小鼠植入前胚胎致密化与囊胚形成的分子调控

哺乳动物胚胎植入前的发育中致密化和囊胚形成分别标志着第一次、第二次细胞分化（即细胞命运决定）的起始,是胚胎正常发育的必要条件。因此对影响致密化和囊胚形成的蛋白及调节因子的研究尤为重要。本文探讨了与致密化相关的细胞黏附蛋白、连接蛋白、细胞骨架等分子和囊胚形成相关的紧密连接蛋白、钠钾三磷酸腺苷激酶等分子的一系列调控,以及致密化和囊胚形成在细胞命运决定中的重要作用。     

Evaluation of cyclooxygenase 2 derived endogenous prostacyclin in mouse preimplantation embryo development in vitro

Cyclooxygenase (COX) plays an important role in prostaglandin (PG) synthesis and has two isoforms, COX1 and COX2. PGI synthase (PGIS) catalyzes the isomeization of PGH(2) to prostacyclin (PGI(2)). It is reported that COX2 derived PGI2(2) plays a critical role in blastocyst implantation and decidualization and PGI2 mediates its function via PPARdelta receptor. It is also known that cyclooxygenase derived prostaglandins play an important role in mouse blastocyst hatching in vitro. In this study we hypothesized that COX2 derived PGI2 plays an important role in preimplantation embryonic development by increasing the cell number. To examine this hypothesis, 8-cell stage mouse embryos were cultured in the presence of selective inhibitors of COX1 (SC560), COX2 (NS398) and PGIS (U51605) respectively. COX2 and PGIS inhibitor significantly reduced the blastocyst development and presence of PGI2 analogue along with these inhibitors restored the blastocyst development by increasing the total number of embryonic cells. Our immunohistochemical analysis showed that COX1 is expressed at 2-cell, 8-cell, compaction and blastocyst stage whereas COX2 expression starts from eight cell stage embryos. PGIS and PPARdelta expression starts at 2-cell stage of development. Our results suggest that PGI(2) may affect blastomeres number via the so called hypothesis of PPARdelta nuclear receptor in autocrine manner.     

A mouse embryo culture system for quality control testing of human in vitro fertilization and embryo transfer media and fetal cord sera

Swiss white mice were superovulated, mated, and sacrificed to recover two-cell embryos that were cultured in Ham's F-10 supplemented with 15% fetal serum. In 16 experiments, media enriched with fetal bovine serum (FBS) supported blastocyst development from 80% ± 19% (mean ± S.D.) of two-cell embryos. Culture media + FBS was the positive control when 74 batches of heat-inactivated human fetal cord serum (hFCS) were tested. Statistical analyses indicated two distinct populations: 49 hFCS promoted blastocyst formation and 25 hFCS grew fewer blastocysts. In five studies, 35/47 two-cell embryos recovered from mice oviducts in media + FBS and immediately incubated formed blastocysts (75% ± 10%). In six comparison studies where the recovered embryos stood at room temperature for 30 minutes before incubation, only 18/57 (29% ± 21%) became blastocysts. When the colony was housed for 1 week in rooms with Shell No Pest Strips as treatment for mites, only 11/125 two-cell embryos became blastocysts (9%). In contrast, animals housed in quarters decontaminated with chlorine bleach had reduced breeding efficiency and produced fewer two-cell embryos. We conclude that (1) Ham's F-10 + FBS is an excellent positive control to test new batches of hFCS; (2) hFCS that supports blastocyst formation from ≥75% of two-cell embryos is adequate for human use; (3) pesticide treatment of breeding colonies and cooling of murine embryos during harvest both impaired in vitro blastocyst development; and (4) chlorine bleach cleansing of animal quarters reduced the number of successful matings.     

