Developmental ability of somatic cell nuclear transferred embryos aggregated at the 8-cell stage or 16- to 32-cell stage in cattle

Aggregation of somatic cell nuclear transfer (SCNT) embryos in mice is reported to improve full-term development. In the present study, we attempted to improve the development of SCNT embryos by aggregation in cattle. In Experiment 1, to examine the effect of the timing of aggregation on in vitro development of cumulus-cell NT embryos, we aggregated two or three SCNT embryos (2X or 3X embryos) at the 1-cell, 8-cell and 16- to 32-cell stages. Irrespective of the timing of aggregation, 3X embryos developed to the blastocyst stage at a high rate. However, aggregation did not improve the total blastocyst formation rate of the embryos used. The cell numbers of 3X embryos aggregated at the 1-cell stage and 2X embryos tended to be higher than that of single NT embryos (1X embryos). Furthermore, a significant increase in cell number was observed in 3X embryos aggregated at the 8-cell stage and 16- to 32-cell stage. In Experiment 2, we used fibroblast cells as nuclear donors and examined in vitro development of 3X embryos aggregated at the 8-cell stage and 16- to 32-cell stage. As a result, 3X embryos had high blastocyst formation rates and higher cell numbers than 1X embryos, which was consistent with the results of Experiment 1. In Experiment 3, we examined the full-term developmental ability of 3X embryos aggregated at the 8-cell stage and 16- to 32-cell stage. After transfer of fibroblast-derived NT embryos into recipient animals, a significantly higher pregnancy rate was obtained on Day 60 in 3X embryos than in 1X embryos. Two embryos aggregated at 8-cell stage and one embryo aggregated at the 16- to 32-cell stage developed to term, while no pregnancies derived from 1X embryos that lasted to Day 60. However, two of the cloned calves were stillborn. These results suggest that aggregation of the 8-cell stage or 16- to 32-cell stage SCNT embryos may improve the pregnancy rate, but that it cannot reduce the high incidence of fetal loss and stillbirth, which is often observed in bovine SCNT.     

Interspecies nuclear transfer embryos reconstructed from cat somatic cells and bovine ooplasm

This study was conducted to investigate the developmental capacity of domestic cat-bovine reconstructed embryos via interspecies somatic cell nuclear transfer (iSCNT) and to observe the mitochondrial DNA (mtDNA) content of the iSCNT embryos. The iSCNT embryos were generated using mixed-breed domestic cat fibroblasts as donor cells and enucleated bovine oocytes as the recipient cytoplasm. When the developmental capacities of iSCNT embryos and parthenogenic bovine embryos were compared, there was no difference (P>0.05) in the rates of cleavage and development to the 8-cell stage (86.6 vs. 84.0% and 32.2 vs. 36.2%, respectively). However, in contrast to development of parthenogenic embryos to the morula and blastocyst stages, no iSCNT embryos (0/202) developed beyond the 8-cell stage. For mtDNA analysis, iSCNT embryos at the 1-cell, 2-cell, 4-cell and 8-cell stages were randomly selected. Both cat and bovine mtDNA quantification analysis were performed using quantitative PCR. The levels of both cat and bovine mtDNA in cat-bovine iSCNT embryos varied at each stage of development. The cat mtDNA concentration in the iSCNT embryos was stable from the 1-cell to 8-cell stages. The bovine mtDNA in the iSCNT embryos at the 8-cell stage was significantly lower than that at the 4-cell stage (P<0.05). No difference in the proportions of cat mtDNA in the iSCNT embryos was found in any of the observed developmental stages (1- through 8-cell stages). In conclusion, bovine cytoplasm supports domestic cat nucleus development through the 8-cell stage. The mtDNA genotype of domestic cat-bovine iSCNT embryos illustrates persistence of heteroplasmy, and the reduction in mtDNA content might reflect a developmental block at the 8-cell stage.     

