A study on cryoprotectant solution suitable for vitrification of rat two-cell stage embryos

The present study was performed to develop a suitable cryoprotectant solution for cryopreservation of rat two-cell stage embryos. First, we examined the cell permeability of several cryoprotectants; propylene glycol had the fastest permeability compared to dimethyl sulfoxide, ethylene glycol, and glycerol. Embryos were then exposed to a solution containing propylene glycol to evaluate its effects on fetal development. As the development was similar to that of fresh embryos, P10 (10% v/v propylene glycol in PB1) was used as a pretreatment solution. Next, the effects of the vitrification solution components (sucrose, propylene glycol, ethylene glycol, and Percoll) were examined by observing the vitrification status; 10% v/v propylene glycol, 30% v/v ethylene glycol, 0.3 mol sucrose, and 20% v/v Percoll in PB1 (PEPeS) was the minimum essential concentration for effective vitrification without the formation of ice crystals or freeze fractures.     

In vitro formation of tetraploid rat blastocysts after fusion of two-cell embryos

Gene targeting technology is not available in the rat which is an animal model of major importance, e.g., in cardiovascular research. This is due to the fact that the rat embryonic stem cell (ESC)-like cells established by several groups do not form germ-line chimeras when injected into blastocysts. In the mouse, the aggregation of ESC with tetraploid embryos has allowed the generation of animals completely derived from these cells. However, aggregation of rat ESC-like cells with tetraploid rat embryos has not yet been attempted to evaluate their developmental capacity. Therefore, we established a method to produce tetraploid rat embryos by fusion at the two-cell stage. Chemical fusion by polyethylene glycol (PEG) was shown to be less efficient (56.3% fused embryos) than electrofusion (96.1% fused embryos). The rate of development of fused embryos to blastocysts was independent of the fusion method and similar to the rate of control embryos. However, this rate was lower when the embryos had been cultured from the zygote state before fusion (14-20%) compared to freshly isolated two-cell embryos (41-63%). Alike for the mouse, blastocysts derived from fused two-cell rat embryos contained about half the number of cells as control blastocysts and were homogeneously tetraploid with no evidence of mosaicism. This method may be useful for the establishment of gene-targeting technology in the rat.     

Polarized distribution of membrane components on two-cell mouse embryos

Summary In two-cell mouse embryos, membrane components detected by a variety of antisera, lectins and lipid analogues and covalent labeling were found to be localized in the poles of the two blastomeres opposite the cleavage furrow. The proportion of polarized blastomeres increased rapidly during the first 4–5 h following first cleavage and then diminished approximately two-fold over the remaining period before second cleavage. Concurrent with this decrease in percent polarization, observed poles were found to be less spatially restricted. This polarization is not the result of a ligand induced capping or a manifestation of differences in surface topography. In light of recent measurements of lateral diffusion, the polarization of membrane components may be significant for the formation of morphogenetic gradients during cleavage.     

四种冷冻保护剂对小鼠2-细胞胚胎渗透性和毒性作用的比较

作为胚胎冷冻保存的基础性研究,冷冻保护剂的渗透性和毒性研究非常重要.本试验选用1,2-丙二醇、甘油、乙二醇和二甲基亚砜4种常用冷冻保护剂,对小鼠2-细胞胚胎进行渗透性和毒性研究.结果显示:1.5 mol/L的1,2-丙二醇、乙二醇和二甲基亚砜冷冻保护剂对2-细胞胚胎的渗透性显著高于甘油保护剂;4种冷冻保护剂对细胞膜的完整性没有影响;1.5 mol/L的乙二醇、1,2-丙二醇和甘油保护剂处理后的2-细胞胚胎的囊胚发育率和孵化率与对照组胚胎比较差异不显著(P>0.05),但显著高于二甲基亚砜处理后的2-细胞囊胚发育率和孵化率(P<0.01).结果表明:在4种冷冻保护剂中,乙二醇和1,2-丙二醇适合于小鼠2-细胞胚胎冷冻保存     

Efficient production of nuclear transferred rat embryos by modified methods of reconstruction

