Porcine oocyte activation: differing roles of calcium and pH

Intracellular pH has recently been shown to increase during parthenogenetic activation of the porcine oocyte. In the following set of experiments, intracellular pH was monitored during activation and pronuclear development was assessed following activation treatments with calcium, in the absence of calcium, and in oocytes loaded with the calcium chelator BAPTA-AM in calcium-free medium. Intracellular pH increase was not different among groups when treating with 7% ethanol or 50 microM calcium ionophore, or during treatment with thimerosal for 12 or 25 min. Activation with thimerosal (200 microM, 12 min) followed by 8 mM dithiothreitol (DTT, 30 min) resulted in a decreased pronuclear development in calcium-free medium with or without BAPTA-AM loaded oocytes as compared to controls. Activation with 50 microM calcium ionophore resulted in pronuclear development that was different between the calcium-free and BAPTA-AM loaded oocytes in calcium-free medium. Similar incidences of pronuclear formation were observed in all ethanol treatment groups. It was concluded that external calcium as well as large changes in intracellular free calcium are not necessary for the increase in intracellular pH, but normal intracellular calcium signaling is critical for normal levels of pronuclear development. Finally, oocytes were measured for intracellular pH changes for 30 min following subzonal sperm injection. Intracellular pH did not increase, although pronuclear formation was observed 6 hr post SUZI. This suggested that major differences were still present between sperm-induced and parthenogenetic activation of the porcine oocyte.     

Activation and early parthenogenesis of bovine oocytes treated with ethanol and strontium

Efficient artificial activation is indispensable for the success of cloning programs. Strontium has been shown to effectively activate mouse oocytes for nuclear transfer procedures, however, there is limited information on its use for bovine oocytes. The present study had as objectives: (1). to assess the ability of strontium to induce activation and parthenogenetic development in bovine oocytes of different maturational ages in comparison with ethanol; and (2). to verify whether the combination of both treatments improves activation and parthenogenetic development rates. Bovine oocytes were in vitro matured for 24, 26, 28, and 30 h, and treated with ethanol (E, 7% for 5 min) or strontium chloride (S, 10mM SrCl(2) for 5h) alone or in combination: ethanol+strontium (ES) and strontium+ethanol (SE). Activated oocytes were cultured in vitro in synthetic oviductal fluid (SOF) medium and assessed for pronuclear formation (15-16 h), cleavage (46-48 h) and development to the blastocyst stage (D7). Treatment with ethanol and strontium promoted similar results regarding pronuclear formation (E, 20-66.7%; S, 26.7-53.3%; P>0.05) and cleavage (E, 12.8-40.6%; S, 16.1-41.9%; P>0.05), regardless of oocyte age. The actions of both strontium and ethanol were influenced by oocyte age: ethanol induced greater activation rates after 28 and 30 h of maturation (48.4 and 66.7% versus 20.0 and 23.3% for 24 and 26 h, respectively; P<0.05) and strontium after 30 h (53.3%) was superior to 24 and 26 h (26.7% for both). Blastocyst development rates were minimal in all treatments (0.0-6.3%; P>0.05), however, when the mean (+/-S.D.) cell number in blastocysts at the same maturational period was compared, strontium treatment was superior to ethanol for activation rates (82+/-5.7 and 89.5+/-7.8 versus 54 and 61, at 28 and 30 h, respectively). Improved results were obtained by combined treatments. The combination of ethanol and strontium resulted in similar pronuclear formation (ES, 36.7-83.9%; SE, 53.1-90.3%) and cleavage rates (ES, 31.3-81.3%; SE, 65.6-80.7%). Regarding embryo development, there was no difference (P>0.05) between treatments, and blastocysts were only obtained in treatment SE at 24 and 26 h (6.5% for both). It is concluded that, SrCl(2) induces activation and parthenogenetic development in bovine oocytes.     

