Immunocytochemical study of the distribution of a ganglioside in sea urchin eggs.

An antibody against M5 ganglioside (NeuGc alpha 2-6Glc beta 1-1Cer), the dominant ganglioside in the eggs of the sea urchin, Anthocidaris crassispina, was purified by affinity chromatography from rabbit antiserum against crude ganglioside of the eggs. The specificity of the antibody was verified by enzyme-linked immunosorbent assay and TLC immunostaining. M5 ganglioside was also the major one in the eggs of another sea urchin, Hemicentrotus pulcherrimus, as judged from TLC analyses including immunostaining. Cryostat-sections of H. pulcherrimus eggs were examined to determine the distribution of M5 ganglioside by indirect immunofluorescence microscopy with the antibody. Before fertilization, the egg cortex was highly stained, while the other part of cytoplasm was uniformly but much more weakly stained. After fertilization, the staining rapidly decreased in the cortex and was restricted to a very thin peripheral layer and to cytoplasmic patches. The immunoreactivity was also observed in the esophagus and the somatic cells of the testis, but the spermatozoa were never stained with the antibody.     

Localization of an Exogastrula-Inducing Peptide (EGIP) in Embryos of the Sea Urchin Anthocidaris crassispina

Exogastrula-inducing peptides (EGIPs) are present in the unfertilized eggs and embryos of the sea urchin Anthocidaris crassispina . They induce exogastrulation when added exogenously to the embryos. The localization of EGIP-D during embryogenesis has been explored using polyclonal antibodies against EGIP-D. Immunofluorescent staining revealed that EGIP-D is stored in the cytoplasm of immature oocytes and is concentrated into vesicles in unfertilized eggs. At fertilization, the vesicles containing EGIP-D (EGIP-vesicles) migrate to the cortical surface of the zygotes and are distributed in a ring-like pattern at the apical surface of blastomeres, disappearing from basal surfaces and those adjacent to neighboring cells, during development from cleavage stages to larval stages. Mesenchyme cells also contain the vesicles but no such polarized distribution of vesicles is apparent. Acidic vesicles with a similar polarized distribution were examined by staining with acridine orange, which revealed that acidic vesicles were in close proximity to the surface of eggs at fertilization and were then distributed in a ring-like pattern at the apical surface of blastomeres as are the EGIP-vesicles. Furthermore, immunoelectron microscopy revealed that EGIP-D is present in vesicles that are located at the apical surface of blastomeres. The significance of the localized distribution of EGIP-D is discussed in relation to its function.     

Immunofluorescence studies on cartilage matrix synthesis : The synthesis of link protein, chondroitin sulfate proteoglycan monomer and type II collagen

A comparison of the synthesis and deposition of fibrous type II collagen and the constituents of chondroitin sulfate proteoglycan (CSPG) aggregates, CSPG monomer and link protein, was made for chicken sternal chondrocytes in culture, using simultaneous double immunofluorescence and lectin localization. Chondrocytes deposited only CSPG constituents--and not type II collagen--into the extracellular matrix (ECM). Intracellular precursors of CSPG monomer were localized primarily in perinuclear regions, but were observed in other cytoplasmic vesicles as well. Link protein antibodies stained the same intracellular structures, but stained the perinuclear cytoplasm less intensely. In contrast, type II procollagen was distributed in vesicles throughout the cytoplasm and was clearly absent from the distinctive, CSPG precursor-containing vesicles. Fluorescence-labelled lectins were used to further identify intracellular membrane compartments. Wheat germ agglutinin (WGA) and Ricinus lectins (which recognize carbohydrates added in the Golgi) stained the perinuclear cytoplasm, while concanavalin A (conA) (which recognizes mannose-rich oligosaccharides added co-translationally) stained vesicles throughout the rest of the cytoplasm and not the perinuclear cytoplasm. The distinctive CSPG-containing vesicles were not stained with WGA or Ricinus agglutinins. Data presented elsewhere demonstrate that the vesicles do not react with monoclonal antibodies which recognize chondroitin sulfate (CS) or keratan sulfate (KS) determinants. Thus, we conclude that the vesicles accumulate CSPG precursors which have not been modified by Golgi-mediated processes. The data indicate that matrix molecules may be segregated selectively prior to transit through the Golgi complex. The co-distribution of link protein and CSPG monomer precursors in vesicles prior to further, Golgi-mediated modification may reflect an as yet undetermined function of these vesicles in the processing or assembly of CSPG.     