In this study we investigated spontaneous oocyte activation and developmental ability of rat embryos of the SD-OFA substrain. We also tried to improve the somatic cell nuclear transfer (SCNT) technique in the rat by optimizing methods for the production of reconstructed embryos. About 20% of oocytes extruded the second polar body after culture for 3 hr in vitro and 84% of oocytes were at the MII stage. MG132 blocked spontaneous activation but decreased efficiency of parthenogenetic activation. Pronuclear formation was more efficient in strontium-activated oocytes (66.1-80.9%) compared to roscovitine activation (24.1-54.5%). Survival rate after enucleation was significantly higher (89.4%) after slitting the zona pellucida and then pressing the oocyte with a holding pipette in medium without cytochalasin B (CB) compared to the conventional protocol using aspiration of the chromosomes after CB treatment (67.7%). Exposure of rat ova to UV light for 30 sec did not decrease their in vitro developmental capacity. Intracytoplasmic cumulus cell injection dramatically decreased survival rate of oocytes (42%). In contrast, 75.9% of oocytes could be successfully electrofused. Development to the 2-cell stage was reduced after SCNT (24.6% compared 94.6% in controls) and none from 244 reconstructed embryos developed in vitro beyond this stage. After overnight in vitro culture, 74.4% of the SCNT embryos survived and 56.1% formed pronuclei. The pregnancy rate of 33 recipients after the transfer of 695 of these cloned embryos was, however, very low (18.2%) and only six implantation sites could be detected (0.9%) without any live fetuses and offspring.     

Cdc25B蛋白过表达可使小鼠胚胎突破2-细胞期阻滞

目的：探讨Cdc25B蛋白过表达对小鼠2-细胞期胚胎发育的影响。方法：利用体外转录试剂盒将Cdc25B转录成mRNA,将mRNA显微注射入小鼠2-细胞期胚胎中,观察胚胎发育情况和卵裂率。用蛋白激酶活性测定方法和Western印迹分别检测Cdc25B蛋白过表达小鼠胚胎MPF的活性及Cdc2-Tyr15的磷酸化状态。结果：hCG后48 h,mRNA注射组有超过40%的2-细胞期胚胎分裂到4-细胞期而对照组仍停留在2-细胞期;激酶活性测定显示注射Cdc25B mRNA后,MPF的活性显著升高;Cdc2-Tyr15的磷酸化状态变化与激酶活性测定结果一致。结论：Cdc25B蛋白过表达可以激活有丝分裂促进因子（MPF）,从而使小鼠2-细胞期胚胎突破2-细胞期阻滞,发育到4-细胞期。     

Effect of anti-sperm antibody on the in vitro development of rat embryos

Since we previously proved that the fertilized rat eggs in early developmental stage have antigen(s) cross-reacting to spermatozoa, the effect of antibody to spermatozoa on the cleavage of fertilized rat eggs was examined in vitro. Fertilized eggs from Fisher rats in the morula stage were cultured in vitro for 15 to 39 hr in the medium containing antibody to rat spermatozoa and rabit complement, and the developmental rates of morulae to blastocysts were compared with those cultured in the presence of either antibody or the complement alone. When rat morulae were cultured in the medium containing rabbit complement and IgG from rabbit antiserum to rat spermatozoa (heteroantibody) or from rat antiserum to rat spermatozoa (isoantibody), the development of moralae to blastocysts was markedly suppressed, whereas those cultured in the medum containing rabbit complement and IgG from the control rabbit serum or rabbit antibody IgG to rat spermatozoa alone without complement normally developed to the blastocysts. These results indicate that the antibody to spermatozoa in presence of complement can impair the in vitro development of fertilized rat eggs.     

Two-phase chemically defined culture system for preimplantation rat embryos

A limiting factor in the development of new technologies and transport of rats worldwide has been the inability to robustly culture preimplantation embryos. Previously, culture in vitro to the blastocyst stage from one-cell embryos was successful only if the one-cell embryos were isolated near the time of the first cleavage and from only a few strains. Here we report the use of commonly available, chemically defined culture media to overcome these limitations. In vitro culture of young one-cell embryos using common embryo media (KSOM, BMOC, or HTF) for 18-22 h followed by culture in mR1ECM medium allows the successful in vitro development of blastocysts from one-cell embryos after 5 days from both outbred (SD) and inbred strains of rat (WF, LEW, F344, and PVG). This system allows the parthenogenetic development of chemically activated, unfertilized oocytes to the blastocyst stage. Embryos cultured in this system develop to term and are live-born following transfer to surrogate mothers.     