A combined treatment with ethanol and 6-dimethylaminopurine is effective for the activation and further embryonic development of oocytes from Sprague-Dawley and Wistar rats

In nuclear-transferred or round spermatid-injected oocytes, artificial activation is required for further development in mammals. Although strontium chloride is widely used as the reagent for inducing oocyte activation in mice, the optimal method for oocyte activation remains controversial in rats because ovulated rat oocytes are spontaneously activated in vitro before artificial activation is applied. In our previous study, we found that cytostatic factor activity, which is indispensable for arrest at the MII stage, is potentially low in rats and that this activity differs greatly between two outbred rats (Slc: Sprague-Dawley (SD) and Crj: Wistar). Therefore, it is necessary to establish an optimal protocol for oocyte activation independent of strains. Given that comparative studies of the in vitro development of oocytes activated by different activation protocols are very limited, we compared four different protocols for oocyte activation (ethanol, ionomycin, strontium and electrical pulses) in two different SD and Wistar rats. Our results show that oocytes derived from SD rats have significantly higher cleavage and blastocyst formation than those from Wistar rats independent of activation regimes. In both types of rat, ethanol treatment provided significantly higher developmental ability at cleavage and blastocyst formation compared to the other activation protocols. However, the initial culture in a fertilization medium (high osmolarity mR1ECM) for 24 h showed a detrimental effect on the further in vitro development of parthenogenetic rat oocytes. Taken together, our results show that ethanol treatment is the optimal protocol for the activation of rat oocytes in SD and Wistar outbred rats. Our data also suggest that high-osmolarity media are inadequate for the in vitro development of parthenogenetically activated oocytes compared with fertilized oocytes.     

Repetitive calcium stimuli drive meiotic resumption and pronuclear development during mouse oocyte activation.

Freshly ovulated (12 hr post hCG) F1 (C57BL/6 x CBA) hybrid mouse oocytes were parthenogenetically activated by repetitive elevation of Ca2+ induced by carefully controlled electrical pulses. Different patterns of stimulation were employed to examine the role of repetitive calcium changes on meiotic resumption and pronuclear development. In the first series of experiments oocytes received 33 electrical pulses of 1.8 kV/cm delivered every 4 min. The pulse duration decreased according to a negative exponential equation from a 900-microseconds first pulse to give a total pulse duration of 18.721 msec. The strength of calcium stimuli was varied by changing the concentration of CaCl2 in the medium. Ninety-eight percent of the oocytes stimulated with 12 microM calcium extruded the second polar body by the end of treatment and 92% completed pronuclear formation between 3.5 and 8 hr after the first pulse. For higher or lower Ca2+ concentrations the proportion of oocytes developing pronuclei decreased; the timing of pronuclear formation was retarded and the majority of oocytes failed to form a pronucleus after extrusion of the second polar body. In the second series of experiments, the strength of the calcium stimuli was modulated by changing the duration of the 33 electrical pulses given in the presence of 12 microM calcium. By increasing the total pulse duration to 33.958 msec, 100% of the oocytes activated and completed pronuclear formation between 3 and 5 hr after the first electric pulse. Stimulation protocols of lower total pulse duration (less than 18.721 msec) gave rise to high rates of partial activation (up to 95%). Examination of these partially activated oocytes showed metaphases with haploid sets of chromatids characteristic of third meiotic metaphase arrest. The results indicate that repetitive calcium stimuli can regulate the rate and extent of meiotic resumption and the time course of pronuclear formation during mouse oocyte activation. They suggest that meiotic resumption in mammalian oocytes is regulated by the amplitude and frequency of cytosolic calcium oscillations induced by the activating stimulus.     

