Johanna E. Speksnijder

Effects of retinoic acid on the expression of retinoic acid receptors during zebrafish embryogenesis

The cDNAs encoding the zebrafish homologs of retinoic acid receptor alpha(zRAR alpha) and gamma (zRAR gamma) were isolated and their expression studied in normal and retinoic acid (RA) treated embryos. Expression boundaries in the central nervous system are clearly different from those observed in the mouse, which can only partly be explained by morphogenetic differences. Treatment of embryos with RA induces ectopic zRAR gamma expression in anterior brain structures and both zRAR alpha and zRAR gamma expression in the eyes. Furthermore, striking differences occur in the zRAR gamma expression pattern in pharyngeal arch mesenchyme. Since the development of all of these structures has been shown to be affected by exogenous RA, our data suggest a role for zRAR alpha and zRAR gamma in the establishment of the RA phenotype in zebrafish.

The repetitive calcium waves in the fertilized ascidian egg are initiated near the vegetal pole by a cortical pacemaker

Ascidian eggs respond to fertilization with a series of repetitive calcium waves that originate mostly from the vegetal/contraction pole region (J. E. Speksnijder, C. Sardet, and L. F. Jaffe, 1990, Dev. Biol. 142, 246-249), where the myoplasm is concentrated during the first phase of ooplasmic segregation. This suggests that the myoplasm may be involved in initiating these calcium waves. To test this possibility, the starting position of the calcium waves was determined in eggs that had the subcortical, mitochondria-rich part of the myoplasm displaced by centrifugation. Such centrifuged eggs display four cytoplasmic layers: a large centrifugal yolk zone, a narrow clear zone, a mitochondria-rich layer, and a small clear zone at the centripetal pole. Imaging of the cytosolic calcium in centrifuged eggs that were injected with the calcium-specific photoprotein aequorin reveals a series of repetitive calcium waves after fertilization. About 70% of these waves start in the vegetal/contraction pole area, which is similar to the number of waves previously found to start in this area in uncentrifuged eggs. In contrast, only about 25% of the waves start close to the displaced mitochondria-rich layer. From this result it is concluded that the main wave initiation site is not displaced by the centrifugal forces that displace the subcortical, mitochondria-rich part of the myoplasm. Moreover, the observation that the animal-vegetal polarity of cortical components such as actin filaments and the endoplasmic reticulum has been retained after centrifugation further suggests that a cortical component located in the vegetal hemisphere--most likely the endoplasmic reticulum network in the cortical region of the myoplasm--is involved in initiating the repetitive calcium waves in the fertilized ascidian egg.

Regulation of the zebrafish goosecoid promoter by mesoderm inducing factors and Xwnt1

Goosecoid is a homeobox gene that is expressed as an immediate early response to mesoderm induction by activin. We have investigated the induction of the zebrafish goosecoid promoter by the mesoderm inducing factors activin and basic fibroblast growth factor (bFGF) in dissociated zebrafish blastula cells, as well as by different wnts in intact embryos. Activin induces promoter activity, while bFGF shows a cooperative effect with activin. We have identified two enhancer elements that are functional in the induction of the goosecoid promoter. A distal element confers activin responsiveness to a heterologous promoter in the absence of de novo protein synthesis, whereas a proximal element responds only to a combination of activin and bFGF. Deletion experiments show that both elements are important for full induction by activin. Nuclear proteins that bind to these elements are expressed in blastula embryos, and competition experiments show that an octamer site in the activin responsive distal element is specifically bound, suggesting a role for an octamer binding factor in the regulation of goosecoid expression by activin. Experiments in intact embryos reveal that the proximal element contains sequences that respond to Xwnt1, but not to Xwnt5c. Furthermore, we show that the distal element is active in a confined dorsal domain in embryos and responds to overexpression of activin in vivo, as well as to dorsalization by lithium. The distal element is to our knowledge the first enhancer element identified that mediates the induction of a mesodermal gene by activin.

Animal-vegetal polarity in the plasma membrane of a molluscan egg: a quantitative freeze-fracture study.

