Cytokeratin filament assembly in the preimplantation mouse embryo

The timing, spatial distribution and control of cytokeratin assembly during mouse early development has been studied using a monoclonal antibody, TROMA-1, which recognizes a 55,000 Mr trophectodermal cytokeratin (ENDO A). This protein was first detected in immunoblots at the 4-cell stage, and became more abundant at the 16-cell stage and later. Immunofluorescence analysis revealed assembled cytokeratin filaments in some 8-cell blastomeres, but not at earlier stages. At the 16-cell stage, filaments were found in both polarized (presumptive trophectoderm; TE) and apolar (presumptive inner cell mass; ICM) cells in similar proportions, although polarized cells possessed more filaments than apolar cells. By the late 32-cell, early blastocyst, stage, all polarized (TE) cells contained extensive filament networks whereas cells positioned inside the embryo tended to have lost their filaments. The presence of filaments in inside cells at the 16-cell stage and in ICM cells was confirmed by immunoelectron microscopy. Lineage tracing techniques demonstrated that those cells in the ICM of early blastocysts which did possess filaments were almost exclusively the progeny of polar 16-cell blastomeres, suggesting that these filaments were directly inherited from outside cells at the 16- to 32-cell transition. Inhibitor studies revealed that proximate protein synthesis but not mRNA synthesis is required for filament assembly at the 8-cell stage. These results demonstrate that there are quantitative rather than qualitative differences in the expression of cytokeratin filaments in the inner cell mass and trophectoderm cells of the mouse embryo.     

Effect of lipid polarization by centrifugation at different developmental stages on post-thaw survival of bovine in vitro produced 16-cell embryos

The developmental rate to the blastocyst stage of frozen-thawed bovine in vitro produced embryos at stages earlier than Day 6 morula is not sufficiently high for practical utilization. The present study was undertaken to determine the effect of polarization of lipid droplets in the cytoplasm of bovine in vitro produced embryos from zygotes to the 8-cell stage, by centrifugation without following micromanipulation, on the survival rate of Day 4 16-cell embryos. After centrifugation at 15,500 x g in medium containing cytochalasin D, embryos were cultured to the 16-cell stage, classified as either mostly or partially delipidated by degree of lipid droplet removal, and then frozen. Embryos centrifuged at the 2-cell stage developed to the 16-cell stage similarly to those centrifuged at the 8-cell stage. The developmental rate to blastocysts after freezing of the mostly delipidated 16-cell embryos centrifuged at the 2-cell stage was higher than that of those centrifuged at the zygote stage, those that were partially delipidated at the 2-cell stage, and those that were not centrifuged. The results demonstrate that polarization of lipid droplets at the 2-cell stage by centrifugation without micromanipulation improved the survival rate of mostly delipidated 16-cell embryos after freezing.     

Cyclooxygenases and prostaglandin E synthases in preimplantation mouse embryos

Prostaglandin E2 (PGE2) is shown to be essential for female reproduction. Cyclooxygenase (COX) is a rate-limiting enzyme in prostaglandin synthesis from arachidonic acid and exists in two isoforms: COX-1 and COX-2. Prostaglandin E synthase (PGES) is a terminal prostanoid synthase and can catalyse the isomerization of the COX product PGH2 to PGE2, including microsomal PGES-1 (mPGES-1), cytosolic PGES (cPGES) and mPGES-2. This study examined the protein expression of COX-1, COX-2, mPGES-1, cPGES and mPGES-2 in preimplantation mouse embryos by immunohistochemistry. Embryos at different stages collected from oviducts or uteri were transferred into a flushed oviduct of non-pregnant mice. The oviducts containing embryos were paraffin-embedded and processed for immunostaining. COX-1 immunostaining was at a basal level in zygotes and a low level at the 2-cell stage, reaching a high level from the 4-cell to blastocyst stage. COX-2 immunostaining was at a low level at the zygote stage and was maintained at a high level from the 2-cell to blastocyst stages. A low level of mPGES-1 immunostaining was observed from the zygote to 8-cell stages. The signal for mPGES-1 immunostaining became stronger at the morula stage and was strongly seen at the blastocyst stage. cPGES immunostaining was strongly observed in zygotes, 2-cell and 8-cell embryos. There was a slight decrease in cPGES immunostaining at the 4-cell, morula and blastocyst stages. mPGES-2 immunostaining was at a low level from the zygote to morula stages and at a high level at the blastocyst stage. We found that the COX-1, COX-2, mPGES-1, cPGES and mPGES-2 protein signals were all at a high level at the blastocyst stage. PGE2 produced during the preimplantation development may play roles during embryo transport and implantation.     