'Nectosome': a novel cytoplasmic vesicle containing nectin in the egg of the sea urchin, Temnopleurus hardwickii

Localization of an extracellular matrix protein, Th-nectin, in the eggs and embryos of the sea urchin Temnopleurus hardwickii was examined by both immunofluorescence and immunoelectron microscopy. The protein is associated with a tubular structure packaged in rod-shaped vesicles that were designated as 'nectosomes'. In unfertilized eggs, nectosomes are distributed uniformly throughout the cytoplasm, but after fertilization, they gradually translocate to the cortical zone where they are arranged perpendicular to the plasma membrane. The migration of the nectosomes was strongly inhibited by cytochalasin B, which suggested that microfilaments play an important role in this process. Immunocytochemical and immunoblotting analyses both ascertained that nectin is secreted into the hyaline layer. Some nectosomes remain in the apical cytoplasm of dermal cells until the gastrula stage. Ultrastructural examination revealed that the accumulation of nectosomes in the oocyte cytoplasm begins quite early in oogenesis, concomitant with the accumulation of cortical vesicles.     

Examination of living and fixed gametes and early embryos stained with supravital fluorochromes (Hoechst 33342 and 3,3′-dihexyloxacarbocyanine iodide)

We have examined living and fixed gametes and early embryos of surf clams, sea urchins, and hamsters stained with the supravital dyes Hoechst 33342 for DNA and 3,3′-dihexyloxacarbocyanine iodide (DIOC₆) for mitochondria and endoplasmic reticulum. Hoechst staining (10 μM) was confined exclusively to egg and sperm chromatin and, in living marine specimens, did not interfere with sperm motility, fertilization, or nuclear activity during meiosis or early embryogenesis. Although Hoechst staining did not appear to affect the motility of hamster sperm, only zonae-free eggs inseminated. Because chromatin retained Hoechst 33342 stain during fertilization, the paternally and maternally derived chromosomes of living and fixed preparations fluoresced and their number, organization, and location within the zygote cytoplasm could be determined. Hence, polyspermy and other nuclear abnormalities were amenable to examination in these stained preparations. DIOC₆ staining (8.7 μM) was restricted primarily to the mitochondria of spermatozoa. Eggs stained with DIOC₆ (0.87 to 8.7 μM) were brightly fluorescent because of their size and the presence of large numbers of mitochondria and other DIOC₆-positive organelles. Sea urchin and surf clam sperm stained with DIOC₆ fertilized unstained eggs and the location of the incorporated sperm mitochondrion up to first cleavage was followed. Although hamster sperm stained with DIOC₆ were less motile than unstained sperm, they were capable of inseminating only zonae-free eggs. These observations demonstrate that staining with supravital fluorochromes provides a rapid and useful method to analyze macromolecular and organelle changes in a variety of living and fixed gametes and embryos.     

Human disease-associated extracellular matrix orthologs ECM3 and QBRICK regulate primary mesenchymal cell migration in sea urchin embryos

Sea urchin embryos have been one of model organisms to investigate cellular behaviors because of their simple cell composition and transparent body. They also give us an opportunity to investigate molecular functions of human proteins of interest that are conserved in sea urchin. Here we report that human disease-associated extracellular matrix orthologues ECM3 and QBRICK are necessary for mesenchymal cell migration during sea urchin embryogenesis. Immunofluorescence has visualized the colocalization of QBRICK and ECM3 on both apical and basal surface of ectoderm. On the basal surface, QBRICK and ECM3 constitute together a mesh-like fibrillar structure along the blastocoel wall. When the expression of ECM3 was knocked down by antisense-morpholino oligonucleotides, the ECM3-QBRICK fibrillar structure completely disappeared. When QBRICK was knocked down, the ECM3 was still present, but the basally localized fibers became fragmented. The ingression and migration of primary mesenchymal cells were not critically affected, but their migration at later stages was severely affected in both knock-down embryos. As a consequence of impaired primary mesenchymal cell migration, improper spicule formation was observed. These results indicate that ECM3 and QBRICK are components of extracellular matrix, which play important role in primary mesenchymal cell migration, and that sea urchin is a useful experimental animal model to investigate human disease-associated extracellular matrix proteins.     

