To establish the optimal culture systems for production of transferable embryos in Korean Cattle, pregnancy rates of IVF-derived blastocysts according to different culture media, culture method and culture duration were compared. Development of IVF-derived embryos to blastocysts was most effective in YS medium group co-cultre with cumulus cells. Blastocysts cultured for 6 to 8 d in vitro showed higher hatching rate and good quality. Pregnancy rates after transfer of IVF-derived blastocysts cultured for 7 or 8 d were high. Through our experiments, it is considered that improvement of culture media and culture method is necessary for mass production of blastocysts with excellent of good quality in Korean Cattle.

The objective of this study was to evaluate the embryonic development ability and the appearance of blastocysts of bovine in vitro fertilized oocytes cultured in different culture media, and also to evaluate survival rate after thawing of frozen embryos by using 1.5 or 1.8M ethylene glycol(EG) with sucrose or trehalose. Fertilized oocytes were divided into three groups; i ) monolayer of cumulus /granulosa cell prepared by TGM 199+5% calf serum(TGM199), ii)GRlaa+5% CS, iii)SOF+5% CS, and they were cultured after insemination for 9 days, at 39˚C, under 5% in air, but SOF+5% CS was cultured at 39˚C, under 5% 02, 5% GO2, 99% N2. Blastocysts derived from GRlaa + 5% CS on day 7~8 after insemination were frozen by using 1.5M EG or 1.8M EG with/without 0.2M sucrose or O.1M trehalose. The development rate of blastocysts on day 7 after insemination in SOF+5% CS was significant higher than in TCM199 or CR1aa(P<0.05). The appearance rate of blastocysts on day 7-8 after insemination was higher than in TCM199, when fertilized oocytes were cultured in GRlas or SOF. The survival rate of frozen blastocysts after thawing tended to increase, when blastocysts were frozen by using 1.8M EG with 0.2M sucrose or O.1M trehalose. These results indicated that SOF or CRlaa media with amino acids was superior to TCM199 with monolayer in terms of blastocyst development in culturing of in vitro fertilized bovine nocytes, and sucrose or trehalose was supposed to prevent embryos from the freezing shock.

생쥐 배반포로부터 내부세포괴(inner cell mass, ICM)를 outgrowth로 분리하여 증식 시킴으로써 배아주(embryonic stem, ES)세포를 확립하고자 본 실험을 실시하였다. 과배란처리와 교미에 의해 생산된 ICR 생쥐의 3.5일 배반포를 sDMEM내의 배아성 섬유아단흥배양층에 배양하여 ICM세포의 증식을 조사한 결과, 3.5일부터 분리한 ICM세포들은 배양 7, 8일에 각각 1,500 및 3,200세포의 미분화세포로 증식하였다.

These experiments were carried out to determine the effect of pregnancy in bisected embryo. The embryos of ICR mouse were microsurgically bisected at morula and blastocyst stage using microsurgical blade attached a micromanipulator. These bisected embryos without zona pellucida were cultured up to blastocyst stage and cell count and diameter of stained blastomere, and transferred pseudopregnant mice. And the development of these bisected embryos was compared with the results of production of young of the corresponding intact embryos or cell stage. When the bisected mouse embryos were cultured in vitro for 20 to 24 hours in morula stage(77.2%) or 3 to 6 hours in blastocyst stage(84.1%), them were developed to the expanded blastocyst stage. There were no significant(P<0.05) differences in the development rate of bisected embryos between in morula and blastocyst stages. The embryo size of blastocyst developed in vitro from bisected embryo was small(P<0.05)than intact embryo. However, the number of blastomeres with bisected embryo (24.7+1.3and 21.5+1.2 respectively) were significantly(P<0.05) reduced, compared with that of intacted embryos(36.3+1.1 and 41.4+1.2 respectively). When compared with the result of pregnancy rate(63.6%) after surgical transfer of bisected morulae, a similar result(65.4%) was obtained with bisected blastocyst stage(P< 0.05). However, production of youngs (38.8%) after transfer of bisected morula, a similar result (38.1%) was obtained with bisected blastocyst stage (P<0.05).