Production of reconstructed two-cell rat embryos after chemical inactivation of chromosomes in MII oocytes by etoposide

The application of etoposide for chemical enucleation of rat oocytes was tested. The reconstruction efficiency after chemical and mechanical enucleation was comparatively analyzed. The obtained data indicate similar viability of reconstructed rat embryos irrespective of the enucleation technique.     

Characterization of DNA synthesis during the 2-cell stage and the production of tetraploid chimeric pig embryos

The DNA content of nuclei during the 2-cell stage as well as in presumptive tetraploid embryos was investigated. In vivo produced pig zygotes were cultured to the 2-cell stage and either monitored for cleavage to the 4-cell stage or mounted at various times postcleavage and DNA content determined. The length of the 2-cell stage was 14.8 ± 3.0 hr. There was a significant increase in the length of the 2-cell stage due to the time in vitro as a zygote (P < 0.001: R² = 0.866). The DNA content increased (P < 0.05) each 2 hr postcleavage until 10 hr postcleavage. This suggested that there is a short G₁ and G₂ phase and a relatively long phase of DNA synthesis. Next, 2-cell stage embryos were pulsed with electricity to induce cell-to-cell fusion. Whereas only about half fused within 30 min (55%), most (96%) developed to the blastocyst stage. The DNA content of the nuclei of the embryos was consistent with them being tetraploid. A final experiment was designed to evaluate the ability of the tetraploid embryo to form a chimera with isolated inner cell mass (ICM) cells. Inner cell masses were isolated from d 6 embryos, cut into thirds, labeled with DiO (a membrane die) and injected into the perivitelline space of 4-cell-stage tetraploid embryos. Twelve of 17 formed blastocysts. In most 8/12), the ICM of the resulting blastocyst was labeled, whereas in one the only fluorescence was in the trophectoderm, and in two fluorescence was evenly distributed between the ICM and trophectoderm. These results suggest that it may be possible to create a fetus derived from ICM cells, or potentially stem cells, that has a tetraploid trophoblast. © 1996 Wiley-Liss, Inc.     

Production of identical twins by separating two-cell rat embryos

Rat identical twins were produced from two-cell embryos. In the presence of cytochalasin B, rat two-cell embryos could be separated efficiently into two blastomeres by micromanipulation. Isolated blastomeres, embedded in agar cylinders and cultivated in ligated rat oviducts for 3 days, developed to the morula or blastocyst stage. After removing the agar, pairs of developed one-half embryos were transferred into Day 1 oviducts or Day 4 uteri of pseudopregnant rats. The percentage of embryos, separated either in the presence or absence of cytochalasin B, that developed into live fetuses was higher in cases of uterine transfer than in cases of oviduct transfer (38% vs. 18%, 31% vs. 15%, respectively). Throughout the present experiment, nine pairs of identical twins were successfully produced. This is the first report of the production of identical rat twins by separating two-cell embryos.     

Characteristics of the cell membrane fluidity, actin fibers, and mitochondrial dysfunctions of frozen-thawed two-cell mouse embryos

