. No oocytes could be scored as such following overnight recovery, with 66% of treated oocytes cleaving to the 2-cell stage (n = 80). Activated cytoplasts were prepared by mechanical removal of PBs from oocytes whose chromatin had undergone IE or compartmentalization. These cytoplasts were compared with mechanically enucleated, metaphase (M) II cytoplasts whose activation was delayed in nuclear transfer experiments using HM-1 embryonic stem cells. Using oocytes from either B6D2F1 or B6CBAF1 (C57BL/6 x CBA) donors, the in vitro development of cloned embryos using activated cytoplasts was consistently inferior to that observed using MII cytoplasts. Live offspring were derived from both oocyte strains using the latter, whereas a single living mouse was cloned from activated B6CBAF1 cytoplasts.     

影响山羊体外受精的因素

以屠宰山羊卵母细胞为材料研究了公羊个体、附睾不同部位精子、成熟培养和受精时卵丘存在与否、卵丘扩展程度及卵龄对山羊体外受精的影响。结果表明 :1)不同公羊精液在受精、卵裂和桑椹 /囊胚率上都有显著差异 ;2 )附睾尾精子和鲜精的受精、卵裂和桑椹 /囊胚率无显著差异 ,但显著高于附睾体和附睾头精子 ;3)成熟培养 2 4和 2 7h卵母细胞的的桑椹胚 /囊胚率显著高于培养 2 1和 30h卵母细胞 ;4 )卵丘扩展 3和 4级卵母细胞受精和桑椹胚 /囊胚率显著高于扩展 0和 1级卵母细胞 ;5 )成熟培养前机械去卵丘严重影响卵母细胞体外受精和桑椹胚 /囊胚率 ;6 )受精前完全去掉卵丘显著影响桑椹胚 /囊胚率     

乙醇及6-DMAP对小鼠卵母细胞孤雌激活的研究

实验研究了乙醇、6-DMAP以及二者联合使用时对注射hCG后18小时采集的小鼠卵母细胞孤雌激活的效果。结果证明:(1)用5％的乙醇分别作用5和10分钟及10％的乙醇分别作用5和10分钟,小鼠卵母细胞的孤雌激活率分别为41.3％、63.7％、57.9％和85.6％。说明在一定范围内,随着乙醇浓度和作用时间的增加,小鼠卵母细胞孤雌激活率有上升的趋势。(2)用2mM 6-DMAP作用2、4和6小时,小鼠卵母细胞的孤雌激活率分别为 12.0％、25.0％和40.0％。说明随着6-DMAP作用时间的增加,小鼠卵母细胞的孤雌激活率有所升高。(3)用5％乙醇作用5分钟,再用含有2mmol/L 6-DMAP的培养液培养6小时,小鼠卵母细胞的孤雌激活率可达65.5％,明显高于单独使用5％乙醇作用5分钟或单独使用2mmol/L 6-DMAP作用6小时卵母细胞的孤雌激活率。(4)用10％的乙醇作用5分钟,再用含有2mmol/L 6-DMAP的培养液培养6小时,小鼠卵母细胞的孤雌激活率达到100％,远远高于单独使用10％乙醇作用5分钟或单独使用2mmol/L 6-DMAP作用6小时卵母细胞的孤雌激活率。(5)在单独使用乙醇刺激时,激活卵母细胞中直接卵裂(2-细胞)的比率随乙醇作用强度的增加而增加,最高达62.5％;但6-DMAP则抑制激活卵母细胞的直接卵裂,增加二原核卵的比例。     

Synergistic effect of ethanol and cycloheximide on activation of freshly matured bovine oocytes