The parthenogenetic activation of canine oocytes with Ca-EDTA by various culture periods and concentrations

In the present study, canine oocytes were exposed to various concentrations of and durations of exposure to EDTA saturated with Ca(2+) (Ca-EDTA), a cell membrane-impermeable metal ion chelator, to determine if parthenogenetic activation could be induced. When oocytes were cultured for 48 or 72 h in parthenogenetic activation medium (PAM) without Ca-EDTA (control) or PAM supplemented with 1 or 5mM Ca-EDTA, the highest rate of pronuclear formation (PN) was obtained in oocytes cultured in 1mM Ca-EDTA for 48 h (8.0%; P<0.05). There was no pronuclear formation in the control group (PAM without Ca-EDTA). Oocytes treated with 5mM Ca-EDTA for 48 h or 1mM Ca-EDTA for 72 h formed a parthenogenetic pronucleus (3.1 and 4.5, respectively). However, there was no pronuclear formation in oocytes treated with 5mM Ca-EDTA for 72 h. In summary, exposure to Ca-EDTA can induce pronuclear formation in canine oocytes.     

The kinetics of oocyte activation and dynamics of polar body formation in Calomys musculinus and Calomys laucha (Rodentia-Sigmodontinae)

The objective of this study was to determine whether Calomys laucha and Calomys musculinus superovulated oocytes undergo parthenogenetic activation following activation stimuli. Cumulus-intact or denuded oocytes were treated with medium containing ethanol (7%), medium containing strontium chloride, or medium alone. They were then incubated for 6-8 h to allow for activation. A group of oocytes was fixed immediately after maturation to serve as a control. The nuclear status of the oocytes was examined after staining with Hoechst 33342, to determine the timing of pronuclear progression from metaphase II to anaphase II or telophase II or to the pronuclear stage. The proportion of oocytes that underwent activation was higher for oocytes treated with ethanol or strontium chloride than in those incubated in medium alone, for the two species studied (p < 0.001). There was little evidence of spontaneous activation occurring in oocytes during the treatments. Most of the activated oocytes contained a single haploid pronucleus, but it was possible to find immediate cleavage and two pronuclei. The different classes of activated oocytes were cultured for 5 days. The type of activating treatment had a marked effect on the ability of the resulting C. musculinus and C. laucha parthenogenetic embryos to develop to the preimplantation stages. Incubation with ethanol produced only 8-cell embryos while the embryos induced with strontium chloride reached the blastocyst stage. This is the first report of parthenogenesis in C. musculinus and C. laucha. The ability of strontium ions to induce matured secondary oocytes to initiate parthenogenesis and obtain further development of Calomys provides opportunities to use Calomys oocytes in vitro and, therefore, to study the genetics, cell biology and virology of development.     

Preimplantation embryonic development of spontaneous mouse parthenotes after oocyte meiotic maturation in vitro

Of eggs ovulated in LT/Sv mice, 10–20% undergo spontaneous parthenogenetic activation, and 40–50% of the parthenotes develop to blastocysts when cultured in simple defined medium from the one-cell stage. Similar percentages of oocytes isolated from Graafian follicles undergo parthenogenetic activation after spontaneous maturation in simple defined medium, but embryonic development proceeds no further than the two-cell stage. The simple defined medium that supported preimplantation development of ovulated eggs and spontaneous maturation of extrafollicular oocytes contained no serum, free amino acids, or vitamins. The present experiments were conducted to determine what conditions during spontaneous maturation of extrafollicular oocytes could promote the ability of oocytes to develop to blastocysts after parthenogenetic activation and mimic the environment of preovulatory follicles. Cumulus-enclosed oocytes that were matured in simple medium supplemented with fetal bovine serum (FBS) developed to blastocysts after spontaneous parthenogenetic activation. Furthermore, minimum essential medium (MEM), a complex medium containing free amino acids and vitamins, could substitute completely for FBS for maturing oocytes from (C57BL/6J × LT/Sv)F₁ mice, and to a lesser extent for maturing LT/Sv oocytes. Therefore, even though germinal vesicle breakdown in mouse oocytes and preimplantation development of mouse eggs can occur in the absence of an exogenous supply of free amino acids and vitamins, a complete, or normal, mouse oocyte maturation cannot. These results also demonstrated that gonadotropins are not necessary during oocyte meiotic maturation for parthenogenetically activated eggs to develop through the preimplantation stages. Luteinizing hormone or 17β-estradiol in MEM during oocyte maturation had no effect on the subsequent development of parthenotes. In contrast, follicle stimulating hormone (FSH) and progesterone in the maturation medium decreased the number of ova that subsequently cleaved, and FSH decreased the number of cleaved eggs that developed to blastocysts.     