Using freeze-fracture electron microscopy, the numerical particle distribution in the fertilized Nassarius egg plasma membrane has been analyzed in four areas at different positions along the animal-vegetal axis of the egg. These areas can be distinguished by distinct microvilli patterns and differences in microvilli densities. In all areas, more IMPs (intramembrane particles) are present on the P face than on the corresponding E face. The ratio of the number of IMPs present on E and P face is similar in all areas (0.48-0.55) except for the most animal part of the vegetal hemisphere, where relatively more IMPs remain attached to the exterior half of the fractured membrane (E/P ratio = 0.88). The IMP density at the vegetal pole of the egg is considerably higher than in the animal hemisphere and in the animal part of the vegetal hemisphere. This difference is due to an increased number of IMPs in all size classes (4-18 nm). In the area adjacent to the vegetal pole the density of particles is also higher than in the two more animal areas, but here the difference is exclusively due to the smaller IMP size classes (4-8 nm). Statistical analysis of our data reveals that the area adjacent to the vegetal pole patch is significantly different from the other areas with respect to the distribution of the IMPs over the different IMP size classes. These results demonstrate the polar organization of the Nassarius egg plasma membrane. The possible role of this surface heterogeneity in the spatial organization of the egg cell and the later embryo is discussed.

Local surface modulation correlated with ooplasmic segregation in eggs ofSabellaria alveolata (annelida, polychaeta)

SummaryIn the eggs ofSabellaria alveolata specific morphogenetic determinants are segregated into the vegetal part of the egg which is constricted off to form a polar lobe during the first cleavages. Segregation is supposed to take place during meiosis. In this paper we describe the appearance of a patch of small blebs at the vegetal pole of the eggs after both the first and the second meiotic division and after the first cleavage, as assessed by scanning electron microscopy. We investigated the possible functional relationship between the segregation process and the modulation of the surface architecture at the vegetal pole by treating the eggs with cytochalasin B during meiosis. As a result, both the appearance of the blebs and the development of lobe-dependent structures in the larva are suppressed. From this result it is argued that cortical processes at the vegetal pole are likely to be involved in the segregation of morphogenetic determinants.

F-Actin is a marker of dorsal induction in earlyPatella embryos

SummaryThe dorsal-ventral axis inPatella vulgata embryos is established at the 32-cell stage by an inductive interaction between the animal micromeres and one vegetal macromere. This vegetal macromere, once induced, is called the 3D macromere, and marks the future dorsal side of the embryo. We examined the pattern of filamentous (F) actin in such embryos using fluorescent phalloidin and found that this dorsal 3D macromere contains more F-actin than the remainder of the cells. In addition, only one of its two daughter cells, i.e. the 4D macromere, retains this higher density. In embryos in which the establishment of the dorsal-ventral axis has been experimentally inhibited via treatment with monensin, such differences in F-actin were not found. These results suggest that the appearance of an increased density of F-actin in the dorsal 3D and 4D macromeres of normal embryos requires the inductive interactions that establish the dorsal-ventral axis. We therefore conclude that F-actin is an early marker for dorsal induction in thePatella embryo.

Polar effects of concanavalin A on the cortical cytoskeleton of a molluscan egg (Nassarius reticulatus, Gastropoda)

SummaryThe organization of the surface of fertilizedNassarius reticulatus eggs was probed by investigating the effects of treatment with concanavalin A (Con A). This lectin causes abnormal polar lobe formation as well as inhibition of cleavage. At low concentrations of Con A (0.3–1.0 μg/ml) the polar lobe constriction becomes considerably elongated, whereas at higher concentrations (2.5–50 μ/ml) the position of the constriction undergoes an extreme shift towards the animal pole. In the latter case, the surface of the animal part of the egg forms large protrusions and folds. Con A also causes resorption of microvilli and disappearance of the extracellular layer covering these villi; this process starts at the vegetal pole and propagates towards the animal pole. These changes in surface architecture are associated with profound changes in the organization of filamentous (F-) actin as assessed by confocal laser scanning microscopy of NBD-phallacidin-labelled eggs. Divalent succinyl-Con A has the same effects on polar lobe formation and surface architecture as tetravalent Con A, but only at very high concentrations (100–200 μg/ml), indicating that Con A exerts its effects by cross-linkage of its binding sites. Experiments with cytoskeleton inhibitors (cytochalasin D, colchicine, and nocodazole) reveal that in Con A-treated eggs — as in untreated eggs — microfilaments, but not microtubules, are involved in the formation of the polar lobe constriction. The calcium ion channel blocker D600 affects neither normal nor Con A-induced abnormal polar lobe formation, which suggests that influx of external calcium is not required. In contrast, treatment with TMB-8, an antagonist of internal calcium release, prevents the formation of a polar lobe in both normal and Con A-treated eggs. Finally, eggs from which the polar lobe has been removed prior to Con A treatment show none of the effects described, whereas isolated polar lobes react similarly to intact eggs. These results suggest that binding of Con A to sites present at the vegetal pole of the egg is responsible for the observed effects of the lectin.