Bovine follicular oocytes were collected from ovarian antral follicles (2 to 7 mm in diameter) from slaughtered cattle. They were matured in vitro (IVM) for 23 to 24 h and then activated. In Experiment 1, 4 concentrations of ethanol were compared. The activation rates of oocytes were 4, 12, 36 and 27%, respectively, following exposure for 7 min to 0, 5, 7 and 10% ethanol. In Experiment 2, 7% ethanol was tested with exposure times of 0, 5, 7.5 and 10 min, and 6, 32, 27 and 33% of the oocytes were activated, respectively. In Experiment 3 the synergistic effect of ethanol and electric pulse was compared within 4 treatments: A) 7% ethanol alone, B) electric pulse alone, C) ethanol first and then electric pulse treatment, and D) electric pulse first followed by ethanol exposure. Of the oocytes activated, 37, 31, 28 and 51%, respectively, were from Treatments A through D. In Experiments 4 and 5 the possible synergistic effect of ethanol and a protein synthesis inhibitor, cycloheximide, was studied within 4 treatments: A) parthenogenetic control with no activation treatment, B) ethanol alone, C) cycloheximide alone, and D) ethanol treatment followed by cycloheximide. The oocyte activation rates in Experiment 4 in Treatments A through D, respectively, were 9, 44, 43 and 84%. Corresponding values for development of oocytes to the 2 to 8-cell stage after culture for 3 d (Experiment 5) were 9, 20, 14 and 45%, respectively (P<0.05). In conclusion, exposure to 7% ethanol for 5 min followed by incubation with cycloheximide was the best activation treatment for bovine IVM oocytes.     

Duration of in vitro maturation of recipient oocytes affects blastocyst development of cloned porcine embryos

This study investigated the effects of different incubation periods for oocyte maturation and contact inhibition of donor cells as well as different osmolarities for storage of recipient oocytes on fusion rates, cleavage rates, and blastocyst yields of porcine somatic nuclear transfer (SCNT) derived embryos. In addition, the in vivo developmental potential of cloned embryos derived from the most promising SCNT protocol was tested by transfer to recipient gilts. Storage of in vitro-matured oocytes for 7.5 h in calcium-free TL-HEPES medium at 295 or 320 mOsmol prior to activation yielded significantly (p < 0.05) higher parthenogenetic blastocyst rates compared to storage in TL-HEPES with an osmolarity of 270 mOsmol (24.4 +/- 3.0% and 26.2 +/- 4.3% vs. 18.3 +/- 6.4%, respectively, mean +/- SD) and improved the visibility of the polar body. Electrical fusion of fibroblasts to enucleated oocytes matured for 38, 40, or 42 h resulted in similar fusion and cleavage rates (74.8-84.4%). However, nuclear transfer with oocytes matured for 40 h in vitro yielded significantly higher (p < 0.05) development to the blastocyst stage after 7 days of culture (14.7 +/- 1.7%) than with oocytes matured for 38 h (9.5 +/- 2.1%) or 42 h (5.1 +/- 2.1%). Contact inhibition for 24, 48, or 72 h significantly (p < 0.05) increased the proportion of cells at G0/G1 compared with cycling fibroblasts. However, duration of contact inhibition of the donor cells for either 24, 48, or 72 h had no effect on blastocyst rates of SCNT embryos. Four gilts received an average of 150 SCNT embryos (range 138-161) reconstructed with oocytes matured for 40 h; two of these became pregnant; one of them went to term and farrowed four piglets on day 115 of pregnancy. Microsatellite analysis confirmed that the clones were genetically identical with the donor cells. These results show that changes of the in vitro maturation protocol may affect in vitro development of reconstructed porcine embryos, while duration of the contact inhibition period plays a minor role for the success of porcine SCNT. The effects on in vivo development are yet to be determined.     

The cell agglutination agent, phytohemagglutinin-L, improves the efficiency of somatic nuclear transfer cloning in cattle (Bos taurus)