Development of interspecies cloned monkey embryos reconstructed with bovine enucleated oocytes

This study was carried out to determine whether culture media reconstructed with bovine enucleated oocytes and the expression pattern of Oct-4 could support dedifferentiaton of monkey fibroblasts in interspecies cloned monkey embryos. In this study, monkey and bovine skin fibroblasts were used as donor cells for reconstruction with bovine enucleated oocytes. The reconstructed monkey interspecies somatic cell nuclear transfer (iSCNT) embryos were then cultured under six different culture conditions with modifications of the embryo culture media and normal bovine and monkey specifications. The Oct-4 expression patterns of the embryos were examined at the two-cell to blastocyst stages using immunocytochemistry. The monkey iSCNT embryos showed similar cleavage rates to those of bovine SCNT and bovine parthenogenetic activation (PA). However, the monkey iSCNT embryos were not able to develop beyond the 16-cell stage under any of the culture conditions. In monkey and bovine SCNT embryos, Oct-4 could be detected from the two-cell to blastocyst stage, and in bovine PA embryos, Oct-4 was detectable from the morula to blastocyst stage. These results suggested that bovine ooplasm could support dedifferentiation of monkey somatic cell nuclei but could not support embryo development to either the compact morula or blastocyst stage. In conclusion, we found that the culture conditions that tend to enhance monkey iSCNT embryo development and the expression pattern of Oct-4 in cloned embryos (monkey iSCNT and bovine SCNT) are different than in bovine PA embryos.     

Inheritance of histone H3 methylation in reprogramming of somatic nuclei following nuclear transfer

Successful cloning requires reprogramming of epigenetic information of the somatic nucleus to an embryonic state. However, the molecular mechanisms regarding epigenetic reprogramming of the somatic chromatin are unclear. Herein, we transferred NIH3T3 cell nuclei into enucleated mouse oocytes and evaluated the histone H3 dimethyl-lysine 4 (H3K4me2) dynamics by immunocytochemistry. A low level of H3K4me2 in the somatic chromatin was maintained in pseudo-pronuclei. Unlike in vitro fertilized (IVF) embryos, the methylation level of nuclear transfer (NT) embryos was significantly increased at the 8-cell stage. NT embryos showed lower H3K4me2 intensity than IVF embryos at the 2-cell stage, which is when the mouse embryonic genome is activated. Moreover, the H3K4me2 signal was weak in the recloned embryos derived from single blastomeres of the NT embryos, whereas it was intense in those from IVF embryos. Two imprinted genes, U2afbp-rs and Xist, were abnormally transcribed in cloned embryos compared with IVF embryos, and this was partly correlated to the H3K4me2 level. Our results suggest that abnormal reprogramming of epigenetic markers such as histone acetylation and methylation may lead to dysregualtion of gene expression in cloned embryos.     

Improvement of the developmental ability of nuclear transfer embryos by using blastomeres from in vitro fertilized embryos selected according to the early developmental stage and cell division status as donor cells in cattle

This study was conducted to improve the developmental ability of nuclear transfer (NT) embryos by using blastomeres from in vitro fertilized (IVF) embryos with high quality as donor cells. The IVF embryos selected at the 2-cell stage at 24-h postinsemination (hpi) and again at the ≥8-cell stage at 48 hpi (Selected-IVF-embryos) showed the highest blastocyst formation rate among embryos. When blastomeres from the Selected-IVF-embryos (Selected-NT group) or Nonselected-IVF-embryos (Non-selected-NT group) were used as donor cells for NT, the blastocyst formation rate in the Selected-NT group (25.6%) was significantly higher than that in the Non-selected-NT group (13.5%). When blastomeres from the Selected-IVF-embryos at 108 (contained many cells before cell division) and 126 hpi (contained many cells immediately after cell division) were used as donor cells for NT (108- and 126-NT groups, respectively), the 126-NT group showed a significantly higher blastocyst formation rate (32.1%) than the 108-NT group (16.8%). Embryo transfer of blastocysts in the 126-NT group showed that 11 of 23 recipients became pregnant; nine calves were obtained. For the NT embryos reconstructed using in vivo derived embryos, 9 of 20 recipients became pregnant; seven calves were obtained. These results indicate that the blastocyst formation rate of NT embryos can be improved by using blastomeres from IVF embryos selected at the early developmental stage, especially immediately after cell division, and that the resultant NT embryos have a high developmental ability to progress to term that is comparable to NT embryos reconstructed using in vivo derived embryos.     

