Inhibition of DNA replication in preimplantation mouse embryos by aphidicolin

The regulation of trophectoderm differentiation in mouse embryos was studied by inhibiting DNA synthesis with aphidicolin, a specific inhibitor of DNA polymerase alpha. Embryos were exposed to aphidicolin (0.5 micrograms/ml) for 16 h at various preimplantation stages and scored for their ability to form a blastocyst and develop beyond the blastocyst stage. Embryos were most sensitive to aphidicolin at the late 4-cell stage and became progressively less sensitive as they developed. Aphidicolin inhibited blastocyst formation by 70%, 100%, 77%, and 24% after treatment at the 2-cell, 4-cell, noncompacted 8-cell, and compacted 8-cell stages, respectively. Although the inhibitory effect of aphidicolin on blastocyst formation decreased markedly as 8-cell embryos underwent compaction, developmental capacity beyond the blastocyst stage was poor after treatment of either noncompacted or compacted 8-cell embryos. Treatment at the morula and early blastocyst stages was less harmful to embryos than treatment at earlier stages but reduced the number of trophoblast outgrowths by interfering with hatching. Autoradiographic analysis showed that during aphidicolin treatment, incorporation of 3H-thymidine was inhibited over 90% at all stages examined, indicating an inhibition of DNA synthesis. Because inhibition of blastocyst formation by aphidicolin decreased at the compacted 8-cell stage, we suggest that approximately the first half of the fourth DNA replication cycle is critical for subsequent blastocyst formation. Furthermore, the poor further development of blastocysts formed after aphidicolin treatment of compacted 8-cell embryos suggests that the DNA replication requirements for initial trophectoderm differentiation are distinct from requirements for further development of blastocysts in vitro.     

Effect of DNA inhibitors upon DNA synthesis and development of Drosophila embryos

Staged wildtype embryos of Drosophila melanogaster were permeabilized and then subjected to a short pulse of either methyl-3H-thymidine, one of four different inhibitors of DNA synthesis (mitomycin C, 5-fluorouracil, nalidixic acid, or 1-beta-D-arabino-furanosylcytosine-5'-monophosphate), or a combination of both. The incorporation of methyl-3H-thymidine into acid insoluble material was at a maximum during the first half-hour of embryogenesis, after which the incorporation dropped to half the initial value and remained constant throughout the remainder of development. There was no correlation between the rate of incorporation of methyl-3H-thymidine into DNA and the known periods of high mitotic activity. The time course of the estimated specific activity of the DNA newly synthesized in vivo closely paralleled the known changes in the DNA polymerase activity determined in vitro. The known periods of high mitotic activity in the embryo (0-3 hours, 5-12 hours) agree with the periods of maximal sensitivity of the embryo to the inhibitors of DNA synthesis. All four DNA inhibitors affected the incorporation of methyl-3H-thymidine into DNA, although they did not affect it in any simplistic manner. Inhibitor treatment during early cleavage stages resulted in arrested development, treatment during late cleavage and blastoderm stages resulted in abnormal development, and treatment during late blastoderm and early gastrula resulted in normal development. The major phenotypic abnormality caused by the inhibitors is an abnormal distribution of blastoderm cells. As judged by the ID50 values, the embryos remained very sensitive to the effects of the inhibitors until the stages of head and body segmentation, when they then very rapidly became insensitive.     

The rate of oxygen consumption during embryogenesis of Lymnaea stagnalis (Gastropoda)

We studied the rate of oxygen consumption by the Lymnaea stagnalis embryos. The rate of oxygen consumption increased consistently during embryogenesis. The volume specific rate of oxygen consumption increased initially from the early cleavage stages until the gastrula stage and then decreased gradually to the eclosion of snails. There are three periods in embryogenesis of L. stagnalis, which differ in the coefficients of allometric dependence between the rate of oxygen consumption and volume of embryos: (1) early embryogenesis, when the increase in the rate of oxygen consumption is not accompanied by the growth of volume of the embryos; (2) larval period (trochophore and veliger stages; exponential coefficient k = 0.514), and (3) postlarval period (exponential coefficient k = 0.206).     