Physical and chemical alterations caused by the freezing and thawing and their effects on survivals/developments in vitro were investigated. Of a total of 452 two-cell mouse embryos, the overall survival rate of the frozen-thawed embryos was 76.1% (344/452). The blastocyst formation of the frozen-thawed embryos was 32.6% (44/136) compared to 74.5% (117/157) in the fresh embryos (P<0.05). The total number of cells in a blastocyst also decreased from 96.0 +/- 19.0 (n=26) in the fresh embryos to 42.0 +/- 11 .34 (n=30) in the frozen-thawed embryos (P<0.05). Fluorescence recovery after photobleaching (FRAP) measurement revealed about 5-fold decrease in the cell membrane fluidity with a characteristic time constant (tau) of 1.46 +/- 0.13 sec (n=5) in the frozen-thawed embryos as opposed to 0.28 +/- 0.04 sec (n=5) in the fresh embryos (P<0.05). The relative amount of H(2)O(2) in an embryo as quantified by the fluorescence intensity of 2',7'-dichlorofluorescein (DCF) showed 62.8 +/- 23.5 (n=24) and 34.2 +/- 14.5 (n=20) in the frozen-thawed embryos and in the fresh embryos, respectively (P<0.05). The distribution of actin filaments in the frozen-thawed embryos revealed an uneven distribution, particularly discontinuities at the "actin band," which contrasted to an even distribution shown in the fresh embryos. Mitochondrial staining by Rhodamine 123 showed that there was no significant difference between the two treatments in the number and in the distribution of viable mitochondria, but a marked aggregation was seen in the arrested embryos. No Annexin V binding was detected in two-cell or four-cell embryos while the binding was positive in the arrested embryos. The mitochondrial membrane potential measured by a membrane potential-sensitive fluorescent probe 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazol- carbocyanine iodide (JC-1) revealed a marked depolarization in the frozen-thawed embryos. Finally, terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-digoxigenin nick end-labeling (TUNEL) was employed to quantify the DNA fragmentation. In 75.0% cells of blastocysts (n=24) in the frozen-thawed embryos, the DNA fragmentation was detected as opposed to 37.0% in the fresh embryos (n=20) (P<0.05). Taken together, it is proposed that during the cryopreservation, two-cell mouse embryos are subjected to physical and chemical alterations, including destruction of the cell membrane integrity, redistribution of actin fibers, mitochondrial depolarizations, and increased reactive oxygen species (ROS) productions, which then may trigger the apoptotic cascade leading to a decrease in the survival rate and in the developmental rate of the embryos.     

Vitrification of one-cell mouse embryos in cryotubes

Preventing intracellular ice formation is essential to cryopreserve cells. Prevention can be achieved by converting cell water into a non-crystalline glass, that is, to vitrify. The prevailing belief is that to achieve vitrification, cells must be suspended in a solution containing a high concentration of glass-inducing solutes and cooled rapidly. In this study, we vitrified 1-cell mouse embryos and examined the effect of the cooling rate, the warming rate, and the concentration of cryoprotectant on cell survival. Embryos were vitrified in cryotubes. The vitrification solutions used were EFS20, EFS30, and EFS40, which contained ethylene glycol (20, 30 and 40% v/v, respectively), Ficoll (24%, 21%, and 18% w/v, respectively) and sucrose (0.4 0.35, and 0.3 M, respectively). A 5-μl EFS solution suspended with 1-cell embryos was placed in a cryotube. After 2 min in an EFS solution at 23 °C, embryos were vitrified by direct immersion into liquid nitrogen. The sample was warmed at 34 °C/min, 4,600 °C/min and 6,600 °C/min. With EFS40, the survival was low regardless of the warming rate. With EFS30 and EFS20, survival was also low when the warming rate was low, but increased with higher warming rates, likely due to prevention of intracellular ice formation. When 1-cell embryos were vitrified with EFS20 and warmed rapidly, almost all of the embryos developed to blastocysts in vitro. Moreover, when vitrified 1-cell embryos were transferred to recipients at the 2-cell stage, 43% of them developed to term. In conclusion, we developed a vitrification method for 1-cell mouse embryos by rapid warming using cryotubes.     

Further studies on thermal treatment of two-cell stage embryos to produce complete embryonic stem-cell-derived mice by cell-aggregation methods

Employing aggregation techniques with two embryonic sources, one from two-cell stage embryos treated by thermal stimulation and the other from mouse embryonic stem (ES) cells that had been obtained from a feeder layer, simple and most effective methods of producing a complete generation of mice from ES cells were explored. Although thermal treatment affected embryos at various developmental stages, the embryos at the two-cell stage of development were selected because of the remarkably reduced number of cells present in the inner cell mass (ICM) at blastocyst stage after thermal conditioning. Under these conditions, a combination of thermally treated host embryos and an aggregated ES cell-clump was found to produce a high rate of live newborns by natural delivery. That the newborns were completely derived from ES cells was checked by two criteria: microsatellite analysis and coat color analysis. Importantly, all of these mice were healthy and fertile. The aggregation techniques reported here might well be applied to other animal species whose ES cells form stable colonies on a feeder layer.     