Differential effects of protein synthesis inhibitors on porcine oocyte activation

This study was designed to evaluate the effects of cycloheximide and puromycin on activation and protein synthesis of porcine oocytes. When matured oocytes were electrostimulated, then cultured in the presence of cycloheximide (5 μ/ml) for 6 or 24 hr, 92% of oocytes were activated as indicated by pronuclear formation, vs. 2.8% for untreated oocytes, 5.3% for oocytes not electrostimulated but cultured with cycloheximide, and 60.0% for those only electrostimulated. When cultured with L-[³⁵S]methionine in the presence of cycloheximide, puromycin (100 μg/ml), or no protein synthesis inhibitor for 24 hr, oocytes had mean radiolabeled incorporation rates of 36.5, 2.21, and 32.0 fmol/4 hr/oocyte, respectively. Thus, cycloheximide had little effect on protein synthesis after 24 hr of culture. A 1D-SDS PAGE showed that oocytes cultured with puromycin or cycloheximide are not activated, while electrostimulated oocytes are activated, as characterized by the conversion of a 25-kDa polypeptide to a 22-kDa polypeptide. The radiolabeling experiment was repeated, except that oocytes were cultured for 4 or 24 hr. At 4 hr, mean incorporation rates were lower in the cycloheximide group (2.34 fmol/4 hr/oocyte), but similar in the puromycin (15.7 fmol/4 hr/oocyte) and control groups (18.9 fmol/4 hr/oocyte). At 24 hr, the puromycin group (5.73 fmol/4 hr/oocyte) had a lower rate of incorporation, while the cycloheximide (22.6 fmol/4 hr/oocyte) and control (26.0 fmol/4 hr/oocyte) groups were similar. Cycloheximide was more effective earlier during culture, while puromycin was more effective later. When combined with ES, puromycin did have a higher rate (P = 0.10) of activation (87.8%) than with electrostimulation alone (73.0%). A final experiment evaluated the development to blastocyst after transfer to a ligated oviduct. Cycloheximide treatment in conjunction with an electric pulse did not increase the rate of compact morula or blastocyst formation. In conclusion, puromycin and cycloheximide have differential effects on protein synthesis, and although cycloheximide alone will not induce activation in porcine oocytes, it is very effective in generating activated oocytes in combination with electrostimulation. © 1995 Wiley-Liss, Inc.     

Viability of ICSI oocytes after caffeine treatment and sperm membrane removal with Triton X-100 in pigs

Non-adequate decondensation of injected sperm nucleus is one the main problems of intracytoplasmic sperm injection (ICSI) in porcine. With the aim of improving pronuclear formation, the effects on activation and embryo development rates of 0.1% Triton X-100 (TX) sperm pre-treatment for membrane removal and/or 5 mM Caffeine (CAF) addition in oocyte manipulating and culture medium for 2 h after ICSI or artificial activation were studied. The effects of 4 different Ca²⁺ concentrations contained in the injection medium on embryo development after sham injection were also analysed. In Experiment 1, no significant effect on cleavage or blastocyst rate was detected independently of Ca²⁺ concentration contained in the injection medium. In Experiment 2, oocytes injected with TX pre-treated sperm showed a significant higher rate of male pronuclear formation in comparison with oocytes from control group (2PN; 54.1 vs 36.6%). However, no differences on in vitro embryo development, cleavage or blastocyst rates were observed. In Experiment 3, oocytes treated with CAF during and after micromanipulation and injected with sperm pre-treated with TX had a significantly lower oocyte activation rate than any other experimental groups (25.7 vs 56.3–66.3%). No differences were observed in cleavage rates among different experimental groups. However, the CAF group showed a higher blastocyst rate significantly different from TX+CAF group (12.0 vs 1.9%, respectively). In a second approach, the effect of electric field strengths and CAF treatments on oocyte activation was studied. In Experiment 4, oocytes submitted to 0.6 kV/cm showed significant higher activation rates than 1.2 kV/cm ones regardless of the caffeine treatment (83.7 vs 55.9% and 75.7 vs 44.3%; in control and caffeine groups, respectively). No effect of caffeine treatment was observed in any experimental group. In conclusion, TX sperm treatment before ICSI without an additional activation procedure improved male pronuclear formation, but did not improve embryo development until blastocyst stage. No significant effect of caffeine was found when sperm was not treated with TX, although in membrane absence caffeine avoided oocyte activation and embryo development. Finally, caffeine had no effect on female pronuclear formation regardless of electric field strengths applied to the parthenogenetic activation.     

