Inhibition of mitogen activated protein kinase signaling affects gastrulation and spiculogenesis in the sea urchin embryo

The mitogen activated protein (MAP) kinase signaling cascade has been implicated in a wide variety of events during early embryonic development. We investigated the profile of MAP kinase activity during early development in the sea urchin, Strongylocentrotus purpuratus, and tested if disruption of the MAP kinase signaling cascade has any effect on developmental events. MAP kinase undergoes a rapid, transient activation at the early blastula stage. After returning to basal levels, the activity again peaks at early gastrula stage and remains high through the pluteus stage. Immunostaining of early blastula stage embryos using antibodies revealed that a small subset of cells forming a ring at the vegetal plate exhibited active MAP kinase. In gastrula stage embryos, no specific subset of cells expressed enhanced levels of active enzyme. If the signaling cascade was inhibited at any time between the one cell and early blastula stage, gastrulation was delayed, and a significant percentage of embryos underwent exogastrulation. In embryos treated with MAP kinase signaling inhibitors after the blastula stage, gastrulation was normal but spiculogenesis was affected. The data suggest that MAP kinase signaling plays a role in gastrulation and spiculogenesis in sea urchin embryos.     

Mitochondrial profile densities and areas in different developmental stages of the sea urchin Sphaerechinus granularis

Mitochondrial profile densities in electronmicrographs were counted in the swimming blastula, mesenchyme blastula, gastrula and prism stages of the sea urchin embryos Sphaerechinus granularis. No numerical changes were statistically apparent. When profile areas were investigated, the mean values of the swimming blastula, the gastrula and the prism stage showed no statistical differences. However, increased areas were measured in the mesenchyme blastula stage. This increase might be related to an increase of the embryonic volumina in the mesenchyme blastula stage. In contrast to earlier reported data, the results indicate that the mitochondrial density in S. granularis embryos does not alter during development in these stages.     

Insulin and 17-oxycorticosteroids in unfertilized eggs and in embryos of the loach

Loach eggs are stated to possess some quantities of insulin or insulin-like substances with a positive reaction to antiinsulin antiserum. The level of these components is five times as high 30 minutes after fertilization, and does not change for the next 20 hours of the embryo development. No 17-oxycorticosteroids were detected in loach eggs and embryos during first four hours of the development; they appeared only at the blastula stage and at the state of gastrula their level increases considerably. It is supposed that insulin or insulin-like substances participate in metabolism regulation and cell differentiation of fish embryos during early stages of embryogenesis.     

Participation of the GM1 ganglioside in the gastrulation of anuran amphibian Bufo arenarum

In the present paper we established the ganglioside composition of the blastula and gastrula stages of the anuran amphibian Bufo arenarum, two relevant stages characterized by dynamic changes in morphology and cellular rearrangements. Densitometric studies evidenced that GD1a and GT1b were the more abundant gangliosides of the blastula embryos whereas GM1 and GM2 were the predominant species in gastrula embryos. Analysis of ganglioside abundance indicates that the "a" and "b" synthesis pathways perform similar biosynthetic activities in the blastula stage, in contrast to the gastrula stage in which a marked predominance of the "a" pathway occurred. The spatio-temporal expression of GM1 and of polygangliotetraosyl ceramides (pGTC) was investigated by wholemount immunocytochemistry using cholera toxin B subunit (CTB) and an affinity purified human anti-GM1 antibody. The pGTC were detected as GM1 after treatment with neuraminidase. Blastomeres from the inner surface of the blastocoelic roof (BCR) of blastula embryos were GM1 and pGTC positive. At midgastrula stage, embryos showed an increased labeling on the inner surface of BCR. To establish whether the GM1 ganglioside was involved in the gastrulation processes, CTB, anti-GM1 antibodies and anti-GM1 Fab' fragments were microinjected into the blastocoel cavity of blastula embryos. Treatment with the probes blocked gastrulation. Scanning electron microscopy analysis of blocked embryos revealed that mesodermal cell migration, radial interdigitation, and convergent extension movements were affected. The blocking of gastrulation was correlated with the absence of fibronectin and EP3/EP4 on the inner surface of blastocoelic roof of CTB- or anti-GM1 treated embryos. Results show that the GM1 ganglioside is differentially expressed by embryonic cells and participates in the morphogenetic processes of amphibian gastrulation. J. Exp. Zool. 286:457-472, 2000.     

