Protein synthesis in microsurgically produced androgenetic and gynogenetic mouse embryos

Summary In order to compare paternal and maternal gene activity at the protein synthesis level during early development, androgenetic and gynogenetic mouse embryos were experimentally produced by microsurgically removing either the female or the male pronucleus from fertilized mouse eggs. The resulting haploid eggs were diploidized in a medium containing cytochalasin B and then cultured under normal conditions to the blastocyst stage. Protein synthesis was analyzed at different stages of preimplantation development using 2-dimensional polyacrylamide gel electrophoresis. Both types of uniparental embryos synthesized a similar set of proteins independent of whether the paternal or the maternal genome was present. The isodiploid embryos expressed a protein pattern that corresponded remarkably to normal embryos at the subsequent cleavage stage. This temporal change is probably due to the fact that the operated haploid eggs were kept overnight in cytochalasin B in order to allow chromosomal replication to occur without cell division, and the resulting eggs therefore corresponded to normal 2-cell embryos with respect to karyokinesis but differed as far as cytokinesis was concerned. Several 2-cell specific proteins appeared in these isodiploid eggs and, similarly, following their first cleavage some 4-cell specific proteins were detected in 2-cell androgenetic and gynogenetic embryos. The discordance between nuclear and cellular division, which was retained through the 4-cell stage, however disappeared during subsequent cleavage divisions. At the blastocyst stage, both kinds of uniparental embryos showed a similar protein pattern compared to normal embryos. Our data suggest that some stage-specific proteins are synthesized during preimplantation development and correspond to nuclear rather than cellular divisions.Some of these results were presented at the 13th Annual Meeting of the Union of Swiss Societies of Experimental Biology in Lausanne, March 1981 (Petzoldt et al. 1981)     

Cyclin B1 levels in the porcine 4-cell stage embryo

The relative quantity of cyclin B1 was determined during the development of in vitro and in vivo derived porcine 4-cell embryos by western blotting and immunolocalised during the 4-cell stage. After cleavage to the 4-cell stage cyclin B1 localised to the cytoplasm at the 5, 10, 18 and 25 time points and localised to the nucleus 33 h post 4-cell cleavage (P4CC). The relative abundance of cyclin B1 was not significantly different in in vivo or in vitro derived 4-cell stage embryos cultured in the absence of the RNA polymerase inhibitor alpha-amanitin. Cyclin B1 protein was not detectable in embryos cultured in medium without alpha-amanitin for 5, 10, 18 or 25 h P4CC followed by culture in medium with alpha-amanitin to 33 P4CC. These results suggest that the maternal to zygotic transition of mRNA production that occurs at the 4-cell stage of the pig embryo does not result in an increase in cyclin B1 production. In addition, cyclin B1 protein levels remained constant in the absence of embryonic genome activation at the 4-cell stage.     

多能性转录因子OCT4和SOX2在体外发育的小鼠2-细胞胚胎的表达与定位

为探讨多能性转录因子OCT4和SOX2在昆明小鼠(Mus musculus)2-细胞胚胎发育过程中与2-细胞胚胎阻滞发生的相关性,本研究应用实时荧光定量PCR技术检测了小鼠卵母细胞及在M16培养液中培养的不同发育阶段体外受精胚Oct4和Sox2基因的表达,并利用实时荧光定量PCR和免疫荧光技术比较了2-细胞胚、2-细胞阻滞胚和4-细胞胚的OCT4和SOX2的表达与定位。采用ANOVA对实验所得的数据进行分析,P0.05被认为是具有显著性差异。研究结果显示,2-细胞胚只有24.8%发育成4-细胞胚,75.2%的2-细胞胚发生了阻滞。Sox2和Oct4的m RNA在MⅡ期卵母细胞、原核胚、2-细胞胚、4-细胞胚、桑椹胚和囊胚中都有表达。Oct4 m RNA的表达水平在4-细胞胚显著高于2-细胞胚和2-细胞阻滞胚(P0.05),Sox2 m RNA的表达水平在2-细胞胚显著高于2-细胞阻滞胚和4-细胞胚(P0.05),而后两者之间没有差异(P0.05)。OCT4蛋白在2-细胞胚和4-细胞胚中与核共定位,但在2-细胞阻滞胚中弥散存在于胞质中。SOX2蛋白在以上3类胚胎中始终定位于细胞核。上述结果提示,转录因子OCT4和SOX2的表达和定位与小鼠2-细胞胚胎发育阻滞相关,母源性SOX2表达的维持对胚胎合子基因组激活(ZGA)的发生具有重要作用,母源性OCT4的异常定位可能影响了合子基因组激活相关基因的激活,而合子中Oct4的表达影响合子基因组激活后胚胎的发育。     

