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.     

Mifepristone affects fertility and development in the sea urchin Paracentrotus lividus

Drugs such as oral contraceptives and hormone replacement therapies are known to find their way into rivers, lakes and seas, and have the potential to affect reproduction and development of the wildlife. The knowledge of the reproductive mechanisms and their regulation in aquatic species is of fundamental importance for predicting and preventing the damage by the increasing release of such chemicals in the environment. Mifepristone, a synthetic steroid used as a drug for chemical abortion, works by blocking the effects of progesterone. Its presence in fresh and salt water has been reported, representing a danger for aquatic species. In this frame, we evaluated in both acute and chronic exposures, the effects of mifepristone on the reproductive performance of the sea urchin P. lividus. In both acute and chronic exposures, mifepristone did not affect the histological structure of the gonads. However, mifepristone administered to females caused the decrease of the percentage of normal developed plutei larvae compared with the control, whereas it did not alter sperm motility parameters and fertilization success in males. The immunohistological localization of progesterone receptor‐like immunoreactivity on the plasma membrane of oocytes and ova and the molecular weight of a progesterone receptor‐like immunoband identified by western blotting, are in agreement with a membrane progesterone receptor deducted from the genome sequence of the sea urchin Strongylocentrotus purpuratus and suggest that in P. lividus mifepristone actions may be mediated by a progesterone receptor.     

Ca2+-stimulated ATPase during the early development of parthenogenetically activated eggs of the sea urchin Paracentrotus lividus

A Ca²⁺-stimulated ATPase shows fluctuations in the activity in parthenogenetically activated sea urchin eggs very similar to those described earlier for fertilized eggs. Besides activity peaks in the first part of a cell cycle the enzyme activity increases when the mitotic apparatus (MA) or MA-like structures like monasters or cytasters are formed. A possible function of the enzyme in the assembly of the MA is discussed.     

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.     

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.     

Effects of cholinergic drugs on cell interactions during fertilization and early development of the sea urchin Paracentrotus lividus.

In the present work we tested the effects of cholinergic drugs on the early development of P. lividus. Fertilization was performed in the presence of cholinergic drugs, and the embryos were fixed after 2 hours, when the controls (untreated) completed the second segmentation cleavage. We identified four classes of stages in the development of the embryos affected by the drugs, i.e.: unhatched zygotes, first cleaved stage, second cleaved stage (= unaffected), and anomalous embryos. Statistical analysis indicated that that drugs with analogous action mechanism caused similar alterations in the distribution of the treated embryos in these four classes. This finding supports the hypothesis of the presence of a complete "pre-nervous" cholinergic system, with a true cholinergic role. It is tempting to speculate that this system is involved in the first cell to cell interactions during early segmentation and possibly in the block to polyspermy.     

Occurrence of d-alanine in the eggs and the developing embryo of the sea urchin Paracentrotus lividus

• 1.1. d-Alanine has been found in appreciable amounts in the eggs and embryos of the sea urchin Paracentrotus lividus.
• 2.2. The content of d-alanine, expressed as pmol/egg or embryo, is 1.32 in the egg, 0.81 in the blastula, 0.54 in the gastrula and 0.60 in the pluteus.
• 3.3. The percentage of d-alanine with respect to the total alanine (d + l) decreases during embryonic development.
• 4.4. d-Amino acid oxidase, d-alanine transaminase and d-alanine racemase activities were found neither in eggs nor in embryos.
• 5.5. Therefore, it does not appear likely that d-alanine is subject to oxidative metabolism.
• 6.6. The decrease in this d-amino acid during development may be due to its utilization in the synthesis of a more complex molecule.