Activation of bovine oocytes by specific inhibition of cyclin-dependent kinases

Activation of bovine oocytes by experimental procedures that closely mimic normal fertilization and allow to obtain haploid oocytes is essential both for intracytoplasmic sperm injection (ICSI) and for nuclear transfer. Therefore, with the goal of producing haploid activated oocytes, this study evaluated whether bohemine, either alone or in combination with ionomycin, is able to activate young matured bovine oocytes. Furthermore, the effect of bohemine on the patterns of DNA synthesis after pronuclear formation as well as changes in histone H1 kinase and MAP kinase activities during the process of activation were studied. Our results with bohemine show that the specific inhibition of CDKs in metaphase II bovine oocytes induces parthenogenetic activation in a dose-dependent manner (25, 50, and 100 microM, respectively), either alone (3%, 30%, and 50%) or in combination with ionomycin (30%, 70%, and 87.5%). A single pronucleus and extrusion of the second polar body was observed (97%) when Ca(2+) influx was stimulated in the presence of bohemine, although pronuclear formation without polar body extrusion was observed when bohemine was used alone. Bohemine-activated oocytes started to synthesize DNA in the first hour (37%) after their removal from bohemine-supplemented medium (6-7 hr post-activation; hpa). A high synchrony in the S-phase was registered with more than 85% of parthenotes actively synthesizing DNA 8 hpa. By contrast, DNA synthesis was absent in oocytes cultured for 4, 6, and 8 hpa in the presence of bohemine and a low rate was observed by those cultured for 18 hr (30%) in bohemine-supplemented medium. This confirms the ability of the inhibitor to arrest the cell cycle in the G1/S boundary for at least 8 hr. A drop in histone H1 kinase activity was observed in bohemine-activated oocytes. The activity of MBP kinase decreased later than histone H1 kinase and even 4 hr after inomycin-bohemine treatment at least half of this activity was still detectable. Then, the MBP kinase activity decreased and the lowest level could be seen 6-8 hpa. In summary, our study shows that in vitro matured bovine oocytes can be successfully activated by a synthetic inhibitor of CDKs. This effect can be improved by combination with ionomycin. The targeting of CDKs in the way to activate bovine oocytes can be an approach to improve the efficiency of mammalian oocyte activation.     

Activation of mammalian oocytes by a factor obtained from rabbit sperm

In this study a fraction was prepared from rabbit sperm that activated rabbit and mouse oocytes following injection into the cytoplasm. The sperm factor activated oocytes exhibited cortical granule exocytosis, pronuclear formation, and cleavage. The sperm factor was soluble in aqueous solution and was not active extracellularly. Unlike most artificial activation methods that are only effective with aged oocytes, the sperm factor activated recently ovulated oocytes. The factor appears to be a protein or associated with a protein but not an acrosomal protein. Fractions from both mouse and bull sperm did not activate rabbit or mouse oocytes. Their inactivity may be owing to the techniques used to recover the fractions or differences between species in sperm morphology and fertilization processes. These observations support the hypothesis that oocyte activation is induced by a factor within sperm that is released into the cytoplasm of the oocyte at the time of sperm-oocyte fusion.     