水稻胚胎发育与萌发过程中凝集素的生物合成及其对转录与翻译抑制剂的敏感性

稻胚凝集素(RGL)在开花后7—13天之间合成活性很强,15天以后明显下降。7—13天之间RGL合成相当旺盛是由于这一时期编码RGL的mRNA得到迅速转录,而在开花后15—30天之间以及萌发4小时内RGL的合成主要是由胚分化发育期间(7—13天)所形成的mRNA所指导的。RGL主要在水稻胚胎发育过程中合成、积累,在萌发过程中几乎不表达,所以RGL是胚胎特异的蛋白质。     

Individual growth of the great ramshorn snail <Emphasis Type="Italic">Planorbarius corneus</Emphasis> (Gastropoda,Planorbidae) embryos

Individual growth of the great ramshorn snail Planorbarius corneus has been studied by intravital video imaging. As has been observed, the types of growth change over the embryogenesis. The linear dimensions slightly but in a statistically significant manner decrease during the stages of cleavage to blastula. Starting from the stage of blastula to trochophore, the embryo diameter remains constant to commence increasing at the stage of middle trochophore. During the larval stages (trochophore and veliger), the growth is synchronous (in Dettlaffs, biological time units) for the embryos in both the same clutch and different clutches. The growth at that time is exponential but later desynchronizes in individual clutches. The embryos in eight clutches grew and developed slower and hatched later as compared with the remaining five egg clutches. An accelerated growth follows an asymptomatic pattern according to the von Bertalanffy equation. A retarded growth is describable with a linear equation. The observed differences are likely to be associated with the number of embryos in a clutch. All types of changes in the linear dimensions observed in the great ramshorn snail embryogenesis can be described with the same united equation.     

The rate of oxygen consumption during embryogenesis of Lymnaea stagnalis (Gastropoda)

We studied the rate of oxygen consumption by the Lymnaea stagnalis embryos. The rate of oxygen consumption increased consistently during embryogenesis. The volume specific rate of oxygen consumption increased initially from the early cleavage stages until the gastrula stage and then decreased gradually to the eclosion of snails. There are three periods in embryogenesis of L. stagnalis, which differ in the coefficients of allometric dependence between the rate of oxygen consumption and volume of embryos: (1) early embryogenesis, when the increase in the rate of oxygen consumption is not accompanied by the growth of volume of the embryos; (2) larval period (trochophore and veliger stages; exponential coefficient k = 0.514), and (3) postlarval period (exponential coefficient k = 0.206).     

Synthesis of sulfate donor in developing sea urchin embryos

In sea urchin embryos, synthesis of the sulfate donor, 3′-phosphoadenosine-5′-phosphosulfate (PAPS) begins in late blastula stage, which is a critical stage with respect to the need for sulfate ions. The formation of PAPS is insensitive to actinomycin D but sensitive to puromycin; this suggests the possibility that the PAPS synthesizing system has been maternally programmed during oogenesis. Thiocyanate inhibits the incorporation of sulfate into PAPS.     

The role of MAPK signaling in patterning and establishing axial symmetry in the gastropod Haliotis asinina

Gastropods are members of the Spiralia, a diverse group of invertebrates that share a common early developmental program, which includes spiral cleavage and a larval trochophore stage. The spiral cleavage program results in the division of the embryo into four quadrants. Specification of the dorsal (D) quadrant is intimately linked with body plan organization and in equally cleaving gastropods occurs when one of the vegetal macromeres makes contact with overlying micromeres and receives an inductive signal that activates a MAPK signaling cascade. Following the induction of the 3D macromere, the embryo begins to gastrulate and assumes a bilateral cleavage pattern. Here we inhibit MAPK activation in 3D with U0126 and examine its effect on the formation and patterning of the trochophore, using a suite of territory-specific markers. The head (pretrochal) region appears to maintain quadri-radial symmetry in U0126-treated embryos, supporting a role for MAPK signaling in 3D in establishing dorsoventral polarity in this region. Posterior (posttrochal) structures - larval musculature, shell and foot - fail to develop in MAPK inhibited trochophores. Inhibition of 3D specification by an alternative method - monensin treatment - yields similar abnormal trochophores. However, genes that are normally expressed in the ectodermal structures (shell and foot) are detected in U0126- and monensin-perturbed larvae in patterns that suggest that this region has latent dorsoventral polarity that is manifested even in the absence of D quadrant specification.     