The blastocyst should initiate the dynamic changes in morphology and gene expression during hatching and implantation. Blastocyst morphogenesis includes two major events as the formation of blastocoel cavity for lineage differentiation into trophectoderm and inner cell mass, and the blastocyst hatching for implantation. However, there is little known about the relation of dynamic morphogenesis in blastocyst with hatching and implantation potential. In this study, we investigated effects of the dynamic morphogenesis in blastocyst on hatching and implantation potential by outgrowth assay. The cumulative time between each stages was calculated and analyzed. The feature of contraction was evaluated as follows: the number of contractions and the period of circumference was measured. The percentage of reduction during contraction was classified as weak when it was less than 20% and as strong when 20% or more. Compared to embryos of hatching group, embryos of non-hatching group were significantly delayed time at the compacted morula stage by 375.3 min (p<0.05) and at the early blastocyst stage by 650.1 min (p<0.01), respectively. Compared to blastocysts of outgrowth group, blastocysts of non-outgrowth group were significantly delayed at the compacted morula by 404.0 min (p<0.01) and at the early blastocyst stage by 535.4 min (p<0.01), respectively. There is no significant difference in the feature of contraction between hatching and non-hatching groups. However, blastocyst of outgrowth group showed more number of weak contraction and less number of strong contractions, compared with blastocysts of non-outgrowth group (p<0.01). Period of circumference was not significantly different in hatching and outgrowth process. These results suggested that time of blastocoel formation and number of weak contraction in blastocysts were closely related to hatching and outgrowth potential. Dynamic changes of blastocyst formation and contraction could be useful markers to select embryos for predicting the success implantation and pregnancy in human ART program.

In particular, maternal prostacyclin (PGI2) is critical for embryo implantation and the action of PGI2 is not mediated via its G protein-coupled membrane receptor, IP, but its nuclear receptor, peroxisome proliferator-activated receptor δ (PPARδ). Recently, several studies have shown that PGI2 enhances blastocyst development and/or hatching rate in vitro, and subsequently implantation and live birth rates in mice. However, the mechanism by which PGI2 improves preimplantation embryo development in vitro remains unclear. Using molecular, pharmacologic and genetic approaches, we show that PGI2-induced PPARδ activation accelerates blastocyst hatching in mice. mRNAs for PPARδ, RXRs (heterodimeric partners of PPARδ) and PGI2 synthase are temporally induced after zygotic gene activation and their expression reaches maximum levels at the blastocyst stage, suggesting that functional complex of PPARδ can be formed in the blastocyst. Carbaprostacyclin (cPGI, a stable analogue of PGI2) and GW501516 (a PPARδ selective agonist) significantly accelerated blastocyst hatching but did not increase total cell number of cultured blastocysts. Whereas U51605 (a PGIS inhibitor) interfered with blastocyst hatching, GW501516 restored U51605-induced retarded hatching. In contrast to improvement of blastocyst hatching by PPARδ agonists, PPAR antagonists significantly inhibited blastocyst hatching. Furthermore, deletion of PPARδ at early stages of preimplantation mouse embryos caused delay of blastocyst hatching, but did not impair blastocyst development. Taken together, PGI2-induced PPARδ activation accelerates blastocyst hatching in mice.

Early pregnancy loss in humans, which often occurs due to defects that occur before, during or immediately after implantation, is a worldwide social and economic concern. For successful implantation to occur in the receptive uterus, the blastocyst must also attain implantation competency. The first evidence that the state of activity of the blastocyst determines the “window” of implantation in the receptive uterus was derived from reciprocal blastocyst transfer experiments in a delayed implantation mouse model. This model is a powerful approach to define the molecular signaling components that direct blastocyst activation or dormancy. Nearly 100 mammals in seven different orders undergo delayed implantation, but the underlying mechanism remains largely unknown. There is evidence that catecholestrogens produced from primary estrogens in the uterus activate blastocysts. Another lipid signaling molecule that targets blastocysts is an endocannabinoid anandamide, which activates G-protein coupled cannabinoid receptors CB1 and CB2. Expression of CB1 in the Tr, and uterine synthesis of anandamide, suggest that endocannabinoid signaling is critical to implantation in mice. Levels of uterine anandamide and blastocyst CB1 are coordinately downregulated with the attainment of uterine receptivity and blastocyst activation, respectively, in contrast to their elevated levels in the nonreceptive uterus and dormant blastocysts. Anandamide regulates blastocyst function by differentially modulating MAPK signaling and Ca2+channelactivityviaCB1. Using delayed implantation model, a global gene expression study showed that these two different physiological states of the blastocyst are molecularly distinguishable. The main functional categories of altered genes include cell cycle, cell signaling and energy metabolic pathways. This study also showed an upregulated expression of heparin-binding EGF-like growth factor (HB-EGF) in activated blastocysts and is complementary to earlier reports of upregulated expression of its receptor ErbB1 and ErbB4 in similar blastocysts. Recently, we demonstrated that silencing of Wnt-beta-catenin signaling in mice does not adversely affect the development of preimplantation embryos to blastocysts and uterine preparation for receptivity, but, remarkably, blocks blastocyst competency to implantation. A coordinated activation of canonical Wnt-beta-catenin signaling with Cox-2-PPARd signaling pathway ensures blastocyst competency to implantation. These findings constitute novel evidence that Wnt signaling is at least one pathway that determines blastocyst competency for implantation. More insight into the molecular basis of blastocyst competency for implantation might help to improve pregnancy rates in human IVF programs.