One of the several factors that contribute to the low efficiency of mammalian somatic cloning is poor fusion between the small somatic donor cell and the large recipient oocyte. This study was designed to test phytohemagglutinin (PHA) agglutination activity on fusion rate, and subsequent developmental potential of cloned bovine embryos. The toxicity of PHA was established by examining its effects on the development of parthenogenetic bovine oocytes treated with different doses (Experiment 1), and for different durations (Experiment 2). The effective dose and duration of PHA treatment (150 microg/mL, 20 min incubation) was selected and used to compare membrane fusion efficiency and embryo development following somatic cell nuclear transfer (Experiment 3). Cloning with somatic donor fibroblasts versus cumulus cells was also compared, both with and without PHA treatment (150 microg/mL, 20 min). Fusion rate of nuclear donor fibroblasts, after phytohemagglutinin treatment, was increased from 33 to 61% (P < 0.05), and from 59 to 88% (P < 0.05) with cumulus cell nuclear donors. The nuclear transfer (NT) efficiency per oocyte used was improved following PHA treatment, for both fibroblast (13% versus 22%) as well as cumulus cells (17% versus 34%; P < 0.05). The cloned embryos, both with and without PHA treatment, were subjected to vitrification and embryo transfer testing, and resulted in similar survival (approximately 90% hatching) and pregnancy rates (17-25%). Three calves were born following vitrification and embryo transfer of these embryos; two from the PHA-treated group, and one from non-PHA control group. We concluded that PHA treatment significantly improved the fusion efficiency of somatic NT in cattle, and therefore, increased the development of cloned blastocysts. Furthermore, within a determined range of dose and duration, PHA had no detrimental effect on embryo survival post-vitrification, nor on pregnancy or calving rates following embryo transfer.     

Intracytoplasmic sperm injection of bovine oocytes with stallion spermatozoa

Five experiments were designed to study the fertilizability and development of bovine oocytes fertilized by intracytoplasmic sperm injection (ICSI) with stallion spermatozoa. Experiment 1 determined the time required for pronuclear formation after ICSI. Equine sperm head decondensation began 3 h after ICSI; 42% were decondensed 6 h after ICSI. Male pronuclei (MPN) began to form 12 h after ICSI. Female pronuclei (FPN), however, formed as early as 6 h after ICSI. In Experiment 2, ionomycin, ionomycin plus 6-dimethylaminopurine (DMAP), and thimerosal were used to activate ICSI ova. None of the ICSI ova cleaved after treatment with thimerosal. Ionomycin activation after 24 and 30 h of oocyte maturation resulted in 29 and 48% cleavage rates, respectively. Ionomycin combined with DMAP resulted in 49, 6 and 3% cleavage, morula and blastocyst rates, respectively, when oocytes were activated after 24 h maturation. In Experiment 3, rates of cleavage (45-60%) and development to morulae (4-13%) and blastocysts (1-5%) stages following ICSI were not different (P>0.05) among three stallions. Treatment of stallion spermatozoa with ionomycin did not affect cleavage or development of ova fertilized by ICSI. The chromosomal constitution of blastocysts derived from ICSI was bovine, not bovine and equine hybrids. In Experiment 4, to make male and FPN form synchronously, colchicine and DMAP were used for 4 h to inhibit oocytes at metaphase during activation; 63% of oocytes were still at metaphase 8h after ICSI when treated with colchicine, and 50% of sperm nuclei were decondensed. About 18 h after ICSI, 21 and 50% male and FPN had formed, respectively, but cleavage rates were low, and only 1% developed to morulae. In Experiment 5, to test if capacitated equine sperm could fuse with the bovine oolemma, capacitated spermatozoa were injected subzonally (SUZI). Of the 182 SUZI oocytes, 49 (27%) contained extruded second polar bodies. After activation of oocytes with second polar bodies, 44, 22 and 15% developed to 2-, 4- and 8-cell stages, respectively, but development stopped at the 8-cell stage. None of the unactivated oocytes cleaved. In conclusion, equine spermatozoa can decondense and form MPN in bovine oocytes after ICSI, but subsequent embryonic development is parthenogenetic with only bovine chromosomes being found.     