FSH-stimulated follicular secretions enhance oocyte maturation in pigs

Follicular secretions can support cytoplasmic maturation in vitro in the pig. The effects of follicular secretions stimulated in vitro by different combinations of gonadotropins and over different culture periods on cytoplasmic maturation of the pig oocyte were studied. In Experiment 1, follicular shells (including theca and mural granulosa cells) from 5 to 7-mm follicles were cultured in vitro under the stimulation of different combinations of gonadotropins for 48 h, and then the obtained conditioned media were used for oocyte maturation. Oocytes cultured in conditioned medium harvested after treatment of follicular shells with 2.5 mug/ml FSH (FSH-stimulated conditioned medium) yielded a higher percentage of male pronuclear formation than those matured in conditioned medium harvested after culture of follicular shells with a combination of hormones (2.5mug/ml FSH, 2.5 mug/ml LH and 20 ng/ml PRL, FSH-LH-PRL-stimulated conditioned medium; 54.1 vs 28.5%; P=0.001). Addition of the combination of FSH, LH and PRL during the period of oocyte maturation marginally improved male pronuclear formation rates (41.3 vs 55.6%; P=0.06). In Experment 2, follicular shells were cultured under the stimulation of FSH only. Conditioned media were harvested after the first 24 h and the second 24 h of culture. The rates of male pronuclear formation in oocytes matured in these 2 conditioned media did not differ (P=0.65), but were higher than those of oocytes matured in fresh control medium (P<0.03). It is concluded that factors secreted by follicular cells stimulated by FSH alone provide better support for full oocyte maturation in the pig than by combined FSH, LH and PRL treatment.     

Leptin accelerates pronuclear formation following intracytoplasmic sperm injection of porcine oocytes: Possible role for MAP kinase inactivation

Leptin, a multifunctional hormone, is present in mammalian oocytes and follicular fluids and cumulus cells. While leptin modulates oocyte maturation in vitro which seems to result in enhancement of embryo development, it is unclear whether leptin treatment of oocytes affects cytoplasmic maturation and fertilization processes. In order to gain a better understanding of the role of leptin during oocyte maturation, we examined microtubule and microfilament assembly following oocyte maturation and blastocyst formation, mitogen-activated protein kinase (MAPK) activity, and pronuclear formation following parthenogenetic stimuli or intracytoplasmic sperm injection (ICSI) in leptin-treated oocytes. Addition of 10 or 100 ng/ml leptin during oocyte maturation did not increase the proportion of metaphase II oocytes, but enhanced development to blastocyst stage by day 7 (P < 0.01) after parthenogenetic activation (PA), accompanied by increased cell number. However there was no effect on the number of apoptotic cells in blastocysts. Following maturation in the presence of leptin, there were more oocytes with normal spindle formation. MAPK activity decreased more rapidly, and pronuclear formation was accelerated after parthenogenetic activation or ICSI of leptin-treated oocytes. These results suggested that exogeneous leptin enhanced spindle assembly and accelerated pronuclear formation following fertilization, possibly via the MAPK pathway.     

Ultrastructural observations on cortical granules in human follicular oocytes cultured in vitro

The fine structure, distribution, and fate of cortical granules in human oocytes cultured in vitro are reported. Follicular maturation in women with blocked Fallopian tubes was induced by clomiphene citrate and human chorionic gonadotropin, and preovulatory eggs were obtained by improved methods of laproscopy and oocyte recovery. These oocytes were then inseminated and cultured in a modified Ham's F10 medium for 3 to 72 hr to assess their fertilizability. Cortical granules were observed in all 17 unfertilized oocytes investigated, which had completed various stages of meiotic maturation. A marked increase in their numbers was observed in oocytes cultured for 3 to 6 hr. There was no evidence of spontaneous cortical granule release in any of the oocytes studied. It is concluded that cortical maturation expressed by proliferation of cortical granules is as significant a criterion as nuclear maturation in assessing maturity and fertilizability of oocytes cultured in vitro. A short sojourn in culture before insemination could improve chances of normal fertilization and embryo development, which has been recently achieved in our laboratory.     