Achromosomal Division of Early Starfish Embryos Cultured in the Presence of Actinomycin D

Embryos of the starfish Asterina pectinifera were examined for their ability to undergo the early events of embryonic development in the presence of actinomycin D, a most widely used inhibitor of RNA synthesis. Fertilized eggs continued to divide eight or nine times in the presence of 25 μg ml⁻¹actinomycin D, although delay of development was observed. Chromatin disintegrated in the blastomeres of actinomycin D-treated embryos specifically at the 32-cell stage and the nucleus was undetectable at later stages. Before the 32-cell stage, RNA synthesis was not affected by the presence of actinomycin D whereas DNA synthesis was severely inhibited. The stage when achromosomal divisions cease and embryos begin to die corresponds to the period just before onset of blastulation, suggesting that the presence of the nucleus and chromosomes is a prerequisite for blastula formation and development beyond the 512-cell stage in this species.     

Dihydroorotic acid dehydrogenase activity in actinomycin-D-treated and normal chick embryos

The effect of actinomycin D on chick embryos cultivated in vitro by New's culturing method was studied. Exposure of chick embryos to actinomycin D (0.05 micrograms/ml) at the primitive streak stage (stage 4; Hamburger and Hamilton) for 6 h showed interference in orotic acid formation. The assay of the enzyme dihydroorotic acid dehydrogenase was carried out in both treated and control embryos. No enzymic activity was observed in actinomycin-D-treated embryos in contrast to the considerable activity in the controls. These observations suggest an interference by actinomycin D in the biogenesis of the enzyme dihydroorotic acid dehydrogenase.     

Cryopreservation of oyster (Crassostrea gigas) embryos

Several critical variables associated with successful cryopreservation of oyster embryos (Crassostrea gigas) were examined. These were 1) embryo developmental stage, 2) kind and concentration of cryoprotectant, 3) equilibration time, and 4) freezing rate. The percentage of survival was scored as the number of recovered embryos that swam actively 12 h after thawing and had developed into veliger stage. The oyster embryos became increasingly susceptible to the cryoprotectants as the concentration was increased and the equilibration time was lengthened. The stage of development appears to be a critical factor for survival of oyster embryos, with trochophore stage embryos more resistant than morula and gastrula stages embryos to cryoprotectant exposure and having better surviving after freezing. The optimum cryoprotectant concentration for the trochophore embryos differed markedly from the morula stage. Cryopreservation of fertilized eggs (2 to 8 cells) was unsuccessful. Varying degrees of success were achieved using gastrula- and trochophore-stage embryos. Maximum survival was obtained when trochophore embryos incubated in 10% propylene glycerol-artificial sea water were cooled at -2.5 degrees C/min to -30 degrees C and were then directly placed into liquid nitrogen. The results showed a clear effect of the stage of development on survival.     

Chronological appearance of spontaneous and induced apoptosis during preimplantation development of rabbit and mouse embryos

This study was undertaken to obtain specific information on the characteristics of spontaneous and induced apoptosis during preimplantation development of rabbit in vivo and in vitro developed embryos and mouse in vitro embryos. After reaching appropriate developmental stages, embryos were transferred into culture media with or without apoptotic inductor (actinomycin D 500 ng/mL) and cultured for 10 h. The identification of apoptotic cells was based on morphological assessment of nuclei and on detection of specific DNA degradation, phosphatidylserine redistribution and active caspase-3 under fluorescence microscope. Our experiments proved that apoptosis is a frequent physiological event occurring during normal preimplantation development. A high number of untreated rabbit and mouse blastocysts contained at least one apoptotic cell. Rabbit embryos showed a lower incidence of spontaneous apoptosis. Treated blastocysts of both species responded to the presence of apoptotic inductor by significant decrease in the average number of blastomeres and significant increase in the incidence of apoptotic cell death. The occurrence of spontaneous apoptosis during earlier preimplantation development was sporadic and its presence was observed only at stages following embryonic genome activation (at 4-cell stage and later in mouse, at 16-cell and morula stage in rabbit). The susceptibility of embryos at early stages to the apoptotic inductor was much lower. The presence of actinomycin D did not increase the incidence of apoptotic embryos or apoptotic cells. Nevertheless, it slowed down embryo growth and triggered earlier appearance of some apoptotic features (at the 6-cell stage in rabbit). The results show that the occurrence of both spontaneous and induced apoptosis in preimplantation embryos is stage- and species-specific.     