Lipid metabolites involved in cellular regulation as signaling mediators. Prostaglandins (PGs), metabolites of lipid are involved to pregnancy at the time of implantation but the functional roles of PGs on embryo development are still controversy and largely unknown. In previous report, the levels of and at embryos of morula stage and blastocyst stage were explored (Cheon et al., 1998). In this study, the previous suggestion was confirmed and the possible downstream mediator of prostaglandin and prostaglandin on the expansion and hatching of mouse embryo was examined. As expected, developmental rate of the blastocyst to expanded stage was a concentration-response curve that showed the highest expansion rate at 10 , but at 100 , the rate was decreased. In contrast to the , stimulated expansion without toxicity at highest concentration. Cotreatment of PGs with indomethacin overcame the inhibitory effects of indomethacin in expansion. Exogenous PGs also improved the development of expanded embryos to the hatching stage. Besides, PGs receptors' transcripts detected at blastocyst. was caused of calcium fluctuation in the blastocyst but did not. The changes of intracellular calcium concentration were different between indomethacin pretreated embryos and non-treated embryos. Based on these results it is suggested that PGs work as paracrine and/or autocrine factors through calcium and the others which were not identified in this study.

포배의 분화는 배아의 착상에 있어 핵심적인 단계로 배아 자체 또는 생식수관에서 유래하는 조절요인의 조절을 받는다. 이들 조절요인과 포배와의 순차적인 신호의 주고 받음은 분화의 중요한 단계로 인식되고 있다. 한편, 포배기 때 자유 칼슘을 통한 신호전달경로가 포배의 분화에 중요한 축의 하나로 제안되어 왔다. Concanavalin A(Con A)가 포배의 자유 칼슘 농도 증감을 유도한다는 것을 밝혀졌으나, 포배 내 자유 칼슘 농도를 변형시켜 부화와 그 이후의 발생을 촉진하는 것으로 알려진 heparin-binding epidermal growth factor-like growth factor(HB-EGF)와는 달리 팽창 이후의 부화를 억제하였다. 따라서 본 연구에서는 착상과정에서 중요한 역할을 하는 것으로 알려진 prostaglandin E2(PGE2)가 포배의 분화에 관여하는지를 Con A와 연계하여 알아보았다. Con A는 그 처리 시간에 관계없이 1시간 처리군 그리고 계속처리군에서 팽창은 촉진하고 부화는 유의하게 억제하였다. 특히 계속처리군에서 부화율이 1시간 처리군에 비하여 유의하게 감소하였다. 또한, PGE2도 포배 내 자율 칼슘 농도를 증가시켰으나 팽창과 부화를 촉진하지 않았다. 또한, 10 ㎛ PGE2 농도에서는 부화가 억제되는 경향을 보였다. 그러나 흥미롭게도 PGE2는 Con A가 처리된 포배의 부화를 촉진하였다. Con A를 전처리한 포배에 PGE2를 처리할 경우 포배 내 자유 칼슘의 농도 증감이 진행됨을 공촛점현미경을 이용하여 분석할 수 있었다. 이러한 결과는 신호물질에 의해 유도된 자유 칼슘 농도의 증감이 신호물질에 따른 각기 다른 칼슘 매개로 활성화되는 신호경로를 조절하는 것을 추정할 수 있다. 또한, 순차적 신호물질 조절에 의한 자유 칼슘의 농도 증감이 포배의 분화에 있어 중요함을 제안한다.

배반포 단계의 난자에서 차이 나게 발현하는 유전자의 발굴을 통해 초기 동물 발생과 분화에 관한 기전을 알 수 있다. 본 연구에서는 새로운 차별발현 역전사효소중합법, 이름하여 에닐링 콘트롤 프라이머(ACP) 방법에 의해 생쥐 배반포에서 차이 나게 발현하는 유전자를 줄기세포와 비교하여 발굴하였다. 총 100개의 ACP를 사용하여 26개의 유전자 단편을 확인하였고, BLAST 탐색에 의해 유전자 정보 은행(GeneBank/EMBL)에 저장된 유전자와 동일하다