Cryopreservation and sexing of in vivo- and in vitro-produced bovine embryos for their practical use

My research awarded includes contributions to cryopreservation and sexing of bovine embryos produced in vitro and in vivo, as follows; (1) In vivo-derived morulae and blastocysts were cryopreserved in the presence of 10% glycerol, and the embryos were transferred into recipients after two-step dilution of glycerol in straw, with a practically acceptable pregnancy rate. (2) The survival rate of 16-cell stage embryos frozen in the medium with ethylene glycol was higher than that with DMSO or 1,2-propanediol. Addition of linoleic acid-albumin to culture medium enhanced the survival rate of post-thaw bovine 16-cell stage in vitro-produced (IVP) embryos. (3) Polarization of cytoplasmic lipid droplets by centrifugation of 2-cell stage embryos was found effective to increase freezing tolerance in 16-cell stage embryos developed from the centrifuged embryos, because blastomeres of 16-cell stage embryos were mostly lipid-free. (4) The usefulness of gel-loading tip (GL-Tip) as a container for ultra-rapid vitrification was demonstrated in IVP embryos from 2-cell to blastocyst stages, with a higher in vitro survival than the conventional two-step freezing. (5) PCR analysis for sexing of in vivo-derived Day-7 embryos indicated that male embryos developed faster and graded higher than female embryos. But such correlation between genetic sex and embryonic development was not found in IVP embryos obtained from individual cows. (6) Addition of 0.1-1.0% deproteinized hemodialysate product from calf blood to culture medium increased the producing efficiency of demi-embryos with good quality. Female embryos rather than male embryos required a longer time to repair after bisection. (7) In vivo-derived bovine embryos after biopsy for sexing by PCR analysis and subsequent vitrification using GL-Tips are available to practical use in the field. (8) Introduction of primer extension preamplification-PCR and purification of DNA product before standard sexing PCR of biopsy samples from Day 3-4 in vitro-derived embryos allowed accurate sex determination, and Day-7 blastocysts developed from Day 3-4 embryos were cryopreserved by GL-Tip vitrification without a loss of their viability. Thus the field application of bovine embryo transfer is in part supported by improvements of technologies in embryo cryopreservation and sex pre-determination.     

牛体外受精早期胚胎发育基因差异表达的研究

应用mRNA差异显示技术,对牛卵母细胞、体外培养的牛早期8细胞期和囊胚期胚胎的基因表达进行了研究。选取4条mRNA表达量存在差异的基因条带进行测序和同源性分析,并利用RT-PCR技术粗略检测其在卵母细胞、8细胞和囊胚中的表达水平。结果表明:4个基因分别与核糖体蛋白S4,Y连接1(RPS4Y1)、末端脱氧核苷酰转移酶作用因子2(DNTTIP2)、剪接和多聚腺苷酸化特异因子3(CPSF3)和转录因子AP-2γ(TFAP2C)高度同源。RPS4Y1、DNTTIP2、CPSF3和TFAP2C在牛卵母细胞和早期胚胎发育过程中mRNA表达量存在时间性差异,可能与其参与不同的生理活动有关。     

The blastocyst production rate and incidence of chromosomal abnormalities by developmental stage in in vitro produced porcine embryos