An improved culture medium supports development of random-bred 1-cell mouse embryos in vitro

One-cell CF-1 x B6SJLF1/J embryos, which usually exhibit a 2-cell block to development in vitro, have been cultured to the blastocyst stage using CZB medium and a glucose washing procedure. CZB medium is a further modification of modified BMOC-2 containing an increased lactate/pyruvate ratio of 116, 1 mM-glutamine and 0.1 mM-EDTA but lacking glucose. Continuous culture of one-cell embryos in CZB medium allowed 83% of embryos to develop beyond the 2-cell stage of which 63% were morulae at 72 h of culture, but blastocysts did not develop. However, washing embryos into CZB medium containing glucose after 48 h of culture (3-4-cell stage) was sufficient to allow development to proceed, with 48% of embryos reaching the blastocyst stage by 96 h of culture. Exposure of embryos to glucose was only necessary from the 3-4-cell stage through the early morula stage since washing back into medium CZB without glucose at 72 h of culture still promoted the development of 50% of embryos to the blastocyst stage. The presence of glucose in this medium for the first 48 h of culture (1-cell to 4-cell stage) was detrimental to embryo development. Glutamine, however, exerted a beneficial effect on embryo development from the 1-cell to the 4-cell stage although its presence was not required for development to proceed during the final 48 h of culture. Blastocysts which developed under optimum conditions contained an average of 33.7 total cells. The in-vitro development of 1-cell embryos beyond the 2-cell stage in response to the removal of glucose and the addition of glutamine to the culture medium suggests that glucose may block some essential metabolic process, and that glutamine may be a preferred energy substrate during early development for these mouse embryos.     

Induction of achromosomal cleavage by hydroxyurea in starfish embryo and the reversal by a combination of deoxyadenosine and deoxycytidine: possible involvement of salvage pathway for deoxynucleoside triphosphate biosynthesis in the presence of hydroxyurea

Effects of hydroxyurea, an inhibitor of ribonucleotide reductase, on cleavage of starfish embryos were studied. In the presence of 1 mM hydroxyurea, fertilized eggs of the starfish, Asterina pectinifera, cleaved up to the 256-cell stage and decomposed before blastulation. Before the 16-cell stage, each blastomere contained a normal nucleus or chromosomes with mitotic apparatus. The cleavage after the 16-cell stage was slow compared to the control embryos, and not all blastomeres contained a nucleus or normal chromosomes. During the fifth cell division (between 16-cell- and 32-cell-stage embryos), chromatin mass unassociated with the mitotic apparatus remained near the cleavage furrow. When hydroxyurea was removed before the 16-cell stage, the embryos developed to normal bipinnalia larvae via normal blastulae. However, the embryos were disintegrated before blastulation when hydroxyurea was removed after the 32-cell stage. DNA synthesis was normally observed before the 16-cell stage but not after the 16-cell stage, but dNTP contents in the embryos remained low throughout development in the presence of hydroxyurea. The achromosomal cleavage observed in the presence of hydroxyurea was reversed by the combination of extracellular dAR and dCR. Therefore, it is assumed that the synthesis of dNTPs required for DNA synthesis in the presence of hydroxyurea occurs via the salvage pathway using deoxynucleosides (dNR) (dNR to dNTP via dNMP and dNDP).     

CHANGE IN THE GLYCOGEN CONTENT OF SEA URCHIN EGGS DURING EARLY DEVELOPMENT

During development of eggs of the sea urchins, Pseudocenrotus depressus and Anthocidaris crassispina , the glycogen level is maintained from the time of fertilization to the swimming blastula stage and then decreases rapidly in the early gastrula stage. During development of eggs of Clypeaster japonicus. Hemicentrotus pulcherrimus and Mespilia globulus the glycogen content decreases slowly from the time of fertilization to the mesenchyme blastula stage, and then more rapidly during gastrulation. The amounts of glycogen mobilized in the embryos from the time of fertilization to the morula stage correspond to 67% of the amount of O₂ consumed in Mespilia eggs, 62% in Clypeaster eggs, 30% in Hemicentrotus eggs and 0–4% in Anthocidaris and Pseudocentrotus eggs. The main energy source in early development seems to differ in different species. When eggs and embryos were incubated with [¹⁴C]glucose for 10min, considarable ¹⁴C-radioactivity accumulated in the glycogen fraction. The rate of [¹⁴C]glucose incorporation into glycogen increased gradually during the first 6 hr after fertilization (up to the morula stage), decreases during the next 4 hr (up to the early blastula stage), and then increased again.     

