Cell junctions during the early development of the sea urchin embryo (Paracentrotus lividus)

Thin sections, lanthanum tracer and the freeze-fracture technique revealed the presence of different types of cell junctions in early sea urchin (Paracentrotus lividus) embryos. During the first four cleavage cycles, which are characterized by synchrony of cell division, sister blastomeres were connected only by intercellular bridges, formed as a result of incomplete cytokinesis; no trace of other junctions was found at these stages. From the 16-cell stage onwards, septate junctions and gap junctions began to appear between blastomeres. It is postulated that cell-cell interactions may provide a mechanism for the propagation of signals necessary for the coordination of cell proliferation and differentiation.     

The pattern of cell division in the early development of the sea urchin,Paracentrotus lividus

In the sea urchin Paracentrotus lividus, the first three cleavages are synchronous in all blastomeres. Upon the segregation of the micromeres at the fourth cleavage, a vegetal-animal gradient of cell division begins; i.e., the closer the cells are to the micromeres, the earlier they enter mitosis. The phase difference between mitotic cells along the vegetal-animal axis increases concurrently with the increase in cell number. At the blastula stage, mitoses appear organized in clusters. From the mesenchyme-blastula stage onward, the clusters become smaller and most of the mitotic cells are solitary. The size of the clusters increases upon treatment with colchicine, thus suggesting the existence of pacemaker units of mitotic activity. We confirm that the division of the micromeres is out of phase with respect to the other blastomeres. Of the eight cells originating from the first division of the micromeres, only the four outer ones continue to cleave; the four inner ones appear to have lost the ability to divide. The overall mitotic activity is high during cleavage and suddenly drops to very low levels around hatching. An interpretation of these results is presented in terms of a nonlinear oscillators theory.     

Defensome against toxic diatom aldehydes in the sea urchin Paracentrotus lividus

Many diatom species produce polyunsaturated aldehydes, such as decadienal, which compromise embryonic and larval development in benthic organisms. Here newly fertilized Paracentrotus lividus sea urchins were exposed to low concentration of decadienal and the expression levels of sixteen genes, implicated in a broad range of functional responses, were followed by Real Time qPCR in order to identify potential decadienal targets. We show that at low decadienal concentrations the sea urchin Paracentrotus lividus places in motion different classes of genes to defend itself against this toxic aldehyde, activating hsp60 and two proteases, hat and BP10, at the blastula stage and hsp56 and several other genes (14-3-3ε, p38 MAPK, MTase, and GS) at the prism stage. At this latter stage all genes involved in skeletogenesis (Nec, uni, SM50 and SM30) were also down-expressed, following developmental abnormalities that mainly affected skeleton morphogenesis. Moreover, sea urchin embryos treated with increasing concentrations of decadienal revealed a dose-dependent response of activated target genes. Finally, we suggest that this orchestrated defense system against decadienal represents part of the chemical defensome of P. lividus affording protection from environmental toxicants.     

Gender differences in the immune system activities of sea urchin Paracentrotus lividus

In the immune system of vertebrates, gender-specific differences in individual immune competence are well known. In general, females possess more powerful immune response than males. In invertebrates, the situation is much less clear. For this purpose we have chosen to study the immune response of the two sexes of the echinoderm Paracentrotus lividus in pre- and post-spawning phases. The coelomic fluid from the echinoderms contains several coelomocyte types and molecules involved in innate immune defenses. In this article we report that the degree of immune responses in the P. lividus differs according to sex in both pre- and post-spawning phases. We found in all tests that females were more active than males. The results indicate that females possess a significant higher number of immunocytes consisting of phagocytes and uncolored spherulocytes. Since the immunological activity is mainly based on immunocytes, it was not surprising that females possessed the highest values of cytotoxicity and hemolysis activity and showed a greater ability to uptake neutral red and phagocyte yeasts cells, while the average number of ingested particles per active phagocyte was not significantly different. Furthermore, agglutinating activity was more evident in the coelomocyte lysate and coelomic fluid of females than in those of males. Finally we found that the acidic extract of female gonads possessed greater antimicrobial activity than that of male gonads. These results make it very likely that gender differences in the immune response are not restricted to vertebrates; rather, they are a general evolutionary phenomenon.     

Serotoninergic processes in cells of early embryos of the sea urchin Paracentrotus lividus

Agonists of serotonin receptors generate specific inward currents in the cells of early embryos of sea urchin Paracentrotus lividus. Dose-dependent current generated by 5-HT3-agonist 5-HTQ shows complex volt-amperic characteristics with reversal potential -25 and +15 mV. The 5-HTQ effect seems to be due to the activity of channels of mixed conductivity. The 5-HTQ effect is more obvious during cleavage furrow formation. The findings suggest presence of serotonin receptors in the surface membrane of blastomers and their activity play a certain role in regulation of cellular events during cleavage division in the early sea urchin embryo.     

High molecular weight RNA containing histone messenger in the sea urchin Paracentrotus lividus

Sea urchin RNA extracted from early and mesenchyme blastula embryos and oocytes and fractionated on denaturing sucrose density gradients, was hybridized with histone DNA recombinants of Psammechinus miliaris (clone λh22) and of Paracentrotus lividus (clone pPH70). Histone sequences are found in the 9 S and larger than 9 S regions of the formamide/sucrose density gradients. The melting of the RNA-DNA duplexes obtained by hybridization of polysomal and high molecular weight RNA of embryos of P. lividus at the stage of early blastula, suggests a degree of heterogeneity in the high M_r RNA. The high M_r RNA contains at least four of the five histone gene sequences covalently linked.     