The present study was conducted to determine the relationship between embryonic development speed at different stages (the cleaved stage at 52 h and the blastocyst stage at 6 days post insemination) and incidences of chromosome abnormalities in in vitro produced porcine embryos. Porcine oocytes were collected from 3-6-mm ovarian follicles obtained at a slaughterhouse and matured in modified NCSU-37 medium for 44-46 h. Following in vitro fertilization with a final concentration of 1 x 10(5) sperm/ml for 3 h, all oocytes were cultured in vitro for 52 h. Day-2 (52 h after insemination) embryos were classified according to their cleaved stages into 2-cell, 3- to 4-cell, 5- to 8-cell, and >8-cell stages; these were cultured separately for additional 4 days (Day 6). The resultant Day-6 blastocysts were classified according to the morphological diameter into 3 grades: Grade A, expanded blastocysts; Grade B, expanding blastocysts; and Grade C, early blastocysts. They were then analyzed chromosomally. The 3- to 4-cell and 5- to 8-cell embryos had significantly high blastocyst development rates (46.1 and 36.9%, respectively), and these blastocysts contained significantly more cells (40.2 and 42.4 cells, respectively) than those derived from 2-cell embryos and >8-cell embryos (28.6 and 26.5 cells, respectively). The incidence of chromosomal abnormalities was significantly higher in the blastocysts derived from 2-cell and >8-cell stage embryos than in the blastocysts derived from the other stage embryos. Furthermore, the grade A blastocysts had the lowest incidence of chromosomal abnormalities (35.3%) and contained the most cells (48.7 cells). Porcine in vitro production (IVP) yielded a high blastocyst rate and an excellent embryo quality when 3- to 4-cell and 5- to 8-cell stage embryos were selected on Day 2 after insemination. The same criteria yielded a higher quality of expanded blastocysts based on the stage of embryo development and morphology.     

聚合嵌合法制作黄牛和水牛种间嵌合胚的初步研究

通过聚合嵌合法初步建立一套黄牛和水牛种间嵌合的程序与方法。聚合嵌合法采用链酶蛋白酶消化透明带或用机械剥离法去除透明带，然后在含有100 μg/ml PHA的培养液中聚合形成嵌合胚。结果发现， 8-细胞黄牛胚胎聚合水牛桑椹胚与黄牛囊胚聚合水牛桑椹胚相比，聚合胚存活率和囊胚发育率均无显著差异（P>0.05）。采用显微手术法分离黄牛和水牛8-细胞胚胎卵裂球进行聚合，聚合率为92.3%，囊胚发育率为58.3%，与用0.25%链酶蛋白酶分离胚胎卵裂球进行胚胎聚合的聚合率（86.7%）和囊胚发育率（46.2%）均无显著差异（P>0.05）。以上结果表明：①水牛和黄牛胚胎通过卵裂球聚合获得的种间嵌合胚胎能继续发育；②胚胎聚合前的发育阶段对其聚合成功率和随后的胚胎发育无明显影响。③胚胎卵裂球的分离方法（显微手术法和酶消化法）对其聚合率和囊胚发育率无明显影响。     

Effects of BSA and fetal bovine serum in culture medium on development of rat embryos

Rat 1-cell embryos, recovered from naturally mated females, were cultured in a chemically defined medium (mR1ECM) or in mR1ECM supplemented with BSA (4 mg/ml; mR1ECM-BSA) or fetal bovine serum (FBS; 10%, v:v; mR1ECM-FBS) instead of polyvinylalcohol. There was no difference in percentages of embryos that developed to the 2-cell to blastocyst stages between mR1ECM and mR1ECM-BSA, but in mR1ECM-FBS, no development beyond the 2-cell stage was observed. When embryos were transferred to mR1ECM-FBS from mR1ECM after 24 to 64 h of culture, development of embryos to and beyond the 4-cell stage was inhibited. However, when transferred after 80 h of culture, more embryos developed to blastocysts and hatching or hatched blastocysts than in embryos cultured in mR1ECM. When 8-cell embryos and early morulae obtained after 72 and 80 h of culture in mR1ECM, respectively, were cultured in mR1ECM-FBS, a higher proportion of early morulae developed to the blastocyst stage than did 8-cell embryos. When morulae obtained after culture in mR1ECM or mR1ECM-BSA were transferred to recipient females, there was no difference in proportions of fetuses obtained. However, a higher proportion of blastocysts cultured in mR1ECM-FBS developed to fetuses compared with those obtained in mR1ECM. These results indicate that BSA has neither deleterious nor beneficial effects on development of rat 1-cell embryos. In contrast, FBS has deleterious effects on early cleavage of embryos but it promotes more rapid development of morulae to blastocysts, resulting in better quality blastocysts.     