Embryonic development and reproductive seasonality of Buccinanops globulosus (Nassariidae) (Kiener, 1834) in Patagonia,Argentina

Buccinanops globulosus mated all year round, with higher frequency from May to September, prior to spawning months. Gravid females were found between October and March. Oviposition peaked during rising temperatures and longest daylength while hatching peaked with high water temperature and declining daylength. Gravid females measured between 20 and 41?mm in shell length. The spawn consisted on average of 31 egg capsules, each containing 1266 eggs. Embryos usually completed development within each egg capsule by ingesting small fragments of the uncleaved nurse eggs, which were not a limiting resource. Egg capsules with more than one embryo were not common; in those cases, the embryos had different sizes probably related to intracapsular competition for nutrients, and were on average smaller than solitary embryos in the other capsules. Embryos hatched as crawling juveniles with a mean hatchling shell length of ~3.4?mm. In a few cases, malformed embryos were found, but it was not a common phenomenon. The information recorded in this study, as the minimum reproductive size and spawning season, is valuable for fisheries management.     

Platelet derived growth factor (PDGF) stimulates development of bovine embryos during the fourth cell cycle.

In vitro produced, 2-cell bovine embryos were cultured in serum-free medium supplemented with various combinations of growth factors to test the hypothesis that these polypeptide factors are able to signal preimplantation development. The developmental arrest that occurs during the 8-cell stage with typical culture methods might be relieved by a growth factor-dependent mechanism that would stimulate expression of the embryonic genome, thereby mimicking events that occur in vivo in the oviduct during the fourth cell cycle (8- to 16-cell stage). Subsequently, other growth factors might promote compaction and blastulation, processes which normally occur in the uterus. The effects of growth factors on early embryos were evaluated using phase contrast microscopy to monitor progression to the 8-cell stage, completion and duration of the fourth cell cycle, and blastocyst formation. Platelet derived growth factor (PDGF) promoted development beyond the 16-cell stage in 39.1% of the 2-cell embryos examined in all experiments. The duration of the fourth cell cycle among these embryos was approximately 26 hours. During development after the 16-cell stage, PDGF reduced the proportion of embryos bastulating from 12.7% to 5.8%; in contrast, transforming growth factor alpha (TGF alpha), acting during the same developmental time period, increased the proportion of embryos blastulating from 8.6% to 40.6%. These results, using serum-free medium, indicated that PDGF signalled completion of the fourth cell cycle. TGF alpha, and perhaps basic fibroblast growth factor (bFGF), promoted blastulation of 16-cell embryos during subsequent culture.     

蛋白激酶B在小鼠1-细胞期受精卵中活性及表达变化

蛋白激酶B(proteinkinaseB ,PKB)发现于 1991年 ,属于丝 苏氨酸蛋白激酶 .因其激酶活性区的氨基酸序列与蛋白激酶C (proteinkinaseC ,PKC)和蛋白激酶A (proteinkinaseA ,PKA)同源性分别为 73%和 6 8% ,因此命名为PKB ,或PKA和PKC相关激酶(relatedtheAandCkinase ,RACK) [1] .另外 ,PKB被证明为逆转录病毒的癌基因v akt编码的蛋白产物 ,因此PKB又称AKT[2 ] .PKB分子量 6 0kD ,目前已知分为PKBα、β、γ三种 .PKBα广泛存在于机体各组织中 ,其活性受多种信息物质调节 .PKBβ在卵巢癌、胰腺癌细胞中过表达 ,PKBγ在大…     

Analysis of chromatin structure in mouse preimplantation embryos by fluorescent recovery after photobleaching

Zygotes are totipotent cells that have the ability to differentiate into all cell types. It is believed that this ability is lost gradually and differentiation occurs along with the progression of preimplantation development. Here, we hypothesized that the loose chromatin structure is involved in the totipotency of one-cell stage embryos and that the change from loose to tight chromatin structure is associated with the loss of totipotency. To address this hypothesis, we investigated the mobility of eGFP-tagged histone H2B (eGFP-H2B), which is an index for the looseness of chromatin, during preimplantation development based on fluorescent recovery after photobleaching (FRAP) analysis. The highest mobility of eGFP-H2B was observed in pronuclei in 1-cell stage embryos and mobility gradually decreased during preimplantation development. The decrease in mobility between the 1- and 2-cell stages depended on DNA synthesis in 2-cell stage embryos. In nuclear transferred embryos, chromatin in the pseudopronuclei loosened to a level comparable to the pronuclei in 1-cell stage embryos. These results indicated that the mobility of eGFP-H2B is negatively correlated with the degree of differentiation of preimplantation embryos. Therefore, we suggest that highly loosened chromatin is involved in totipotency of 1-cell embryos and the loss of looseness is associated with differentiation during preimplantation development.     