Persistence and expression of circular DNAs encoding Drosophila amylase, bacterial chloramphenicol acetyltransferase, and others in Xenopus laevis embryos

We injected circular forms of several different DNAs into fertilized eggs of Xenopus laevis, and studied the persistence and expression of the injected DNAs during early embryonic development. When we injected plasmids which contained Drosophila amylase genes, the copy number of the injected DNA increased only slightly during cleavage, started to decrease at the blastula stage, then became very small at the tadpole stage. In such embryos, Drosophila amylase activity was detected at and after the gastrula stage. When we injected other kinds of circular DNAs (pX1r101A, cDm2055, pII25.1, pBR322, and pSP-64-L14), their copy number did not increase throughout the early stages. When circular plasmids that contained bacterial chloramphenicol acetyltransferase (CAT) genes were injected, their copy number usually did not increase, but sometimes, for unknown reasons, it increased extensively throughout the blastula to gastrula stages. In both cases, CAT enzyme activity started to be expressed during the blastula to gastrula stages and disappeared at the 2 day-old tadpole stage. The level of CAT enzyme activity was roughly proportional to the amount of CAT mRNA formed, and also to the copy number of injected genes. From these results, we concluded that in Xenopus embryos, exogenously-injected circular DNAs are preserved for the most part as circular DNAs, and that the increase in their copy number within the embryos is not prerequisite for the expression of their genetic information.     

Ultrastructural Study of Changes in Cell Morphology and Extracellular Matrix in Prospective Endodermal Cells of Newt Embryos (Cynops pyrrhogaster) before and during Gastrulation

The cell morphology, cell-to-cell contact behavior and extracellular matrix (ECM) of inner cells (prospective endodermal cells) of newt ( Cynops pyrrhogaster ) embryos were examined from the morula to gastrula stage by light and electron microscopy. The inner cells showed increased cell-to-cell contact from the early blastula to early gastrula stage. The cells formed blebs (5–15 μm in diameter) during the blastula stage, and started to form filopodia and lamellipodia before gastrulation. Alcian blue and lanthanum nitrate treatment revealed ECM components on the cell surface in the early blastula stage and these components increased in amount from the late blastula to early gastrula stage. It is suggested that the increase in ECM components on the cell surface may have some relation with changes in cell-to-cell contact and formation of processes on the cell surface. Besides the cell surface ECM components, glycogen-like granules were observed in intercellular spaces. From the distribution of granules in gastrulae, it is suggested that these may be important in maintaining intercellular spaces for migration of invaginating cells.     

Epibolic extension of the presumptive ectodermal layer of embryos of the newt Cynops pyrrhogaster before and during gastrulation.

Epibolic extension of the presumptive ectodermal layer (PEL) was investigated in embryos of the newt Cynops pyrrhogaster before and during gastrulation. The PEL was composed of only one layer of columnar cells at all stages examined. The cells of the PEL became elongated from the blastula to the early gastrula stage. They were most elongated at the early gastrula stage and then shortened during gastrulation. Present observations suggest that changes in cell shape of the PEL play an important role in the control of the epibolic extension of the newt embryos. The morphology and movement of the isolated cells from the PEL were examined in an attempt to elucidate the role of cell movement in epibolic extension of the PEL. Blebbing and vermiform cells which showed active cell movement appeared at the early blastula stage. The blebbing cells, which formed large hyaline blebs that moved around the circumference of each cell, appeared in large numbers at the early blastula stage. The frequency of the blebbing cells decreased from the early blastula to the early gastrula stage and increased again during gastrulation. The vermiform cells, which had an elongated cell body and moved in a worm-like manner, increased in frequency from the early blastula to the early gastrula stage. The relative number of such vermiform cells was maximal at the early gastrula stage and decreased abruptly during gastrulation. These results suggest that the elongation of the cells of the PEL is controlled by the active cell movement which resembles that of a worm.     