DNA methylation status of bovine blastocyst embryos obtained from various procedures

DNA methylation is an important factor for the regulation of gene expression in early embryos. It is well known that the satellite I sequence is more heavily methylated in bovine somatic cell nuclear transfer (NT-SC) embryos than in embryos derived from in vitro fertilization (IVF). However, the methylation status of bovine embryos obtained by other procedures is not well known. To clarify DNA methylation levels of bovine embryos obtained from various procedures, we examined satellite I sequences in bovine blastocyst (BC) embryos derived from NT-SC, NT using embryonic blastomeres (NT-EM), in vivo (Vivo), IVF and parthenogenetic treatment (PA). Furthermore, in order to evaluate the efficacy of DNA demethylation by the NT procedure, we determined the DNA methylation levels in bovine embryos in which NT was recapitulated (Re-NT). Although the DNA methylation levels in the NT-SC embryos were higher than those in the other embryos, the NT-EM embryos exhibited lower DNA methylation levels. The satellite I sequence in the NT-SC embryos was more demethylated than that in the donor cells. Although the DNA methylation level in the individual NT-SC embryos showed variation, the full-term developmental efficacy of these embryos were not different. These findings suggest that the methylation level of the satellite I sequence at the BC stage is not related to the abnormalities of bovine embryos produced by NT-SC. There was no difference in methylation levels between Re-NT and NT-SC embryos. Our results indicated that the DNA methylation status differed among embryos produced by various methods and that at least some of the demethylation of the donor cell genome occurred in the recipient cytoplast after NT-SC, but the demethylation ability of the NT procedure was noted in the first NT but not in the second NT.     

Oviduct epithelial cell co-culture of early porcine embryos.

One- to 16-cell porcine embryos were cultured in either Whittens medium supplemented with bovine serum albumin and fetal calf serum (WM) or in the same medium with porcine oviduct epithelial cell co-culture (WM-Poec). All stages of embryos cultured in WM-POEC had higher cell counts after 144-168 h of development than did embryos in WM. There was however, no significant difference in blastocyst formation rate of embryos cultured in WM-POEC over those cultured in WM. A high proportion of the embryos entering culture at the 1-2-cell were able to pass the 4-cell block stage in both WM and WM-POEC, 81% and 77%, respectively. In both media, most of the 1-2-cell embryos arrested their development at the compacted morula stage and failed to blastulate while embryos initiating culture at the 4- and 8-16-cell embryos formed blastocysts in culture at a rate of 80-90%.     

Generation of Buffalo (Bubalus bubalis) Transgenic Chimeric and Nuclear Transfer Embryos Using Embryonic Germ-Like Cells Expressing Enhanced Green Fluorescent Protein