Determination of the dorsal-ventral axis in eggs of Xenopus laevis: Complete rescue of uv-impaired eggs by oblique orientation before first cleavage

Eggs of Xenopus laevis were exposed to ultraviolet (uv) radiation (2537 Å) on the vegetal hemisphere soon after fertilization at doses sufficient to impair greatly the subsequent development of dorsal structures. It was found that temporary orientation of irradiated eggs 90° off the natural vertical axis rescues these eggs, allowing them to develop into normal embryos. Complete rescue results when oblique orientation is initiated well before first cleavage, and eggs remain in this position until the 16-cell stage. Significant rescue is seen, however, in eggs which remain off axis for shorter periods of time or when eggs are obliquely oriented, even after first cleavage. Furthermore, a period of oblique orientation prior to uv irradiation results in insensitivity of eggs to irradiation. Ultraviolet irradiation is found to randomize the position of the dorsal side with respect to the sperm entrance point, whereas the position of the dorsal side of rescued embryos is strongly specified by the orientation of the egg during the rescue period, and not by the sperm entrance point. Other effects of uv irradiation on early development include decreased pigmentation differences among 4-cell stage blastomeres and delayed gastrulation. It is proposed (1) that oblique orientation promotes in irradiated eggs a set of internal rearrangements mimicking those normally accomplished by the unirradiated egg in a period prior to first cleavage and as part of an early dorsalization process, and (2) that the uv-sensitive targets are part of the morphogenic machinery used by the egg for internal rearrangements in this period and are not elements of a system of transmitted particulate dorsal determinants.     

Effects of 5-azacytidine on the development of parthenogenetic mouse embryos

This study describes the effects of 5-azacytidine (5-azaC) on the development of diploid parthenogenetic embryos (PE) of CBA, C57BL/6 and (CBA × C57BL/6)F₁ mice in vitro at the 1-cell or the blastocyst stage or in vivo after implantation. Our findings indicate that genomic imprinting is modulated by genetic background. Non-fertilized C57BL/6 eggs form diploid parthenogenetic blastocysts at a much higher frequency than CBA eggs. Eggs from F₁ hybrid females form parthenogenetic blastocysts at an approximately intermediate level between these inbred strains of mice. C57BL/6 PE do not develop to the somite stages. In contrast, CBA PE and F₁ PE develop to various somite stages. Following administration of 5–azaC at 1.0 μmol/L in vitro at the 1- -cell stage, the number of implantations of C57BL/6 PE transferred to pseudopregnant females increased. In contrast, the number of implantations and somite F₁ PE did not significantly change following exposure to 5–azaC. However, administration of 5-azaC at the 1-cell stage stimulates development of somite F₁ PE. Administration of 5-azaC at 0.2 and 1.0 μmol/L in vitro at the blastocyst stage did not change the number of implantations of C57BL/6 PE. However, the number of implantations and somite CBA PE decreased. After injection of 5azaC at 0.24mg/kg in vivo at day 8 of gestation, some F₁ PE developed to 26–35 somites compared with a maximum of 25 somites in controls. The different effects of 5-azaC on the development of PE depend upon the mouse strain used and the stage of development.     

Cyclin D and cdk4 are required for normal development beyond the blastula stage in sea urchin embryos

cdk4 mRNA and protein are constitutively expressed in sea urchin eggs and throughout embryonic development. In contrast, cyclin D mRNA is barely detectable in eggs and early embryos, when the cell cycles consist of alternating S and M phases. Cyclin D mRNA increases dramatically in embryos at the early blastula stage and remains at a constant level throughout embryogenesis. An increase in cdk4 kinase activity occurs concomitantly with the increase in cyclin D mRNA. Ectopic expression of cyclin D mRNA in eggs arrests development before the 16-cell stage and causes eventual embryonic death, suggesting that activation of cyclin D/cdk4 in cleavage cell cycles is lethal to the embryo. In contrast, blocking cyclin D or cdk4 expression with morpholino antisense oligonucleotides results in normal development of early gastrula-stage embryos but abnormal, asymmetric larvae. These results suggest that in sea urchins, cyclin D and cdk4 are required for normal development and perhaps the patterning of the developing embryo, but may not be directly involved in regulating entry into the cell cycle.     