Expression of epidermis-specific antigens during embryogenesis of the ascidian, Halocynthia roretzi

We have produced two monoclonal antibodies (Epi-1 and Epi-2) which specifically recognize epidermal cells and their derivative, the larval tunic, of developing embryos of the ascidian Halocynthia roretzi. The antigens, examined by indirect immunofluorescence staining, first appear at the early tailbud stage and are present until at least the swimming larval stage. There were distinct and separate puromycin and actinomycin D sensitivity periods for each antigen. Aphidicolin, a specific inhibitor of DNA synthesis, prevented the appearance of each antigen when embryos were exposed to the drug continuously from cleavage stages. These results suggest that the antigens are synthesized during embryogenesis by developing epidermal cells and that several rounds of DNA replication are required for the antigen expression. Early cleavage stage embryos, including fertilized but unsegmented eggs, in which cytokinesis had been blocked with cytochalasin B expressed the antigens, and blastomeres exhibiting the antigens were always of the epidermis lineage. In partial embryos produced by four separated blastomere pairs of the 8-cell embryos, the expression of antigens was seen only in those developed from the animal blastomere pairs, which are progenitors of epidermal cells. These observations indicate that differentiation of epidermal cells in ascidian embryos takes place in a typical "mosaic" fashion.     

Reactivation of Ribonucleic Acid and Protein Synthesis During Germination of Blastocladiella Zoospores and the Role of the Ribosomal Nuclear Cap

Freshly harvested zoospores of Blastocladiella emersonii begin to germinate about 15 min after inoculation into a defined growth medium at a density of 10(6) zoospores per ml. Flagellum retraction accompanies encystment, and dispersal of the ribosomal nuclear cap takes place shortly thereafter. The primary rhizoid begins to emerge at 25 to 30 min and starts to branch at ca. 60 min. The first nuclear division occurs between 120 and 190 min. The dry weight per cell increases linearly after 60 min, whereas the deoxyribonucleic acid per cell doubles between 120 and 240 min. A linear increase in total ribonucleic acid (RNA) is detectable beginning at 40 to 45 min, and in total protein beginning at 80 min; neither process is interrupted during nuclear division. Encystment and nuclear cap disorganization are associated with a sharp rise in the rates of precursor incorporation into RNA and protein. Cycloheximide at 20 mug/ml prevents leucine incorporation at all stages and inhibits development beyond the earliest encystment stage. Actinomycin D at 25 mug to 50 mug/ml prevents uracil incorporation, but it has no effect on leucine incorporation or development until 40 to 45 min. At the latter stage, actinomycin D causes a sharp developmental arrest and begins to inhibit leucine incorporation. It is concluded that early protein synthesis must occur on the ribosomes formed during the prior growth phase and conserved through the zoospore stage in the nuclear cap. The results further indicate that this synthesis is dependent upon messenger RNA already present in the zoospore before germination.     

ROLE OF NUCLEIC ACID AND PROTEIN METABOLISM IN THE INITIATION OF GROWTH AT GERMINATION

When dry decotyledonized embryos of Raphanus are supplied withwater, a brief period of water absorption (phase A) is followedby a period of no fresh weight increase (phase B) which lastsfor 8 hr at 30°. In this period, embryos become ready toadvance into the period of fresh weight increase (phase C). When embryos were exposed to various concentrations of thiouracilor actinomycin D solution from 0 hr of water supply, increasesin fresh weight and in RNA content measured at 13 hr were inhibitedin parallel with each other. Chloramphenicol and puromycin inhibitedthe fresh weight increase without affecting the RNA increase.When embryos were exposed to thiouracil or puromycin for 2,4 and 6 hr, beginning at 0 hr of water supply, the start ofphase C delayed 2, 4 and 6 hr, respectively. When these drugswere given after phase B had progressed at least for 2 hr, thedelay of the start of phase C was shorter than the period ofthe drug treatment. If given at the end of phase B, thiouraciland actinomycin D inhibited the incorporation of ¹⁴C-uracilbut not the fresh weight increase, while chloramphenicol andpuromycin inhibited the latter without inhibiting the former. During phase B, protein content per dry weight of embryo didnot increase, but the rate of ¹⁴C-leucine incorporation increasedremarkably to reach the level in phase C. Incorporation of labeledleucine was inhibited if embryos were subjected to thiouracilor actinomycin D action during phase B, but not if the drugswere given when phase B had been completed. Puromycin and chloramphenicolinhibited the incorporation whenever they were given. The increase in respiratory activity during phase B was inhibitedrelatively little by the above mentioned four drugs. In conclusion syntheses of RNA and protein seem to be essentialfor the progress of phases B and C, protein synthesis havinga more direct effect. (Received September 17, 1965; )     