Spawning and maternal‐care behaviours of a copulating sculpin, Radulinopsis taranetzi

The fertilization mode, and spawning and egg‐care behaviours of the sculpin Radulinopsis taranetzi were investigated in the laboratory. Embryonic development began only after the eggs came into contact with sea water. Females spawned c . 1000 eggs and covered them with sand using their pectoral and caudal fins. Unlike other cottids, the females guarded the egg masses after spawning. During the parental period, the supramaxillary lamina and mandibular lamina of females extended to form a disc‐like structure, which was used to 'suck' water from near the surface of the egg mass. The frequency and duration of this 'sucking' behaviour increased gradually until hatching, which occurred after 23–26 days at 8° C. The oxygen consumption of the embryos was positively related to the 'sucking' activity. All females in this study spawned only once during the spawning season, in contrast with the paternal‐care copulating cottids, which are multiple spawners.     

Chromatin proteins from normal,vegetalized, and animalized sea urchin embryos

The chemical composition of the chromatin, the fractional content of histones and nonhistone chromatin proteins (NHP), and the biosynthesis of these proteins in normal, vegetalized, and animalized embryos of the sea urchin Strongylocentrotus droebachiensis at the blastula, mesenchyme blastula, and gastrula stages have been studied. The amount of the NHP in the chromatin from normal and vegetalized embryos increases during early embryonic development while that in animalized embryos remains without change at the mesenchyme blastula stage and then decreases. During development the histone content in all three cases slightly decreases. Polyacrylamide gel electrophoresis reveals that both fractional composition of histones and their biosynthesis in normal, vegetalized, and animalized embryos display no differences. During development, however, some changes occur, so that the relative amount of histones F1 and F2a2 increases, F2b decreases, while F3 and F2a1 remains constant. Histone F1 at the blastula stage consists of two subfractions while at the gastrula stage it consists of three subfractions. The histone F2a1 consists of one and two, respectively. Histone F3 at all stages is made up of three subfractions; histone F2b is made up of two; and the histone F2a2 is electrophoretically homogeneous. Specific radioactivity of the arginine-rich histones F3 and F2a1 tends to increase during development, while that of moderately lysine-rich histones F2b and F2a2 does not change, and that of the lysine-rich histone F1 decreases. The NHP in normal, vegetalized, and animalized embryos at different developmental stages consist of 17 fractions that can be separated by isoelectrofocusing within the 4.5-8.8 pH range. Quantitative changes have been observed in the fractions focused at pH 4.5-6.1 during development and in normal and modified embryos at the gastrula stage.     

人工授精平角涡虫早期胚胎和幼虫的扫描电镜观察

为探明平角涡虫(Planocera reticulata)胚胎发育规律,采用人工授精方法,获得不同发育阶段的无卵外胶膜胚胎,并运用扫描电镜技术,观察了受精卵早期胚胎发育和幼虫发育.结果表明,从第3次卵裂开始表现出螺旋式卵裂的特征.在囊胚时期和原肠时期在动物极顶端有几个卵裂球向内下陷形成一凹陷.浮游幼虫期的幼虫利用体表纤...     

Lipid dynamics in the embryos of Patiriella species (Asteroidea) with divergent modes of development

Evolution of lecithotrophic development in sea stars involved a modification in maternal provisioning from the production of yolk-dominated to lipid-dominated eggs. The dynamics of lipid reserves in the embryos of four Patiriella species differing in their lipid provisions were examined. Patiriella regularis had small yolk protein-dominated eggs (150 microm in diameter) and an ancestral mode of development through planktotrophic larvae. Patiriella calcar, Patiriella exigua and Patiriella pseudoexigua had large eggs (390-440 microm in diameter) and lecithotrophic planktonic, benthic and intragonadal larvae, respectively. Patiriella exigua deposited negatively buoyant eggs containing substantial yolk protein and lipid reserves onto the substratum. In contrast, the planktonic eggs of P. calcar and the intragonadal eggs of P. pseudoexigua were dominated by lipid and were neutrally and positively buoyant, respectively. By the blastula stage there was little trace of lipid in P. regularis embryos. Blastulae of the lecithotrophic developers, by contrast, had conspicuous lipid droplets distributed through their cells. In parallel with the change from cuboidal to columnar epithelium during the blastula to gastrula transition, lipid reserves became redistributed into the basal cytoplasm. The extent of lipid transport reflected the amount of lipid reserves. In P. pseudoexigua embryos with the greatest lipid load, basal shunting was followed by secretion of lipid into the blastocoele where it was stored for the perimetamorphic period. Evolution of lecithotrophy in Patiriella appears to reflect selection to provide metamorphic stages with nutrients normally accrued by feeding larvae with the consequence that early development is burdened by voluminous, potentially inert nutritive stores. Lipid redistribution coincident with a major developmental stage transition may be required to facilitate unimpeded morphogenesis. This phenomenon may be characteristic of lecithotrophic development in echinoderms and appears pre-adaptive for extrusion of lipid in species like P. pseudoexigua with particularly extensive lipid reserves.     