Pyruvate and oxygen consumption throughout the growth and development of murine oocytes

Growing oocytes in vitro from the most immature stages until they are developmentally competent is a major goal of reproductive technology, requiring fundamental knowledge of metabolic processes. Carbohydrate metabolism and oxygen consumption have been analysed in a series of experiments designed to investigate important energy substrates for mouse oocytes and to reveal any qualitative or quantitative changes between the primordial and ovulatory follicle stages. Primordial follicles were incubated in groups in modified-KSOM medium, whereas growing or ovulated oocytes were studied singly and, in both cases, the depletion or accumulation of metabolites in spent medium were analysed using ultramicrofluorometric assays. The rates of glucose (0.014 +/- 0.006 pmol/hr) and pyruvate (0.028 +/- 0.009 pmol/hr) consumption and l-lactate (0.058 +/- 0.023 pmol/hr) production by primordial follicles suggested that energy production was supported by a combination of metabolic pathways, including glycolysis. Pyruvate and oxygen consumption per oocyte increased two- and ninefold, respectively, between the primary and pre-ovulatory stages (0.82 +/- 0.1 and 1.67 +/- 0.1 pmol pyruvate/hr, respectively and 1.4 +/- 0.3 and 7 +/- 0.6 pmol oxygen/hr) after which oxygen (12.7 +/- 1.1 pmol/hr) utilisation nearly doubled. Oxygen consumption by fully grown oocytes was in excess of oxidation requirements for pyruvate. When pyruvate and oxygen consumption rates were normalised for oocyte cellular volume, which increased over 130-fold during growth, oocyte metabolism was higher in primary follicles than at any subsequent stage, indicating that energy needs are greater during a developmental transition. To conclude, pyruvate and oxygen were consumed throughout oocyte development at increasing rates. When oocyte cellular volume was accounted for, oocytes from primary follicles displayed greatest metabolic rates.     

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。     

Requirement for, and patterns of, pyruvate and glutamine metabolism in the domestic dog oocyte in vitro

Supplementation of energy substrates to culture medium is essential for resumption and completion of meiosis in vitro for many mammalian species. Objectives were to study the dog oocyte, specifically the influences of pyruvate and glutamine on maturation and the utilization of these two substrates at various developmental stages and incubation times. Ovarian oocytes (n=681) were obtained from spayed bitches and cultured for 48 hr in TCM 199 medium containing various concentrations of pyruvate (0-2.5 mM) and glutamine (0-4 mM) before being assessed for nuclear status. For analyzing metabolic activity, 259 dog oocytes were cultured for 0, 12, 24, 36, or 48 hr, assessed for pyruvate and glutamine metabolism using the hanging drop method and then evaluated for nuclear status. Neither pyruvate nor glutamine had influence (P > 0.05) on oocyte maturation in vitro (IVM). However, both culture interval and meiotic status influenced pyruvate uptake (P < 0.05). Specifically, pyruvate uptake declined as the oocyte progressed from the germinal vesicle (GV) to metaphase II (MII) stage. Glutamine oxidation decreased as culture duration progressed (P < 0.05). In summary, pyruvate or glutamine is not required to promote successful IVM of dog oocytes. But, both substrates are being metabolized, and in patterns different to the domestic cat, another carnivore species. Pyruvate played an important role earlier in the maturational process, and less glutamine was oxidized as the oocyte neared nuclear maturation. These variations emphasize the importance of defining species specificities in carnivores before expecting consistently successful IVM/IVF.     