Full-term development of rat after transfer of nuclei from two-cell stage embryos

Cloning technology would allow targeted genetic alterations in the rat, a species which is yet unaccessible for such studies due to the lack of germline-competent embryonic stem cells. The present study was performed to examine the developmental ability of reconstructed rat embryos after transfer of nuclei from early preimplantation stages. We observed that single blastomeres from two-cell embryos and zygotes reconstructed by pronuclei exchange can develop in vitro until morula/blastocyst stage. When karyoplasts from blastomeres were used for the reconstruction of embryos, highest in vitro cleavage rates were obtained with nuclei in an early phase of the cell cycle transferred into enucleated preactivated oocytes or zygotes. However, further in vitro development of reconstructed embryos produced from blastomere nuclei was arrested at early cleavage stages under all conditions tested in this study. In contrast, immediate transfer to foster mothers of reconstructed embryos with nuclei from two-cell embryos at an early stage of the cell cycle in preactivated enucleated oocytes resulted in live newborn rats, with a general efficiency of 0.4%-2.2%. The genetic origin of the cloned offspring was verified by using donor nuclei from embryos of Black Hooded Wistar rats and transgenic rats carrying an ubiquitously expressed green fluorescent protein transgene. Thus, we report for the first time the production of live cloned rats using nuclei from two-cell embryos.     

Elevated expression of hormone-regulated rat hepatocyte functions in a new serum-free hepatocyte-stromal cell coculture model

Summary The specific performance of the adult hepatic parenchymal cell is maintained and controlled by factors deriving from the stromal bed; the chemical nature of these factors is unknown. This study aimed to develop a serum-free hierarchical hepatocyte-nonparenchymal (stromal) cell coculture system. Hepatic stromal cells proliferated on crosslinked collagen in serum-free medium with epidermal growth factor, basic fibroblast growth factor, and hepatocyte-conditioned medium; cell type composition changed during the 2-wk culture period. During the first wk, the culture consisted of proliferating sinusoidal endothelial cells with well-preserved sieve plates, proliferating hepatic stellate cells, and partially activated Kupffer cells. The number of endothelial cells declined thereafter; stellate cells and Kupffer cells became the prominent cell types after 8 d. Hepatocytes were seeded onto stromal cells precultured for 4–14 d; they adhered to stellate and Kupffer cells, but spared the islands of endothelial cells. Stellate cells spread out on top of the hepatocytes; Kupffer cell extensions established multiple contacts to hepatocytes and stellate cells. Hepatocyte viability was maintained by coculture; the positive influence of stromal cell signals on hepatocyte differentiation became evident after 48 h; a strong improvement of cell responsiveness toward hormones could be observed in cocultured hepatocytes. Hierarchial hepatocyte coculture enhanced the glucagon-dependent increases in phosphoenolpyruvate carboxykinase activity and messenger ribonucleic acid (mRNA) content three- and twofold, respectively; glucagon-activated urea production was elevated twofold. Coculturing also stimulated glycogen deposition; basal synthesis was increased by 30% and the responsiveness toward insulin and glucose was elevated by 100 and 55%, respectively. The insulin-dependent rise in the glucokinase mRNA content was increased twofold in cocultured hepatocytes. It can be concluded that long-term signals from stromal cells maintain hepatocyte differentiation. This coculture model should, therefore, provide the technical basis for the investigation of stroma-derived differentiation factors.     

Changes in the distribution of mitochondria in mouse embryos blocked at the two-cell stage

Changes in the distribution of mitochondria in the two-cell mouse embryos preceding the developmental arrest in vitro, caused by a genetically determined two-cell block in vitro or genisteine treatment, were examined vitally using the mitochondrial-specific probe rhodamine 123 and conventional fluorescence microscopy. In the former case, serious disturbances in the localization of mitochondria appeared already from the middle of two-cell stage, long before the time corresponding to the 2nd cleavage division. Comparison of the behavior of mitochondria in the embryos successfully developing between the one- and two-cell stages and that in the embryos that ceased to cleave suggests that the developmental arrest was accompanied by aggregation of the mitochondria into clusters. There are many such clusters unlike in the cytoplasm of normally developing embryos. Intracellular localization of clusters observed in the genisteine-treated embryos differed radically from that observed in the embryos blocked in vitro at the two-cell stage.Translated from Ontogenez, Vol. 36, No. 1, 2005, pp. 51–60.Original Russian Text Copyright © 2005 by Bogolyubova.     