External morphological characteristics during the embryonic development of Portunus pelagicus

The embryonic development of Portunus pelagicus was studied under laboratory conditions at a water temperature of 25-26 Degrees Celsius, salinity of 30, and pH of 7.8-8.4. The embryogenesis of Portunus pelagicus was divided into six stages: cleavage, blastula, gastrula, nauplius, metanauplius, and protozoea. Embryogenesis lasted about 300 h post spawning. Eggs began superficial cleavage about 28 h after spawning when the nucleus appeared at the surface of the egg till the egg divided into 16 cells. The blastula stage was observed about 40 h post spawning and gastrula stage appeared when the presumptive endoderm and other cells near them invaginated. The fourth-stage of embryogenesis, nauplius, was characterized by three pairs of appendages appearing about 90 h post spawning, while metanauplius, the fifth-stage of embryogenesis, was characterized by five pairs of appendages, which appeared about 110 h post spawning. The sixth stage of embryogenesis was protozoea, which was characterized by seven pairs of appendages appearing about 140 h post spawning. The compound eye, heart and pigment cells were also found in the protozoea stage. After the natatory seta formed on the top of maxilliped, the protozoea developed into the zoea at the time of hatching (about 300 h post spawning).     

Changes in the biochemical composition of Euphausia superba Dana embryos during early development

Summary The biochemical composition of developing Euphausia superba Dana embryos has been examined at three stages: fresh spawned, gastrula, and limb bud. Fresh spawn embryos had 31% lipid, 1.0% carbohydrate, and 57% protein on a gram dry weight basis. Throughout development lipids were utilized more slowly than in other crustacean embryos for a total utilization of 37.5%. Overall, 35.6% of the starting protein was utilized. On a weight basis, twice as much protein than lipid was used during development, and it appeared that, energetically, protein and lipid contributed equally to the energetics of the developing embryo. Carbohydrate was evidently a minor substrate in early development, although the level increased 38% during development. Average water content was 86% in fresh spawned embryos and 88% in the gastrula stage. The average dry weight of the embryos throughout development was 30 g. The features of planktonic embryos are contrasted with demersal embryos and the atypical metabolic pattern of krill embryos is discussed.MOA dedicates this paper to the memory of Dr. Mary Alice McWhinnie, for her encouragement during my years at DePaul University and for the opportunity to participate in her research     

Cell surface proteins in the early embryogenesis of Pleurodeles waltlii

Surface proteins in the first embryonic stages (8–32 cells, morula, blastula, early and late gastrula) of Pleurodeles waltlii were selectively labelled by ¹²⁵I using lactoperoxidase and glucose/glucose oxidase. Iodination was effected either on non-dissociated embryos or after their dissociation with EDTA. On the outer surface of non-dissociated embryos the two-dimensional electrophoresis revealed only three groups of ¹²⁵I-labelled proteins which did not change during all studied stages. Quite different results were obtained with the cells of dissociated embryos. In addition to the iodinated proteins of the embryonic outer surface seven major iodinated proteins were identified. These proteins originate from the regions of cell-cell contacts in intact embryo. Their two-dimensional pattern in dissociated cells changes between stages 8–32 cells and morula. The next important difference was observed during gastrulation, which corresponds in Pleurodeles waltlii to the first morphogenetic movements. Therefore the outside and inside cell surfaces of embryo are different already at stage 8–32 cells (and probably earlier), before the first step of morphogenesis. The changes of cell surface proteins at early embryonal development take place inside the embryo, in the regions of cell-cell interactions.     