Possible role of calcium on oocyte development after intracytoplasmic sperm injection in quail (Coturnix japonica)

Although a rise in intracellular calcium concentration of vertebrate oocytes plays a pivotal role for the initiation of fertilization or oocyte activation, no study on this subject has been reported in birds. This study was conducted to study the role of intracellular calcium in relation to fertilization in avian oocytes. First, immediately after a quail oocyte was injected with a sperm, it was treated with strontium chloride as an inducer for intracellular calcium rise at doses of 0, 2.5, 5, 7.5, 10 mM for 4 hr in the culture medium and was followed by 20-hr culture. Treatment with 5 mM of strontium chloride induced blastodermal development in 24.2% of injected eggs, although no oocytes developed without strontium treatment. Second, quail oocytes were injected with a sperm and 0.1 M calcium chloride or a sperm and saline solution, cultured without calcium for 4 hr and was followed by 20-hr culture without strontium. The calcium solution induced blastodermal development in 20.5% of the oocytes, although no oocytes developed without calcium treatment. Third, quail oocytes were injected with 1,2-bis (o-aminophenoxy) ethane-N,N,N',N'-tetraacetic acid (BAPTA) as a calcium chelator, cultured with strontium (5 mM) for 4 hr followed by 20-hr culture without strontium. Only one oocyte developed after BAPTA and strontium treatment of 36 oocytes examined. Developmental stages of all the oocytes ranged from IV to VII. These results suggest that intracellular calcium rise may participate in quail oocyte activation and allow fertilization and blastodermal development.     

Requirement of sperm‐oocyte plasma membrane fusion for establishment of the plasma membrane block to polyspermy in human pronuclear oocytes

We investigated whether the incorporation of the sperm membrane into the oolemma contributes to the human plasma membrane block to polyspermy. We used zona pellucida–free oocytes fertilized by intracytoplasmic sperm injection (ICSI) or activated by parthenogenetic activation. Only two of the 35 pronuclear oocytes fertilized by spermatozoa (control) demonstrated one single penetrating spermatozoa. In contrast, the majority of ICSI and parthenogenetically activated pronuclear oocytes were penetrated with an average of three spermatozoa per oocyte. The number of fused and binding spermatozoa of ICSI and parthenogenetically activated oocytes were significantly higher than in control oocytes (3.5 ± 0.6 and 4.3 ± 0.6 for ICSI; 3.0 ± 0.3 and 3.8 ± 0.4 for activated and 0.2 ± 0.1 and 0.6 ± 0.2 for controls, respectively, P < 0.01). Furthermore, the cortical granules were released from the cortex of ICSI and calcium ionophore‐puromycin‐activated pronuclear oocytes to the same extent as that of pronuclear oocytes fertilized by spermatozoa. These results suggest that the establishment of the plasma membrane block to sperm penetration in the human oocyte may require a fusion process between sperm and oocyte plasma membranes. Mol. Reprod. Dev. 52:183–188, 1999. © 1999 Wiley‐Liss, Inc.     

Male pronuclear formation in denuded porcine oocytes after in vitro maturation in the presence of cysteamine.

The present study was conducted to examine effects of cysteamine in culture medium on progression of meiosis, glutathione (GSH) content, kinase activities (histone H1 kinase and mitogen-activated protein kinase), and male pronuclear formation after in vitro insemination of cumulus-denuded oocytes (DOs) in the pig. DOs, obtained by mechanically removing cells from cumulus-oocyte complexes (COCs) with a small-bore pipette, were cultured for 45 h in TCM199 supplemented with sodium pyruvate, gonadotropins, estradiol, and 10% porcine follicular fluid, with or without cysteamine (150 microM). Maturation rates of DOs cultured with and without cysteamine were not different (60-70%) but were significantly lower than those of COCs (90-100%) (p < 0.05). GSH content of matured DOs cultured with cysteamine was significantly higher than that of DOs cultured without cysteamine (p < 0.05). Values for both types of kinase activity in matured DOs cultured with and without cysteamine were not different (p > 0.05). After in vitro insemination, DOs cultured with cysteamine showed significantly higher rates of male pronuclear formation (80.3 +/- 3.0%) than DOs cultured without cysteamine (16.4 +/- 0.5%) (p < 0.05). These results indicate that the addition of cysteamine to culture medium increased oocyte GSH content and promoted male pronuclear formation after sperm penetration of porcine DOs but had no effects on their maturation rates or kinase activities.