Growth and fine structure of monolayers derived from adult rat adenohypophyseal cell suspensions

Summary Primary monolayer cell cultures of trypsin-dispersed adult rat adenohypophyses are capable of synthetizing deoxyribonucleic acid and are able to divide at least for 3 weeks. Most cells contain secretory granules in the absence of hypothalamic extracts. It seems possible that granules are formed which mature and are released in vitro.     

Involvement of glycolytic metabolism in developmental inhibition of rat two-cell embryos by phosphate

To elucidate the mechanism by which phosphate induces developmental inhibition of rat 2-cell embryos, we examined the mutual effects of glucose and other glycolytic and non-glycolytic sugars, the non-metabolizable glucose analogue, and glycolytic inhibitors on the inhibitory effect of phosphate. In the absence of glucose, 30-49% of embryos treated with 10-500 microM phosphate were able to develop to morula and blastocysts. On the other hand, in the presence of 5 mM glucose, 10 microM phosphate decreased the developmental rate of 2-cell embryos to the 4-cell stage and completely inhibited the development beyond the 4-cell stage. In contrast, glucose showed no influence on development in phosphate-free medium. Similarly to glucose, the other glycolytic sugars fructose (5 mM) and mannose (5 mM) enhanced the inhibitory effect of 10 microM phosphate but had no influence in the absence of phosphate. In contrast, the non-glycolytic sugar and non-metabolizable glucose analogue N-acetylglucosamine and 3-O-methylglucose (3-O-MGlc), respectively, did not enhance the effects of phosphate. 2-Deoxyglucose (2DGlc), another glucose analogue that is non-metabolizable but is converted by hexokinase to 2DGlc 6-phosphate, at concentrations as low as 0.1 mM completely inhibited cell cycle progression of 2-cell embryos cultured in glucose-free (Glc(-)) medium with 10 microM phosphate. In contrast, in the absence of phosphate, 2DGlc at the same concentration allowed 55% of 2-cell embryos to develop to morula and blastocyst stages. Addition of an inhibitor of enolase in glycolysis, sodium fluoride (NaF), at 1 mM to the Glc(-) medium also enhanced the inhibitory effects of 10 microM phosphate, whereas 1 mM NaF in the absence of phosphate showed no inhibitory effects on the development of 2-cell embryos to morula and blastocyst stages. From these results, disturbance of glycolysis is a critical reason for the developmental inhibition caused by phosphate in early rat embryos in culture.     

A consistently successful procedure for in vitro fertilization of golden hamster eggs

Complete details are described for the first time of the procedures used in the author's laboratory for obtaining in vitro fertilization (IVF) of golden hamster eggs leading to the first cleavage division. These IVF procedures have been developed during the past 20 years and are very reproducible: IVF of at least 75% of eggs is routinely achieved, and on average 65% of inseminated eggs undergo the first cleavage division in vitro. These results can easily be obtained by inexperienced investigators. The ease and reproducibility of the hamster IVF procedures make them very suitable for studies of sperm:egg interaction and associated events. Studies in the author's laboratory have included analysis of sperm fertilizing ability under chemically defined conditions, the presence of sperm acrosome reaction stimulating factors in the egg investments, maturation of oocytes in vitro, the block to polyspermy, and the contribution of egg aging to fertilization anomalies. In addition, the motility of hamster sperm under chemically defined conditions is used in a routine screening protocol for detecting contaminants in the culture milieu. Golden hamster gametes of Ter several distinct advantages for IVF studies, including the large size of the sperm acrosome, the persistence of the very large sperm tail in the ooplasm for many hours following fertilization, and the translucence of the ooplasm, which facilitates observation of the sperm tail and pronuclei. The female golden hamster exhibits a regular 4 day estrous cycle, with distinctive indications of estrus and postestrus phases. Because of the advantages of using the golden hamster, the procedures described in this report may be useful to other investigators wishing to conduct research using IVF. Essentially the same IVF procedures can be used with monkey and bovine gametes.