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)     

Quantification of basigin mRNA in mouse oocytes and preimplantation embryos by competitive RT-PCR

Basigin is a member of the immunoglobulin superfamily and a key molecule related to mouse blastocyst implantation. Whether preimplantation mouse embryos express basigin mRNA is still unknown. The aim of this study was to use a quantitative competitive polymerase chain reaction to assess quantitatively the levels of basigin mRNA in mouse oocyte and preimplantation embryos. Basigin mRNA was detected in the oocyte and all the stages of preimplantation embryos. The levels of basigin mRNA were 0.0606 +/- 0.0282 in the oocyte, 0.0102 +/- 0.0036 in the zygote, 0.0007 +/- 0.0003 in the 2-cell embryo, 0.0031 +/- 0.0017 in the 4-cell embryo, 0.0084 +/- 0.0024 in the 8-cell embryo, 0.0537 +/- 0.0121 in the morula and 0.0392 +/- 0.0161 attomoles in the blastocyst, respectively. The levels of basigin mRNA in the oocyte, morula and blastocyst were significantly higher than those in the zygote and embryos at the 2-cell, 4-cell and 8-cell stages. The high level of basigin expression in the blastocyst may play a role during embryo implantation.     

Implication of nucleolar protein SURF6 in ribosome biogenesis and preimplantation mouse development

The step-wise assembly of a functional nucleolus, which occurs over the first few cell cycles during preimplantation development, is poorly understood. In this study, we examined the function of the evolutionary conserved nucleolar protein SURF6 in preimplantation mouse embryo development. Immunocytochemical analyses revealed that the localization of SURF6 was similar but not identical to those of fibrillarin and B23/nucleophosmin 1, which are involved in rRNA processing and ribosome biogenesis in mammalian somatic cells. Surf6 mRNA, which is expressed in oocytes and maternally inherited in the zygote, reached a peak level of expression during the 8-cell stage of embryo development, at which time rDNA is highly transcribed. Knock-down of Surf6 mRNA by RNAi led to a decrease in both the mRNA and protein levels, and resulted in developmental arrest at the 8-cell/morula stage, as well as a decrease in the level of 18S rRNA. These results suggest that Surf6 is essential for mouse preimplantation development, presumably by regulating ribosome biogenesis.     

Development of preimplantation goat (Capra hircus) embryos in vivo and in vitro

Preimplantation goat embryos were cultured with or without goat oviduct epithelial cells in Earle's 199 medium + 10% goat serum (E199 + 10%GS), and in three different simple chemically defined media. In-vivo development was characterized by an extended 8- to 16-cell stage followed by a rapid cleavage rate in the next 3 cell cycles. Culture of 1-8-cell embryos in Medium E199 + 10%GS led to cleavage arrest at the 8-16-cell stage, while in the chemically defined media embryos developed poorly and a high percentage failed to pass the 8-16-cell stage. In co-culture, however, a high percentage (77% and 96%) of 1-2-cell and 4-8-cell embryos, respectively, developed beyond the 16-cell stage. In co-culture, 1-2-cell embryos maintained cleavage rates equivalent to those in vivo until the 8-cell stage, but thereafter cell numbers lagged behind those in vivo, and by 168 h after ovulation, cell numbers (+/- s.e.) in vitro were 47.6 +/- 7.9 compared to 238 +/- 27.2 in vivo (t = 6.93, P less than 0.001). The results demonstrate that co-culture of embryos with oviduct cells allows a high percentage of embryos to develop through the period of cleavage arrest, providing a favourable environment for development through the 1-16-cell stages but a less adequate environment for development to the blastocyst stage.     

Expression of maternal and paternal histone genes during early cleavage stages of the echinoderm hybrid Strongylocentrotus purpuratus × Lytechinus pictus

Interspecific hybrids of the sea urchins Strongylocentrotus purpuratus (♀) and Lytechinus pictus (♂) were used to estimate the contributions of the maternal and paternal genomes to histone mRNA synthesis during early development. Radiolabeled histone mRNAs from the two sea urchin species were identified by hybridization to cloned histone genes from both S. purpuratus and L. pictus and shown to be electrophoretically distinguishable. The synthesis of maternal and paternal histone mRNA in these hybrid embryos is evident as early as the two-cell stage. By at least the 16-cell stage, both maternal and paternal histone mRNAs are associated with polysomes. The relative amounts of the maternal and paternal histone mRNAs synthesized by the zygote appear to be similar.     

