Coelomocyte replenishment in adult Asterias rubens: the possible ways.

The origin of cells involved in regeneration in echinoderms remains an open question. Replenishment of circulatory coelomocytes-cells of the coelomic cavity in starfish-is an example of physiological regeneration. The coelomic epithelium is considered to be the main source of coelomocytes, but many details of this process remain unclear. This study examined the role of coelomocytes outside circulation, named marginal coelomocytes and small undifferentiated cells of the coelomic epithelium in coelomocyte replenishment in Asterias rubens. A qualitative and quantitative comparison of circulatory and marginal coelomocytes, as well as changes of circulatory coelomocyte concentrations in response to injury at different physiological statuses, was analysed. The presence of cells morphologically similar to coelomocytes in the context of coelomic epithelium was evaluated by electron microscopy. The irregular distribution of small cells on the surface and within the coelomic epithelium was demonstrated and the origin of small undifferentiated cells and large agranulocytes from the coelomic epithelium was suggested. Two events have been proposed to mediate the replenishment of coelomocytes in the coelom: migration of mature coelomocytes of the marginal cell pool and migration of small undifferentiated cells of the coelomic epithelium. The proteomic analysis of circulatory coelomocytes, coelomic epithelial cells and a subpopulation of coelomic epithelial cells, enriched in small undifferentiated cells, revealed proteins that were common and specific for each cell pool. Among these molecules were regulatory proteins, potential participants of regenerative processes.

Effect of chimeric relaxin-like gonad-stimulating peptides on oocyte maturation and ovulation in the starfish Asterias rubens and Aphelasterias japonica.

A relaxin-like gonad-stimulating peptide (RGP), comprising two peptide chains (A- and B-chains) linked by two interchain bonds and one intrachain disulfide bond, acts as a gonadotropin in starfish. RGP orthologs have been identified in several starfish species, including Patiria pectinifera (PpeRGP), Asterias rubens (AruRGP) and Aphelasterias japonica (AjaRGP). To analyze species-specificity, this study examined the effects on oocyte maturation and ovulation in ovaries of A. rubens and A. japonica of nine RGP derivatives comprising different combinations of A- and B-chains from the three species. All nine RGP derivatives induced spawning in A. rubens and A. japonica ovaries. However, AruRGP, AjaRGP and their chimeric derivatives were more potent than peptides containing the A- or B-chain of PpeRGP. Three-dimensional models of the structures of the RGP derivatives revealed that residues in the B-chains, such as AspB6, MetB10 and PheB13 in PpeRGP and GluB7, MetB11, and TyrB14 in AruRGP and AjaRGP, respectively, are likely to be involved in receptor binding. Conversely, it is likely that ArgA18 in the A-chain of AruRGP and AjaRGP impairs binding of these peptides to the PpeRGP receptor in P. pectinifera. In conclusion, this study provides new insights into the structural basis of RGP bioactivity and RGP receptor activation in starfish.

[The characteristic of the coelomic fluid and coelomic epithelium cell populations of starfish Asterias rubens L., capable to attach and spread on various substrates].

Cultivation is one of the methods modeling processes occurring in vivo. The success of cultivation, in particular, is defined by a substratum choice. We studied the ability of coelomocytes and coelomic epithelial cells to attach and spread to fibronectin, laminin, polylysine, and glass. Qualitative composition of heterogeneous populations of coelomocytes and epithelial cells was determined after staining the cells with rhodamine-phalloidin and DAPI, and changes in the composition of populations evaluated in response to injury. Seven relative classes of coelomocytes has been identified, three of which has been shown to participate in the formation of clot during primary repair of wounds. There was a change in the proportion of these cells, attached to specific ligands in response to the injury. In coelomic epithelium 8 relative classes of cells has been identified, two of which are likely to be candidates for the role of progenitor cells for coelomocytes--coelomocyte-like and small epithelial cells with high nuclear-cytoplasmic ratio. The enrichment with the small cells in population of attached coelomic epithelium cells has been revealed when seeding on laminin. Continued viability of epithelial cells has been shown when cultured on laminin during 2 months.