The Location of Dorsal Information in Frog Early Development

Dorsal information is necessary for the development of the dorsal axial structures which characterize the vertebrates. The nature of dorsal information in early embryos is not known, but its presence is required for the formation of dorsal mesoderm with Spermann organizer activity. In frogs, the dorsoventral axis is specified by a cortical/cytoplasmic rotation in the egg shortly after fertilization, and this dorsal information is limited to a few cells in the equatorial and vegetal region of early cleavage embryos. At the 8-cell stage, 2–4 cells can promote dorsal development, and at the 32-cell stage, 4–6 cells have dorsal information. Recent experiments have shown that growth factors can induce cells to form dorsal mesoderm and that lithium can act in those cells to enhance the induction. It will be important to determine the relationship between the location of dorsal information defined embryologically and factors involved in the development of dorsal mesoderm.     

Effect of visual light on in vitro embryonic development in the hamster

The effect of light exposure during collection and culture of hamster embryos on their subsequent development in vitro was examined. When embryos were collected under dark conditions (70 lux) within 10 minutes and then cultured in a HECM-1 medium in 5% CO(2) in air, the developmental rates of 1-cell embryos to the 4- and 8-cell stages were 88.6% (93 105 ) and 66.7% (70 105 ), respectively. These rates were significantly higher than those under light conditions (1600 lux): 51.9% (56 108 ) and 34.3% (37 108 ). Light irradiation during the culture of 1-cell embryos suppressed subsequent development. The degree of suppression correlated inversely with duration of light irradiation, and light irradiation of 30 minutes or more completely blocked development to the 2-cell stage. When 1-cell embryos were irradiated through a yellow filter, cutting the light wavelengths to less than 500 nm, embryonic development was still suppressed. However, the degree of the suppression varied and 45.7% (53 116 ), 6.0% (7 116 ), and 0.9% (1 116 ) of the embryos developed to the 2-, 4-, and 8-cell stages, respectively, under 30 minute light irradiation. Inhibitory effects of light irradiation on the development of 2- and 8-cell embryos were also observed, showing an inverse correlation with duration; the developmental rates of 2-cell embryos to the 8-cell stage under 0, 10, and 30 minutes of irradiation were 85.6% (107 125 ), 1.6% (2 122 ), and 0% (0 129 ), respectively, and those of 8-cell embryos to the blastocyst stage were 79.8% (91 114 ), 74.8% (86 115 ), and 0% (0 110 ), respectively. These findings indicate that early-stage embryos are sensitive to light exposure; however, severe light exposure adversely affects the development of embryos at any stage. Thus, the protection of embryos from light exposure at all stages of embryo manipulation, from collection to culture, is essential.     

Characterization of deoxyribonucleic acid synthesis and the transition from maternal to embryonic control in the 4-cell porcine embryo.

These studies were conducted to identify the point during the 4-cell stage at which the porcine embryo begins to control development. Reproductive tracts of gilts were flushed 48 h after the onset of estrus to obtain 1- and 2-cell embryos. To determine the duration of the 4-cell stage in vitro, development of 29 embryos was timed from cleavage to the 4-cell stage and from cleavage to the 8-cell stage. The average duration of the 4-cell stage was 50.5 h. The duration of the 4-cell stage was positively correlated (p < 0.01) with culture time in vitro before cleavage to the 4-cell stage. DNA content was determined by using the Feulgen's reaction and quantified with micro-densitometry. Staining units (SU; density x area) were calculated at 0, 2, 4, 6, 8, 10, 12, 16, 20, 24, 30, and 36 h post-cleavage to the 4-cell stage (P4C). Results revealed a possible G1 phase (< 2 h) with DNA synthesis starting within 2 h P4C. DNA synthesis was completed by 16 h P4C, and was followed by an extended G2 phase. Embryos were evaluated for uptake and incorporation of [35S]methionine and for qualitative changes in protein profiles specific to time points during the 4-cell stage (2, 10, 14, 16, 18, 24, 30, and 40 h P4C). Methionine uptake and incorporation into protein followed similar patterns, both decreasing until 16-18 h P4C, followed by a steady increase through the 4-cell stage. Protein profiles revealed qualitative changes beginning at 14 and 16 h P4C.(ABSTRACT TRUNCATED AT 250 WORDS)