Preimplantation embryo development in the mouse: Role of histidine decarboxylase

The present study determines the effect of a specific and an irreversible inhibitor of histidine decarboxylase (HDC), α-fluoromethylhistidine (α-FMH) on the mouse preimplantation embryo development in vitro. The embryo culture technique was used to assess the effect of α-FMH. Embryos recovered at 0800–0900 hr (AM) on day 3 of pregnancy were 4–8 cells, whereas those recovered at 1600–1630 hr were mostly 8-cell compacted embryos. Of the day 3-AM embryos, 81.3 ± 4.3% developed to blastocysts within 48 hr when cultured in the medium alone, but addition of α-FMH (0.19 or 0.38 mM) drastically reduced the blastocyst formation to 26.6 ± 7 or 16.8 ± 4.3%. Most of them were arrested before the compaction stage. Addition of L-histidine, the substrate for HDC, did not alter the inhibition of blastocyst formation in the presence of α-FMH (37.2 ± 10.9%). Of the day 3-PM embryos, 99.3 ± 0.7% developed to blastocyst stage when cultured in the medium alone and addition of α-FMH (0.19 or 0.38 mM) did not affect the embryo development (92.1 ± 4.3 or 81.9 ± 9.9% developed to blastocysts). The birth of healthy young following transfer of these blastocysts into pseudopregnant mice indicates normal development of the embryos under this condition. The results suggest that histamine synthesis may be required for the process of compaction and thus the formation of blastocyst.     

Effects of brefeldin-A and monensin on organelle distribution and morphology in the preimplantation mouse embryo

 The intracellular trafficking of integral membrane and secreted proteins is likely to be a key element involved in the morphogenesis and differentiation of the early mammalian embryo. In this study, we used transmission electron microscopy (TEM) to analyse the effects of brefeldin-A (BFA) and monensin, well known inhibitors of vesicular protein trafficking in somatic cells, on the structure of preimplantation mouse embryos. Both BFA and monensin distinctively altered the morphology of Golgi compartments in the blastomeres of treated morulae. BFA-treated morulae lacked recognizable Golgi complexes but possessed heterogeneous organelle clusters consisting of an abundance of smooth tubular and vesicular membrane compartments in addition to mitochondria, endosomes and lysosomes. Treatment of morulae with monensin was associated with swelling of Golgi compartments in addition to altering the morphology of mitochondria, lysosomes and the plasma membrane. BFA, and to a lesser extent monensin, inhibited cytokinesis as evidenced by the detection of binucleate blastomeres. In addition, BFA induced morulae to decompact. These latter effects have not been reported previously for these agents in mammalian somatic cell lines or other vertebrate or invertebrate embryos. These results provide the first demonstration of the structural effects of BFA and monensin on cells of the early mammalian embryo, some of which are consistent with the known actions of these agents on components of the vesicular protein trafficking system in mammalian somatic cells. This information serves as a foundation for the further use of these agents in studies of vesicular protein trafficking as an agent of preimplantation morphogenesis. Received: 22 April 1996 / Accepted: 4 December 1996     

Protection against reactive oxygen species during mouse preimplantation embryo development: role of EDTA, oxygen tension, catalase, superoxide dismutase and pyruvate

Oxidative damage due to the production of reactive oxygen species (ROS) is one of a number of culture-induced stresses which may compromise preimplantation embryo development in vitro. Ethylenediaminetetraacetic acid (EDTA), reduced oxygen tension, superoxide dismutase (SOD) and catalase (CAT) offer protection against oxidative stress, but few attempts have been made to determine which of these agents, or which combination, is the most effective. In particular, no systematic investigation of their actions and interactions has been made using a multifactorial experimental design. Murine zygotes were cultured in the presence or absence of 10 miccroM EDTA, SOD (100-7,000 U/ml) and CAT (50-100 U/ml) at atmospheric (20%) and reduced (5%) oxygen tensions. Blastocyst formation and hatching rates (at various time points), and cell numbers were recorded, whilst parallel groups of embryos had their consumption of pyruvate, a hydrogen peroxide scavenger, measured. All parameters interacted significantly and affected blastocyst formation, hatching rate and cell numbers but the effect of EDTA was the most pronounced. There were beneficial effects of 5% O2, CAT and SOD, while 20% O2 had a deleterious effect on development. EDTA improved blastocyst formation and hatching rates but paradoxically led to a reduction in cell number. 5% O2 was the next most significant parameter to enhance embryo development and also increased cell numbers. No differences in pyruvate uptake were apparent between the various treatment groups. The results suggest that embryo culture in EDTA-free medium under 5% O2 provides the most practical and physiological conditions for in vitro murine embryo culture.     