Parthenogenetic activation of Chinese hamster oocytes by chemical stimuli and its cytogenetic evaluation

This study was undertaken parthenogenetically to activate Chinese hamster oocytes in vitro by chemical stimuli. Oocytes were exposed to five different chemical agents, ethanol (EtOH), strontium chloride (SrCl₂), cycloheximide (CHX), phorbol ester (PMA), and ionophore A23187 (IA23). No parthenogenetic activation was observed in the oocytes treated with 8% EtOH for 8–11 min, 1.7 mM and 5.0 mM SrCl₂ for 1 hr, 100 μM and 400 μM CHX for 2 hr, and 81 nM and 162 nM PMA for 5 min. In contrast, 89.7% of oocytes parthenogenetically extruded the second polar body in treatment with 3 μM IA23 for 5 min, but only 22.6% of them formed a pronucleus and developed to 2-cell embryos. The remaining ova stopped their cell cycle immediately after completion of the second meiotic division. They had unichromatid chromosomes (monads), which are called MIII chromosomes. Treatment with 5 μM IA23 for 5 min was so deleterious that >90% of oocytes were degenerated. However, oocyte activation was significantly improved when the treatment with 3 μM IA23 for 5 min was followed by treatment with 8% EtOH for 10 min, 100 μM CHX for 2 hr, 81 nM PMA for 5 min or 3 μM IA23 for 5 min: rates of pronuclear formation were 54.4%, 84.3%, 34.2%, and 54.6%, respectively. More than 80% of pronucleate ova successfully developed into 2-cell stage. Additive treatment with 5 mM SrCl₂ for 1 hr had no positive effect on pronuclear formation. Incidences of aneuploidy (4.6%) and structural chromosome aberrations (1.0%) in parthenogenons produced by combined stimuli of IA23 and CHX were not significantly different from those (3.8% and 1.6%, respectively) in female pronuclei of ova fertilized in vitro, showing that combined treatments with IA23 and CHX cause neither nondisjunction at the second meiotic division nor structural aberrations in MII chromosomes. The present technique for parthenogenetic activation of Chinese hamster oocytes may be useful as an assessment system to detect aneugenic and clastogenic effects of mutagens on mammalian oocytes. Mol. Reprod. Dev. 47:72–78, 1997. © 1997 Wiley-Liss, Inc.     

应用氯化锶和放线菌酮对小鼠卵母细胞进行孤雌活化的研究

本试验研究了SrCl_2浓度和作用时间,以及卵龄和蛋白合成抑制剂放线菌酮等对昆明种小鼠卵母细胞活化的影响。研究表明,以含1.6mmol/L SrCl_2的无钙M16液对小鼠卵母细胞活化效果最好(87.0％),显著(P<0.05)优于SrCl_2浓度为1.0、5.0、10.0mmol/L的同种液体。SrCl_2作用时间10分钟显著(P<0.05)好于5、20、30或60分钟。注射hCG后18和20小时卵母细胞的活化率(分别为87.0％和84.6％)显著(P<0.01)高于14或16小时的活化率(分别为4.8％和16.5％)。CHX与SrCl_2联合使用产生显著的协同促进卵母细胞活化作用。     

Parthenogenetic activation of porcine oocytes by electric pulse and/or butyrolactone I treatment

The goal of the present research was to study the parthenogenetic activation of porcine oocytes following treatment with the specific cyclin-dependent kinase inhibitor butyrolactone I (BL I). In Experiment I, the effective dose of BL I was determined by the rates of the subsequent pronuclear formation in oocytes after the activation. In Experiment II, BL I was further tested alone or in combination with an electric pulse. The efficiency of the various treatments to induce activation and parthenogenetic development was examined. In Experiment III parthenogenetic development of activated oocytes in two different media was compared. Cleavage and blastocyst developmental rates were examined, and number of cells in the blastocysts was determined. Our results indicate that, in pig, the optimal activation dose for BL I was 150 microM; a combined electrical and BL I treatment resulted in superior cleavage rates compared to an electric pulse, 150 microM of BL I, or 200 microM of BL I alone (74%, 60%, 41%, and 42%, respectively; P < 0.05); and the rate of parthenogenetic development of activated oocytes to the blastocyst stage in mNCSU37 medium was significantly higher than that in Whitten's medium (59% vs. 5%, P < 0.05) and the resulting day-6 blastocysts had higher cell numbers (35.5 +/- 14.1 vs. 19.5 +/- 2.5). This activation protocol might be useful in porcine nuclear transfer experiments and for the generation of parthenogenetic fetuses.