Studies in vitro on mouse-egg radiosensitivity from fertilization up to the first cleavage

Super-ovulated eggs from the Balb/c strain were incubated, at various times after injection of HCG, in Whitten's medium containing tritiated thymidine. They were fixed on the following day at the 2-cell stage and prepared for autoradiography. On the basis of the results, pregnant mice were irradiated with various doses of X-rays at 15 h post HCG (fertilization), 19 h (phonuclear stage before DNA synthesis), 24 h (maximal DNA synthesis) and 27.5 h (DNA synthesis completed). On the day following irradiation, embryos were collected and classified into incleaved or 2-cell embryos, and development of the 2-cell embryos was followed in culture.

Irradiation was most effective when administered at 19 h after injection of HCG. Such a treatment increased the mortality before the first cleavage and, thereafter, from the 8-cell (100 rad) or morula stage (25, 50 rad). Blastocyst hatching and implantation were also impaired. Irradiation at other times was much less harmful for the embryos, which died mainly from the blastocyst stage. Finally, radiosensitivities of the mouse zygote at the various times studied can be estimated as follows: fertilization, + + +; pronuclear stage before DNA synthesis, + + + + +; maximal DNA synthesis, +; DNA synthesis terminated, + +.     

Synthesis of tubulin and actin during the preimplantation development of the mouse

The relative rates of synthesis of actin and tubulin during mouse preimplantation development have been investigated utilizing O'Farrell's two-dimensional polyacrylamide gel system and internal protein markers. During mouse preimplantation development, rates of protein synthesis remain low and are little changed until the 8-cell stage when a rapid increase is evident. From the 8-cell stage on, a much higher rate of synthesis is maintained. The rate of synthesis of actin remains also at a steady low level in the unfertilized and fertilized ovum. However, by the 8-cell stage actin synthesis has increased 10-fold. Our measurements include the blastocyst, at that point in development actin synthetic rates are almost 90-fold higher than in the unfertilized ovum. While this precipitous increase is proceeding, incorporation of [³H]leucine into total protein increases only 7-fold. Synthesis of actin in the blastocyst represents 5.7% of total protein synthesis. The rate of tubulin synthesis, unlike actin, more closely parallels the increments in total protein synthetic rates. At the blastocyst stage it has increased 14-fold and its synthesis represents almost 2% of total protein synthesis. These results are discussed with reference to some of the physiological changes taking place during preimplantation development.     

Compaction rate of in vitro fertilized bovine embryos related to the interval from insemination to first cleavage

A study was conduced on early cleavage divisions and timing of compaction in bovine preimplantation-stage embryos. Zygotes were produced using conventional in vitro maturation and fertilization procedures. Twenty hours post insemination, the zygotes were denuded and cultured with oviduct epithelial cells in B2 medium + 10% estrous cow serum. Starting at 24 hours post insemination, the embryos (n=657) were evaluated every 6 hours and then were put into different co-culture drops according to their cell number. Starting from 78 hours post insemination, the cleavage rate was evaluated every 12 hours. Embryos were stained with Hoechst 33342 at the compacted morula stage or when they were degenerated, at 162 hours post insemination. Developmentally capable embryos were characterized by a rapid cleavage rate in the first 3 cell cycles and by an extended 8- to 16-cell stage. Peak concentrations of 2-, 4-, 8- and 16-cell stages emerged at 36, 42, 60 and 102 hours post insemination, respectively. Compaction did not occur until 126 hours post insemination. The rate of compaction was significantly higher in embryos that were at the 2-cell stage before or at 36 hours post insemination (P < 0.05). The mean cell numbers of compacted morulae that were identified at 126 and 138 hours post insemination were 30.9 +/- 6.8 and 31.6 +/- 7.7, respectively. These results indicate that developmentally capable bovine embryos reach the 2-cell stage at 36 hours post insemination, and that they become compacted at the 32-cell stage, which usually occurs between 126 and 138 hours post insemination.