The ultrastructural organization of the isolated cortex in eggs ofNassarius reticulatus (Mollusca)

SummaryWe have studied the organization of the cortex in fertilized eggs ofNassarius reticulatus by examining rotary-shadowed whole mounts of isolated cortices in the transmission electron microscope. The following components were distinguished: (a) the plasma membrane, with clathrin-coated areas and coated pits, (b) microfilaments and microtubules, and (c) a tubulovesicular network of endoplasmic reticulum. Microfilaments were identified by labeling with heavy meromyosin, and microtubules with a monoclonal anti-tubulin antibody, using both immunofluorescence microscopy and immunogold labeling for transmission electron microscopy. The microfilaments are organized in a network parallel to and closely associated with the plasma membrane, with typical Y- and X-shaped intersections. The endoplasmic reticulum is associated with this microfilamentous lattice. The microtubules also run parallel to the plasma membrane, but they are located at a greater distance, as can be inferred from stereo images. In the uncleaved egg, numerous microtubules are present in the egg cortex. Shortly before polar lobe formation, at the onset of mitosis, the microtubules disappear almost entirely. They reappear again at the end of first cleavage, as the polar lobe is being resorbed. The synthesis of cortical microtubules at this stage appears to depend on the presence of microtubule-organizing centers in the animal hemisphere of the egg, since microtubules do not reappear in isolated polar lobes. Clathrin-coated areas are present in both the animal and vegetal hemisphere before polar lobe formation. During mitosis, the clathrin-coated plaques and pits are found almost exclusively in the animal hemisphere. After resorption of the polar lobe, at the two-cell stage, no clathrin-coated areas were found at all.

Regional differences in the numerical particle distribution in the plasma membrane of a molluscan egg

Using freeze-fracture electron microscopy, regional differences between four areas on both Pand E-face of the plasma membrane of fertilized uncleaved eggs of Nassarius reticulatus were analyzed. The four investigated areas, which can be distinguished by specific patterns of microvilli, are: I) the animal hemisphere, with a random distribution of microvilli, 2) the upper part of the vegetal hemisphere, with a more regular pattern of microvilli, 3) a more vegetal area in which the microvilli are aligned in rows, and 4) the so-called vegetal pole patch which is characterized by the presence of less numerous but very long microvilli (see Fig. 1). Comparing the patterns of intramembranous particle (IMP) density and IMP-size of these four areas the following differences were observed. The mean IMP-diameter on both Eand P-face is highest in the animal hemisphere and decreases towards the area adjacent to the vegetal pole patch. The pole patch itself is comparable with the animal plasma membrane in this respect (see Table I). The total IMP-density on both Eand P-face is lowest in the animal hemisphere and increases towards the vegetal pole patch (see Table 2). These results demonstrate the presence of an animal/vegetal polarity in the plasma membrane of the egg of Nassarius reticulatus. These regional differences in properties of the plasma membrane could play an important role in cell diversification during early development.

Cell lineage-specific inhibition of cytokinesis by concanavalin A in a molluscan embryo (Nassarius reticulatus, Gastropoda)

SummaryThe effects of the lectin concanavalin A (Con A) on cleavage were studied in early embryos of the gastropodNassarius reticulatus. Progression of the first cleavage furrow is inhibited by incubating eggs before the first cleavage with 0.3–20 μg/ml Con A. Treatment with 1.0–20 μg/ml Con A during first cleavage causes regression of the cleavage furrow. Treatment with low concentrations (0.3–1.0 μg/ml) during the same period does not affect first cleavage. However, when further development of such eggs is followed, one finds that second cleavage is inhibited typically in only one of the two blastomeres of the 2-cell stage, i.e. the CD-blastomere. As a result, a 3-cell embryo is formed. At third cleavage of such embryos, the CD-blastomere forms either one double-sized micromere (1cd-micromere) or two normal-sized micromeres (1c and 1d) simultaneously. Sometimes micromere formation in the CD-blastomere is inhibited. Con A binding does not affect karyokinesis, nor does it affect the division asynchronies typical for normal development. On the basis of these and other results it is argued that binding of Con A to sites located at the vegetal pole of the egg is responsible for the cell lineage-specific inhibition of cleavage by Con A. This effect is most probably mediated by changes in the organization of the egg cortex.