The PI3K/Akt pathway is present and functional in the preimplantation mouse embryo

The PI3K/Akt signal transduction pathway is a well-known mediator of growth promoting and cell survival signals. While the expression and function of this pathway have been documented during early and late stages of the reproductive process, currently, there is no evidence demonstrating either the presence or function of the PI3K/Akt pathway in murine preimplantation embryos. We found, using confocal immunofluorescent microscopy and Western blot analysis, that the p 85 and p110 subunits of PI3K and Akt are expressed from the 1-cell through the blastocyst stage of murine preimplantation embryo development. These proteins were localized predominantly at the cell surface from the 1-cell through the morula stage. At a blastocyst stage, both PI3K and Akt exhibited an apical staining pattern in the trophectoderm cells. Interestingly, phosphorylated Akt was detected throughout murine preimplantation development, and its presence at the plasma membrane is a reflection of its activation status. Inhibition of Akt activity had significant effects on the normal physiology of the blastocyst. Specifically, inhibition of this pathway resulted in a reduction in insulin-stimulated glucose uptake. In addition, inhibiting Akt activity resulted in a significant delay in blastocyst hatching, a developmental step facilitating implantation. Finally, we established the presence of this pathway in trophoblast stem (TS) cells, a potentially useful in vitro model to study this signaling cascade. Taken together, these data are the first to demonstrate the presence and function of the PI3K/Akt pathway in mammalian preimplantation embryos.     

Joint effects of sodium chloride,glutamine, and glucose in mouse preimplantation embryo culture media

A new medium, SOM, produced by simplex optimization, has been used to study the joint effects of NaCl, glutamine, and glucose on the development of outbred CF1 mouse zygotes to the blastocyst stage. Contrary to previous reports, glucose has no significant inhibiting effect on development to the blastocyst stage in this medium. Even in the presence of 5 mM glucose, 70% of the embryos develop to at least four cells, and 60% reach the blastocyst stage. Raising the concentration of NaCl from 75 to 125 mM, in the absence of glutamine, progressively inhibits development. Moreover, the response to glutamine depends on the concentration of NaCl in the medium. When the NaCl concentration is low, glutamine inhibits development. In contrast, when the NaCl concentration is high, glutamine protects against the inhibitory effect of the salt. We propose that glutamine protects against high concentrations of NaCl in the medium by acting as an organic osmolyte.     

New member of the Snf1/AMPK kinase family,Melk, is expressed in the mouse egg and preimplantation embryo

The initial phase of mammalian preimplantation development is directed by stored maternal mRNAs and their encoded proteins, yet most of the molecules controlling this process have not been described. We have used differential display analysis of cDNA libraries prepared from unfertilized eggs and preimplantation embryos to isolate three maternal cDNAs that represent novel genes exhibiting different patterns of expression during this developmental period. One of these, Melk, encodes a protein with a kinase catalytic domain and a leucine zipper motif, a new member of the Snf1/AMPK family of kinases. This gene product may play a role in the signal transduction events in the egg and early embryo. Mol. Reprod. Dev. 47:148–156, 1997. © 1997 Wiley-Liss, Inc.     

Origin of cellular asymmetries in the pre-implantation mouse embryo: a hypothesis

The first cell fate decision during mouse development concerns whether a blastomere will contribute to the inner cell mass (ICM; which gives rise to the embryo proper) or to trophectoderm (TE; which gives rise to the placenta). The position of a cell within an 8- to 16-cell-stage embryo correlates with its future fate, with outer cells contributing to TE and inner cells to the ICM. It remains unknown, however, whether an earlier pre-pattern exists. Here, we propose a hypothesis that could account for generation of such a pre-pattern and which is based on epigenetic asymmetry (such as in histone or DNA methylation) between maternal and paternal genomes in the zygote.     