Separation and partial characterization of DNA polymerases in sea urchin Paracentrotus lividus eggs.

$\text{Paracentrotus lividus}$ eggs contain three separable DNA polymerases (deoxynucleoside triphosphate: DNA deoxynucleotidyltransferase, EC 2.7.7.7.). The two main peaks of activity, designated form I and form II, differ in the following features: 1) form I is able to use poly(dA) as primer-template more efficiently than form II; 2) the initial rate of incorporation of dTTP or dCTP in the absence of other deoxynucleosidetriphosphates (dNTPs) is higher with form I than with form II when the template is DNA or poly(dA,dT); 3) form II is preferentially inhibited by KCl; 4) the two forms show a different optimal Mn²⁺ concentration for their maximal activity.     

The carotenoid pigments during early development of the egg of the sea urchin Paracentrotus lividus

In the eggs of Paracentrotus lividus the total quantity of pigment appears to decrease during the early stages of development, i.e. between fertilization and gastrulation. Data are also given concerning the appearance of a new pigment, possibly a precursor of the echinochrome.     

Ultrastructural and biochemical characterization of mechanically adaptable collagenous structures in the edible sea urchin Paracentrotus lividus

The viscoelastic properties of vertebrate connective tissues rarely undergo significant changes within physiological timescales, the only major exception being the reversible destiffening of the mammalian uterine cervix at the end of pregnancy. In contrast to this, the connective tissues of echinoderms (sea urchins, starfish, sea cucumbers, etc.) can switch reversibly between stiff and compliant conditions in timescales of around a second to minutes. Elucidation of the molecular mechanism underlying such mutability has implications for the zoological, ecological and evolutionary field. Important information could also arise for veterinary and biomedical sciences, particularly regarding the pathological plasticization or stiffening of connective tissue structures. In the present investigation we analyzed aspects of the ultrastructure and biochemistry in two representative models, the compass depressor ligament and the peristomial membrane of the edible sea urchin Paracentrotus lividus, compared in three different mechanical states. The results provide further evidence that the mechanical adaptability of echinoderm connective tissues does not necessarily imply changes in the collagen fibrils themselves. The higher glycosaminoglycan (GAG) content registered in the peristomial membrane with respect to the compass depressor ligament suggests a diverse role of these molecules in the two mutable collagenous tissues. The possible involvement of GAG in the mutability phenomenon will need further clarification. During the shift from a compliant to a standard condition, significant changes in GAG content were detected only in the compass depressor ligament. Similarities in terms of ultrastructure (collagen fibrillar assembling) and biochemistry (two alpha chains) were found between the two models and mammalian collagen. Nevertheless, differences in collagen immunoreactivity, alpha chain migration on SDS-PAGE and BLAST alignment highlighted the uniqueness of sea urchin collagen with respect to mammalian collagen.     

Nitric oxide mediates the stress response induced by diatom aldehydes in the sea urchin Paracentrotus lividus

Diatoms are ubiquitous and abundant primary producers that have been traditionally considered as a beneficial food source for grazers and for the transfer of carbon through marine food webs. However, many diatom species produce polyunsaturated aldehydes that disrupt development in the offspring of grazers that feed on these unicellular algae. Here we provide evidence that production of the physiological messenger nitric oxide increases after treatment with the polyunsaturated aldehyde decadienal in embryos of the sea urchin Paracentrotus lividus. At high decadienal concentrations, nitric oxide mediates initial apoptotic events leading to loss of mitochondrial functionality through the generation of peroxynitrite. At low decadienal concentrations, nitric oxide contributes to the activation of hsp70 gene expression thereby protecting embryos against the toxic effects of this aldehyde. When nitric oxide levels were lowered by inhibiting nitric oxide synthase activity, the expression of hsp70 in swimming blastula decreased and the proportion of abnormal plutei increased. However, in later pluteus stages nitric oxide was no longer able to exert this protective function: hsp70 and nitric oxide synthase expression decreased with a consequent increase in the expression of caspase-8. Our findings that nitric oxide production increases rapidly in response to a toxic exogenous stimulus opens new perspectives on the possible role of this gas as an important messenger to environmental stress in sea urchins and for understanding the cellular mechanisms underlying toxicity during diatom blooms.     

Uptake and release of calcium by isolated egg cortices of the sea urchin Paracentrotus lividus

Isolated cortices from sea urchin eggs accumulate calcium in a non-mitochondrial store at a rate dependent on ATP and enhanced by oxalate. Calcium efflux is increased by ionomycin and by A23187 which has been used as a parthenogenetic agent, but not by weak base (NH4Cl). Accumulated calcium is partially released by 1,4,5 inositol triphosphate.     

The cytochrome b of the sea urchin Paracentrotus lividus is naturally resistant to myxothiazol and mucidin

The ubiquinol:cytochrome c reductase activity of Paracentrotus lividus mitochondria is relatively insensitive to the specific inhibitors myxothiazol and mucidin. The I50 of myxothiazol and mucidin are three and two orders of magnitude higher, respectively, in P. lividus than in bovine heart mitochondria. The natural resistance of the P. lividus reductase to these inhibitors can be correlated with a single amino replacement, an alanine for a glycine at position 143, in the sequence of cytochrome b. This position is located in a conserved region of the molecule, believed to be important in the oxidation of ubiquinol by the reductase.