Developmental Expression of D-Galactoside-Binding Lectin in Sea Urchin (Anthocidaris crassispina) Eggs

The spatial and temporal expression of a sea urchin (Anthocidaris crassispina) egg lectin (SUEL) during early embryogenesis was studied using antiserum raised against SUEL. Western blotting analysis revealed the presence of SUEL in all stages so far examined, from unfertilized eggs to gastrula stage embryos. Immunofluorescence and immunoelectron microscopic observation showed that SUEL was stored in small electron-dense granules which migrated to the cortex within 10 min after fertilization. SUEL was localized in the cortical cytoplasm of the blastomere during cleavage stages and subsequently migrated to the outer surface of the embryo, including the invaginated portion of the gastrula. Immunoelectron microscopic study indicated that SUEL was deposited in the hyaline layer at least at the mid gastrula stage. Migration of SUEL to the cortex was significantly reduced by treatment with cytochalasin B, suggesting that actin filaments play an important role in this translocation. Exogenously added SUEL was adsorbed at the surface of unfertilized eggs and hatched embryos, but not to embryos with fertilization membrane. Lactose inhibited this adsorption, suggesting the presence of an endogenous glycoligand(s) specific for SUEL on the surface of unfertilized eggs and in the hyaline layer. We conclude that SUEL is secreted at a certain stage of embryogenesis and specifically adsorbed to the hyaline layer. Temporal changes in extraembryonic matrices caused by SUEL seem to play an important role in developmental morphogenesis.     

Subcellular localization of DNA polymerase gamma and changes in its activity in sea urchin embryos

1. Subcellular localization and changes in the activity of DNA polymerase gamma were examined in sea urchin eggs and embryos. 2. The enzyme was shown to be localized predominantly in mitochondria by differential and isopycnic centrifugation. 3. During embryogenesis, the enzyme activity per embryo remained constant until blastula stage, and thereafter increased. 4. Similarly mitochondrial DNA per embryo increased, indicating that mitochondrial DNA replication starts during embryogenesis. 5. The gamma-activity per mitochondrial DNA remained constant during embryogenesis. 6. These results suggest that mitochondria contain a constant amount of replicative enzyme (DNA polymerase gamma) regardless of mitochondrial DNA replication, which differs from the case of nuclear DNA replication.     

Vacuolar accumulation of acridine orange and neutral red in zygotic and somatic embryos of carrot (Daucus carota L.)

Summary The accumulation of neutral red and acridine orange, to indicate differences in vacuolar pH, was studied during embryogenesis of carrot. Neutral red accumulated barely in proembryogenic masses, but was present conspicuously in globular-shaped somatic embryos. From the late globular to the torpedo-shaped stage, it was mainly found in the root side of the somatic embryo. Here, neutral red was predominantly present in large dark-red to purple stained vesicles. In the cotyledons neutral red was found in small orange vesicles. In zygotic embryos of carrot, the dye was uniformly distributed with no specific localization in organelles. During germination, however, neutral red accumulated mainly in regions in the root side and the hypocotyl of the germling. Acridine orange was dispersed erratically in proembryogenic masses with a great variety in intensity. It was quite obviously present in early stages of somatic embryogenesis and restricted to the root side in late globular to torpedo-shaped embryos. Confocal images revealed the vacuolar presence of the fluorescence and the predominant presence in the protoderm. During germination of zygotic embryos the signal changed from uniform to localized, with sharp borders between fluorescent and non-fluorescent regions. Two to three days after the beginning of germination, acridine orange accumulated preferentially in the root tip of the germling. Differences between somatic and zygotic embryos and similarities between somatic embryogenesis and zygotic embryo germination are discussed.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - pH_c cytosolic pH - pH_e extracellular pH - pH_v vacuolar pH     

Gangliosides of sea urchin embryos. Their localization and participation in early development

The influence of antibodies to gangliosides of sea urchin Strongylocentrotus intermedius eggs on early embryos of this species was studied. gamma-Globulins were isolated from rabbit anti-ganglioside serum by micropreparative electrophoresis. These gamma-globulins produced anomalies in the development of embryos permeabilized in Triton X-100. The anomalies were not observed when anti-ganglioside gamma-globulins were added to the incubation medium together with gangliosides or when the permeabilized embryos were incubated with gamma-globulins of normal rabbit serum. Pretreatment of S. intermedius embryos with serotonin, tryptamine or some other indole derivatives led to the disappearance of ganglioside determinants from the cell surface and sharply increased immunofluorescence within the cell. Such pretreatment of embryos increased the amount of cell-associated gangliosides more than threefold as compared to untreated embryos. Serotonin was shown to bind specifically to sea urchin gangliosides immobilized on octyl-Sepharose. These observations suggest that cell-surface gangliosides, after binding drugs, are internalized and that serotonin and its antagonists inhibit the transport of newly synthesized gangliosides to the cell-surface membrane.     