The possibility of producing transgenic buffalo embryos by chimera and nuclear transfer (NT) using buffalo embryonic germ (EG)‐like cells expressing enhanced green fluorescent protein (EGFP) has been explored in this study. Buffalo EG‐like cells and fibroblasts with two to eight passages were transfected with the lined plasmid (pCE‐EGFP‐IRES‐Neo‐dNdB) using Lipofectamine^TM 2000 and selected by culturing in 200 μg/ml G418 for 6–8 days. G418 resistant fibroblasts and EG‐like cells were used for embryo chimera and NT. To produce blastocysts by chimera, 8–16 cells embryos were injected with EG‐like and fibroblast cells. Then, to produce blastocysts by NT, in vitro maturated oocytes were enucleated and afterwards EG‐like/fibroblast cells transferred into the perivitelline space. No statistical differences were observed for the total blastocyst produced by the chimeric method, using EG‐like and fibroblasts as donor cells, resulting on an accomplishment of 35.6% vs 33.3%, respectively. Nevertheless, besides from the 37 blastocysts produced, 23 (62.2%) from EG‐like cells expressed EGFP, none of blastocysts from foetal fibroblasts expressed this protein. When the NT method was used, no statistical difference among different generations was observed in the percentage of oocytes fused, cleaved, and developed to blastocysts after NT for EG‐like cells. On average, the percentage of oocytes fused, cleaved, and developed to blastocysts after NT was respectively 81.8%, 67.7% and 10.7%. For the expression of EGFP, from the 12 blastocysts produced by NT, 7 of them were positive, while none of NT embryos from EGFP positive fibroblasts developed to blastocysts. Results of the present study clearly demonstrated that gene transfected buffalo EG‐like cells have the ability to form chimeric embryos after injecting into buffalo early embryos and reprogramming ability after NT, which can be employed to produce transgenic buffalos through either embryo chimera or NT.     

Chronological Appearance of Apoptosis in Bovine Embryos Reconstructed by Somatic Cell Nuclear Transfer from Quiescent Granulosa Cells

Efficiency of cloning has remained low and in spite of attempts to improve this technology, many reconstructed embryos do not implant or are lost during early pregnancy. Chromosomal aberrations, deviant gene expression patterns and abnormal regulation of cell death may be involved in this increased early embryonic loss. Here, we investigate the chronological onset of both apoptotic changes in nuclear morphology and DNA degradation [detected by transferase-mediated dUTP nick-end labelling (TUNEL) reaction] in bovine two-cell- to blastocyst-stage embryos. Such embryos were generated either by reconstruction with nuclear transfer from quiescent granulosa cells or by regular in vitro embryo production. Nuclear condensation was observed from the two-cell stage and TUNEL labelling was observed from the six-cell stage in reconstructed embryos, whereas nuclear condensation was evident from the eight-cell stage and TUNEL labelling from the 13-cell stage in embryos derived in vitro. Furthermore, reconstructed embryos displayed elevated ratios of embryos containing apoptotic nuclei at pre-compaction stages and higher indices of apoptotic nuclei in morula and blastocyst stages when compared with in vitro-produced embryos.     

秋水仙胺对电融合方法体外制备牛四倍体胚胎的影响

通过添加秋水仙胺从而改善电融合方法体外制备牛四倍体胚胎的过程。首先检测牛早期胚胎的分裂时间,并由此确定于体外受精后26~30h时间段内挑选既同期化且优质的2细胞期胚胎用于电融合。电融合参数选取2次直流电压为0.75kV/Cm且脉冲时间60μs。并通过免疫荧光染色监测电融合后细胞核的重组过程。设立电融合对照组和电融合秋水仙胺处理组,处理组在电融合后随即处理0.05mg/L秋水仙胺6h,后彻底洗涤继续体外培养至囊胚期。处理组的融合率（84.4%vs 84.8%）、分裂率（74.3%vs 77.6%）和囊胚率（36.1%vs 39.4%）皆低于对照组,但差异均不显著。获取的囊胚期胚胎的核型分析结果显示,处理组的四倍体制备率显著高于对照组（59.4%vs 26.9%）。综上所述,对电融合后的胚胎处理0.05mg/L秋水仙胺6h显著提高了牛四倍体电融合方法体外制的备率。     

Stored of Hsp72/Hsp73 in Germinal Vesicle-stage Mouse Oocytes

Heat-shock proteins (hsps) Hsp72 and Hsp73 are the stored maternal proteins found in mouse oocytes. Both hsps appear in mouse oocytes at germinal vesicle (GV) and metaphase II (M-II)-stages as previously demonstrated by immunoblotting analysis. In this report, we further determined the presences of Hsp72/Hsp73 proteins in mouse embryos at stages of 2-pronucleus, arrested 1-cell, 2-cell, arrested 2-cell, 4-cell, arrested 4-cell, 8-cell to morula and blastocyst. Except for the blastocyst stage, the Hsp72/Hsp73 proteins were detectable in most embryo stages. The concentration of Hsp72/Hsp73 in GV-stage oocytes was higher than that in M-II-stage oocytes, and in any stages of embryos before implantation. A dramatical increase in Hsp72/Hsp73 expression was found at the 2-cell stage. Together with these findings, we speculated that hsps accumulated or stored earlier in the GV-stage mouse oocytes to protect the oocytes against environmental influences acting on ovary, and hsps may be required for zygotic gene activation and provided a protective effect against apoptosis.     