小鼠精原干细胞在三种培养基中的生长行为

目的：建立小鼠精原干细胞（SSCs）的体外长期培养体系。方法：用分别添加了等量的胶质细胞源神经营养因子（GDNF）、可溶性GFRα1和hFGF的DMEM／F12、KSR和StemPro-34 SFM三种无血清培养基和MEF饲养层分别培养经差异贴壁分选富集的小鼠SSCs,通过形态观察、标志基因的RT-PCR和免疫细胞化学分析检测其SSCs本原。结果：DMEM／F12与KSR可支持小鼠SSCs在体外存活6-7d,而StemPro-34 SFM能能维持SSCs体外增值一个月。结论：StemPro-34 SFM支持小鼠SSCs的体外增殖。     

Differential preimplantation development of rhesus monkey embryos in serum-supplemented media

Several media, some augmented with amino acids, have been formulated recently, based on simplex optimization, to support the preimplantation development of mouse embryos. For the highly limited studies on preimplantation development of nonhuman primate embryos, a complex medium (CMRL-1066) has been employed. Our objective was to compare the developmental ability of rhesus monkey embryos in a simple medium containing amino acids, KSOM/AA, with the complex media used previously. Zygotes (99) were recovered following in vitro fertilization (IVF) from six monkeys, allocated to either CMRL or KSOM/AA both containing 10% fetal calf serum (FCS), and monitored daily until reaching the expanded or hatched blastocyst stage. The distribution of cells between the inner cell mass (ICM) and trophectoderm was determined at the end of culture by differential nuclear staining. Although a greater number of embryos cultured in KSOM/AA vs. CMRL developed to the morula stage (80%) and beyond (66% to expanded blastocyst), the differences were not significant. Such embryos in KSOM/AA did, however, develop at a significantly faster rate, on average, reaching the expanded blastocyst stage 26 hr earlier than did embryos cultured in CMRL. KSOM/AA embryos hatched in less time and had a higher percentage (43 vs. 34) of cells allocated to the ICM. These results indicate that a simple medium, KSOM/AA, in the presence of serum, supports the development of rhesus monkey embryos at high efficiency and at a faster rate than that observed for embryos cultured in the complex medium, CMRL-1066. © 1996 Wiley-Liss, Inc.     

Radioactive labeling of proteins in cultured postimplantation mouse embryos I. Influence of the embryo preparation method

Summary Conditions for optimum incorporation of radioactive amino acids into proteins of cultured postimplantation mouse embryos were investigated under the aspect of using these proteins for two-dimensional electrophoretic separations followed by fluorography. The aim was to obtain highly radioactive proteins under conditions as physiological as possible. Embryos at Days 10, 11, and 12 of gestation were prepared in different ways and incubated for 4 h in Tyrode’s solution containing [³H]amino acids (mixture) at a concentration of 27 μCi/ml medium. The preparations were: a) yolk sac opened, placenta and blood circulation intact; (b) yolk sac and amnion opened, placenta and blood circulation intact (Day 10 embryos only); c) placenta, yolk sac, and amnion removed (embryo “naked”); d) naked embryos cut randomly into pieces (Day 10 mebryos only). After incubation whole embryos or certain parts (tail, liver, rest body) were investigated by determining the radioactivity taken up by the protein. The results are given in dpm per mg protein per embryo. Radioactivity of proteins was about 3 times higher in naked mebryos than in embryos left in their yolk sacs. This was true for all three stages investigated. However, the degree of radioactivity in the various parts of naked embryos differed by a factor of 15, whereas radioactivity was evenly distributed in embryos incubated in their yolk sacs. Therefore, embryos prepared according to the first methods (see above) fulfilled the conditions required at the best. This work was supported by grants from the Deutsche Forschungsgemeinschaft awarded to the project K1 237/3-2 (Systematic Analysis of Cell Proteins).