Nuclear translocation of phospholipase C-zeta, an egg-activating factor, during early embryonic development

Phospholipase C-zeta (PLCzeta), a strong candidate of the egg-activating sperm factor, causes intracellular Ca2+ oscillations and egg activation, and is subsequently accumulated into the pronucleus (PN), when expressed in mouse eggs by injection of RNA encoding PLCzeta. Changes in the localization of expressed PLCzeta were investigated by tagging with a fluorescent protein. PLCzeta began to translocate into the PN formed at 5-6 h after RNA injection and increased there. Observation in the same embryo revealed that PLCzeta in the PN dispersed to the cytoplasm upon nuclear envelope breakdown and translocated again into the nucleus after cleavage. The dynamics was found in the second mitosis as well. When RNA was injected into fertilization-originated 1-cell embryos or blastomere(s) of 2-8-cell embryos, the nuclear localization of expressed PLCzeta was recognized in every embryo up to blastocyst. Thus, PLCzeta exhibited alternative cytoplasm/nucleus localization during development. This supports the view that the sperm factor could control cell cycle-dependent generation of Ca2+ oscillations in early embryogenesis.     

Developmental Expression of Echinonectin, an Endogenous Lectin of the Sea Urchin Embryo

Echinonectin (EN) is a galactose-binding lectin present in eggs and embryos of the sea urchin Lytechinus variegatus . Recent studies have suggested that EN is a hyaline layer protein that may function as a substrate adhesion molecule (SAM) during development. We have used monoclonal and affinity-purified polyclonal antibodies that specifically recognize this protein to determine its spatial and temporal expression during embryogenesis. EN is stored in granules or vesicles in the unfertilized egg. After fertilization, these granules are rapidly redistributed to the apical cytoplasm of the zygote. Our results show that at subsequent stages of development the lectin is expressed by cells of all three germ layers, including cells of the developing gut, coelomic pouches, and ectoderm, and by both primary and secondary mesenchyme cells. In contrast to previous observations based solely upon light level immunofluorescent staining, immunoelectron microscopy demonstrates that EN is localized in intracellular, membrane-bounded vesicles. In epithelial cell types these vesicles have a highly polarized distribution and are found in the apical cortical cytoplasm. In mesenchyme cells the distribution of EN-containing vesicles is not obviously polarized. Steady-state levels of EN protein in the embryo remain almost constant from fertilization to the pluteus larva stage, Metabolic labeling studies show that synthesis of EN in L. variegatus begins immediately after fertilization and continues throughout embryogenesis. Monospecific antibodies raised against L. variegatus EN have also been used to determine whether this lectin is expressed in other echinoid species.     

AChE及M1 受体在柄袋沙蠋胚胎和 幼虫中的免疫组化定位

采用免疫组织化学S-ABC法和兔抗鼠抗体研究了乙酰胆碱酯酶(AChE)及M1受体在柄袋沙蠋(Arenicola brasiliensis)胚胎和幼虫的分布.结果表明,ACNE及M1受体在柄袋沙蠋胚胎和幼虫中分布非常广泛,从未受精卵开始,直至研究的5刚毛节幼虫均有分布,但不同发育阶段分布的情况不同.卵裂期主要分布于细胞膜...     

Cytoplasmic alteration of an established pattern of Rana pipiens chromosomal DNA replication

Cells from Rana pipiens embryos were incubated in ³H-thymidine for the duration of the last quarter of the S period plus the G₂ period of the cell cycle. Chromosomes of animal hemisphere cells of stage 9 embryos showed uniform labeling, whereas chromosomes of endodermal cells of stage 17 embryos showed terminal labeling. We tested whether egg cytoplasm would alter an established temporal pattern of chromosomal DNA replication. Nuclei from disaggregated endodermal cells of stage 17 embryos were transplanted into activated and enucleated eggs. The eggs were then allowed to develop to the blastula stage. Animal hemisphere explants of these blastulae were incubated in ³H-thymidine. Radioautographic localization of silver halide grains demonstrated a chromosomal DNA replication pattern that was uniform over the the metaphase chromosomes. The egg cytoplasm had evidently altered an established temporal pattern of chromosomal DNA replication.     

Association of the major ganglioside in sea urchin eggs with yolk lipoproteins

The predominant ganglioside in sea urchin eggs, M5 (NeuGc     

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 effect of 5-bromodeoxyuridine on the synthesis of nuclear and cytoplasmic DNA-binding proteins isolated from sea urchin embryos.

Newly synthesized DNA-binding proteins were isolated from the nuclei and, separately from, the cytoplasm of sea urchin mofula stage embryos. The presence of 5-bromodeoxyuridine during embryogenesis did not appear to alter the synthesis of either class of DNA-binding proteins. This result tends to argue that cell differentiation in early embryos is not regulated by differential synthesis of DNA-binding proteins. Sea urchin mofulae synthesize a broad range, by molecular weight, or cytoplasmic DNA-binding proteins which dissociate from sea urchin DNA-cellulose at relatively high salt concentrations (0.6-2.0 M NaCl). The most prominant of these apparently high-binding-affinity proteins has an approximate molecular weight of 33,000.