Accumulation and Distribution of Extracellular Matrix as Revealed by Scanning Electron Microscopy in Freeze-Dried Newt Embryos Before and During Gastrulation

A scanning electron-microscopic study was carried out on the extracellular matrices (ECMs) in freeze-dried newt embryos from the cleavage to the gastrula stage. The results revealed the appearance, accumulation and distribution of two types of ECMs, a fibrillar ECM in the blastocoel and an amorphous ECM on the inner surface of the blastocoelic wall (BW). The fibrillar ECM first appeared in the blastocoel at the cleavage stage and increased notably in quantity at the blastula and gastrula stages. On the other hand, the amorphous ECM was initially detected on the inner surface of the BW at the beginning of gastrulation and it increased in quantity during gastrulation. With the progress of archenteron invagination, the amorphous ECM was found to be deposited in the space between the BW and migrating cells.     

Immunocytochemical localization of epidermal growth factor receptor in early embryos of the Japanese medaka fish (Oryzias latipes)

This study was undertaken to localize epidermal growth factor receptor (EGFR) during early development of Japanese medaka embryos using immunocytochemistry. Specific staining was observed in all stages studied. All of the cells of the embryonic disc from the germinal disc (1 cell) through the late high blastula stages stained moderately for EGFR. Beginning with the flat blastula stage, the surface and lateral cells of the embryonic disc and the cells migrating around the yolk stained intensely for EGFR, and this continued throughout the study period. The presence of the keel at the late gastrula stage did not affect the moderate staining of the majority of the embryonic disc cells. When somites first appeared, the keel region stained less intensely than before, but scattered individual cells stained intensely for EGFR. Embryos with 12 somites had a neural tube that was lightly stained except for a few intensely stained individual cells. The neural tube, notochord and somites in 24-somite embryos lacked immunostaining. However, the surface epithelium, aorta, intestinal epithelium and pronephric duct demonstrated EGFR immunostaining. This study demonstrates that EGFR is present during medaka development and supports the hypothesis that EGFR ligands are important during cleavage, gastrulation and early organogenesis.     

POSSIBLE SIGNIFICANCE OF NUCLEAR VOLUME CHANGE DURING EARLY DEVELOPMENT OF NEWT EMBRYOS

The nuclear volumes at several stages of development were measured on Triturus pyrrhogaster embryos and changes in the fine structure and reactivity towards alkaline fast green of the nuclei were also examined. It was shown that the blastula nuclei were reduced about 80% to reach a constant volume of about 1,400 μm³ by the tail bud stage in ectomesodermal parts of the embryos. In the endoderm, the decrease in the nuclear volume was slightly delayed.
Application of the decreasing rate of nuclear volume, from blastula to gastrula, to a simple model suggested that an amount of material, equivalent to that of a full-sized germinal vesicle, is stored in the egg to support the rapid nuclear divisions during the early phase of development.     

A method of microinjection: delivering monoclonal antibody 1223 into sea urchin embryos.

In this paper, a simpler method of microinjecting sea urchin embryos without using the conventional microinjection chamber designed by Kiehart is reported. A trough was made on a surface of 0.6% agarose gel dissolved in artificial sea water. Approximately fifty hatched embryos could be loaded in the trough and, consequently, swimming embryos were trapped in the trough. Monoclonal antibody (mAB) 1223 which blocks spiculogenesis in vitro was delivered into the blastocoels of sea urchin embryos to test whether this antibody inhibits spiculogenesis in vivo and also, whether this new technique is effective for the microinjection of the sea urchin embryos. The embryos were injected with mAB1223 at the hatched blastula, early mesenchyme blastula and early gastrula stages, and 63%, 90% and 97% of the embryos did not form spicules at the late gastrula stage, respectively. Therefore, mAB1223 was shown to also block spiculogenesis in vivo. From the fact that spiculogenesis occurred at a lower rate when mAB1223 was injected at the hatched blastula stage than at later stages, it may be speculated that endogenous proteases degraded the injected antibodies. Using this technique, extracellular events in the blastocoel or the function of certain molecules expressed in blastocoel can be easily investigated in vivo.     

Fibronectin in the developing sea urchin embryo

The presence of fibronectin in developing sea urchin embryos was studied uing immunofluorescence staining. The fluorescence pattern indicates that fibronectin is found on the cell surfaces and between cells in the blastula and gastrula stages, indicating that it plays a role in cell adhesion. Its presence on invaginating cells also suggests its involvement in morphogenesis during early development.