Bovine oocytes grown in serum-free medium acquire fertilization competence

We previously found that bovine oocytes 90-99 microm in diameter in early antral follicles grew to nearly their final size in serum-free medium, with some of the oocytes acquiring the nuclear competence to reach the second metaphase. In the present study, we examined the competence of the fertilization and pre-implantational development of the oocytes grown in serum-free medium. Bovine early antral follicles, 0.4-0.7 mm in diameter, were collected mechanically using fine forceps, embedded in collagen gels, and cultured in serum-free medium for 16 days. Grown oocytes which were enclosed by granulosa cells and did not show disintegrated ooplasm were recovered as normal oocytes, were transferred to the maturation medium, and then inseminated with spermatozoa. Ten to 12 h after insemination, 28% (41/145) of the oocytes were penetrated by spermatozoa. Of the penetrated oocytes, 18 (12%) formed a female and a male pronuclei, and 10 (7%) had a female pronucleus and an enlarged sperm head. Among the abnormally penetrated oocytes (13/41), 10 were penetrated by multiple spermatozoa and 3 were penetrated by a spermatozoon at the first metaphase stage. Of the 106 inseminated oocytes grown under serum-free conditions, 8 oocytes had cleaved and developed to the 2-cell stage 48 h after insemination, and 3-4-cell embryos and 5-8-cell embryos were observed after 72-96 h. However, no embryo developed to the blastocyst stage within 8 days. These results indicate that bovine oocytes grown in serum-free medium can be fertilized, but acquire insufficient embryonic development competence under the employed culture conditions.     

The effect of ovary storage and in vitro maturation on mRNA levels in bovine oocytes; a possible impact of maternal ATP1A1 on blastocyst development in slaughterhouse-derived oocytes

Since BSE testing of slaughtered cattle is obligatory in Japan, storage of ovaries at 15-20 C overnight in phosphate buffered saline has become a routine protocol in in vitro production (IVP) of cattle embryos. Ovary storage is known to reduce developmental competence of oocytes; however, its effects on oocyte gene expression have not been clarified yet. This study compared oocytes collected from stored slaughterhouse-derived ovaries with those collected by Ovum Pick-Up (OPU) in terms of the expression of 20 selected genes to determine if ovary storage affects cellular processes at the molecular level. Expression of mRNA in oocytes was assayed before and after in vitro maturation (IVM) by real-time quantitative PCR. Maternal mRNA levels of genes were investigated in 2-cell stage embryos obtained from slaughterhouse oocytes to assess their roles for blastocyst formation. In immature OPU oocytes, genes related to metabolism (GAPDH), transporters (GLUT8, ATP1A1) and stress resistance protein (HSP70) showed significantly higher expression compared with oocytes derived from stored ovaries. During IVM, the expression of GDF9, GLUT8, CTNNB1 and PMSB1 was significantly decreased irrespective of oocyte source. Two-cell stage embryos cleaving at 22-25 h after in vitro fertilization (IVF) showed a significantly higher blastocyst formation rate and ATP1A1 gene expression level compared with those cleaving at 27-30 h after IVF. Our results reveal that storage of ovaries alters mRNA levels in oocytes. Correlation of Na/K ATPase ATP1A1 expression in IVP embryos at the 2-cell and 8-cell stages with their developmental ability to the blastocyst stage may suggest the importance of maternal mRNA of this gene during blastulation in embryos derived from slaughterhouse oocytes.