Radioautographic and cytofluorimetric analysis of DNA synthesis during the pre-implantation period of rat and mouse embryonic development]

The patterns of DNA synthesis and kinetics of cell population in the rat and mouse embryos were studied by means of 3H-thymidine autoradiography and cytofluorimetry. The rat and mouse embryos during the period of cleavage consist of a heterogenous population of blastomeres. At all the stages under study, all phases of the cell cycle occur in the blastomeres: G1, S, G2 and mitosis. The embryonic cells were distributed into groups containing 2c, 3c, 4c and more DNA. The ratio of cell number in these groups differed in the mouse and rat embryos. The mouse embryos are characterized by the appearance of a considerable amount of polyploid cells in S phase at the morula stage. The stage and species specific quantitative and qualitative patterns were established for DNA synthesis and kinetics of the cell population of blastomeres.     

Chronological appearance of spontaneous and induced apoptosis during preimplantation development of rabbit and mouse embryos

This study was undertaken to obtain specific information on the characteristics of spontaneous and induced apoptosis during preimplantation development of rabbit in vivo and in vitro developed embryos and mouse in vitro embryos. After reaching appropriate developmental stages, embryos were transferred into culture media with or without apoptotic inductor (actinomycin D 500 ng/mL) and cultured for 10 h. The identification of apoptotic cells was based on morphological assessment of nuclei and on detection of specific DNA degradation, phosphatidylserine redistribution and active caspase-3 under fluorescence microscope.Our experiments proved that apoptosis is a frequent physiological event occurring during normal preimplantation development. A high number of untreated rabbit and mouse blastocysts contained at least one apoptotic cell. Rabbit embryos showed a lower incidence of spontaneous apoptosis. Treated blastocysts of both species responded to the presence of apoptotic inductor by significant decrease in the average number of blastomeres and significant increase in the incidence of apoptotic cell death. The occurrence of spontaneous apoptosis during earlier preimplantation development was sporadic and its presence was observed only at stages following embryonic genome activation (at 4-cell stage and later in mouse, at 16-cell and morula stage in rabbit). The susceptibility of embryos at early stages to the apoptotic inductor was much lower. The presence of actinomycin D did not increase the incidence of apoptotic embryos or apoptotic cells. Nevertheless, it slowed down embryo growth and triggered earlier appearance of some apoptotic features (at the 6-cell stage in rabbit). The results show that the occurrence of both spontaneous and induced apoptosis in preimplantation embryos is stage- and species-specific.     

Intracytoplasmic glutathione concentration and the role of beta-mercaptoethanol in preimplantation development of bovine embryos

In vitro-matured/in vitro-fertilized bovine oocytes were cultured on cumulus cell layers in a serum-free medium (bovine embryo culture medium; BECM) supplemented with 3 mg/ml fatty acid-free BSA. The intracytoplasmic glutathione concentration of embryos was found to change significantly (P < 0.008) during the preimplantation stages, beginning to increase at the 9- to 16-cell stage (20.7 pM/embryo) and reaching the highest (P < 0.03) level at the hatched-blastocyst stage (36.7 pM/embryo). A significantly (P < 0.06) lower concentration of glutathione was obtained at the 2- to 8-cell stage (7.1 pM/embryo) than at any other stage. When inseminated oocytes were cultured in BECM supplemented with different concentrations of beta-mercaptoethanol (2-ME) to promote glutathione synthesis, higher (P < 0.05) percentages of embryos developed to the 9- to 16-cell, morula and blastocyst stages at 96, 144 and 192 h post insemination, following the addition of 6.25 and 12.5 microM than after no supplementation with 2-ME. However, when 16-cell embryos were cultured in BECM supplemented with 6.25 and 12.5 microM of 2-ME, blastocyst formation was not significantly (P > 0.9) increased. When the combined effects of 2-ME and/or cumulus cells were compared in a 2 x 2 factorial design, there was a significant (P < 0.03) effect of 2-ME on the development of oocytes to blastocysts. The presence of cumulus cells significantly (P < 0.001) affected development after the fourth cleavage (morula compaction and blastocyst formation), but there was no significant (P > 0.11) interaction between 2-ME and cumulus cells. In conclusion, intracytoplasmic glutathione concentration of bovine embryos derived from in vitro-culture increases during preimplantation development. The glutathione synthesis promoter 2-ME exerts its embryotropic role on the development before the fourth cleavage, thus yielding an improvement in blastocyst formation.