Effects of manganese and hypoxia on coelomocyte renewal in the echinoderm, Asterias rubens (L.).

Manganese (Mn) is a naturally abundant metal and particularly so in soft-bottom oceanic sediments where it generally occurs bound in a four-valent colloidal state as MnO2. When hypoxic conditions occur in bottom waters, the metal reduces to the bioavailable ion Mn2+ and can reach concentrations known to have immunotoxic effects in the crustacean Nephrops norvegicus, reducing numbers of circulating haemocytes as a consequence. However, we have previously shown that Mn seems to have a contrasting effect on the echinoderm Asterias rubens in which it triggers the proliferation of haematopoietic cells and increases coelomocyte numbers. Since elevated Mn levels mostly co-occur with hypoxia in nature, here we investigated whether hypoxia has a negative effect on haematopoiesis. Proliferation and differentiation of coelomocytes and cells in the coelomic epithelium of A. rubens were compared after 3 days of exposure to realistic levels of Mn, hypoxia or a combination of these two parameters. We can confirm that Mn elevated numbers of coelomocytes and increased proliferation of epithelial cells, but hypoxia did not affect these levels. However, hypoxia did affect differentiation of these cells as judged by investigating the expression of a Runt domain transcription factor, which was also cloned and sequenced. Through comparative quantification using a real time PCR technique, we found that exposure to hypoxia had a clearly stimulating effect on mRNA expression of Runt gene in both coelomocytes and epithelial cells. These results indicate that during hypoxic conditions the composition of coelomocyte sub-populations changed.

[Cells of coelomic liquid and cells of different tissues of sea star Asterias rubens L. isolated from intact and post-traumatic animals: behaviour and proliferation under cultivation in vitro].

Proposed sources of coelomocytes in Asteroidea after traumatic injures are coelomic epithelium, axial organ or Tidemann's bodies. To study the involvement of cell division in the process, proliferation of cells from different tissues of starfish Asterias rubens L. has been studied after bromdeoxyuridine incorporation in vivo. To study the differentiation of coelomocytes in vitro a method for isolation and cultivation of different tissue cells has been worked out and cell behaviour and proliferation in culture has been analyzed. The reliable BrdU incorporation has been found in coelomic epithelium cells in vivo. Coelomocytes and coelomic epithelium cells behaviour in culture dependent on the post-trauma period after which the cells were loaded into the culture whereas no difference was revealed for axial organ and Tidemann's bodies cells. Two-month cultivation of coelomic epithelium cells resulted in formation of colony-like accumulations of the cells with high nuclear-cytoplasm ratio which of colony-like accumulation of the cells with high nuclear-cytoplasm ratio which incorporated BrdU. Thus, coelomic epithelium cells seem to be more promising object for the study of A. rubens cell differentiation in vitro.

Experimental approaches to evaluating the point of biological system bifurcation.

Any system transforms into a qualitatively new state if the number of its elements changes (increases or decreases in comparison with the standard checkpoint: norm, previous status of the system, etc.) by at least 1/3.

PKA activation in concert with ARIS and asterosap induces the acrosome reaction in starfish.

The acrosome reaction (AR) is a fundamental event for fertilization, which is induced in concert with acrosome reaction-inducing substance (ARIS) and asterosap, both of which are components of starfish egg jelly (EJ). During the AR, a spermatozoon undergoes a series of physiological changes, such as in intracellular cGMP concentration ([cGMP]i), pHi and intracellular Ca2+ concentration ([Ca2+]i). Affinity purification of cGMP-binding protein resulted in the isolation of a regulatory subunit of the cAMP-dependent protein kinase A (PKA), suggesting the involvement of a cAMP-dependent pathway in the AR. By using a cAMP enzyme immunoassay, [cAMP]i was found to increase in starfish spermatozoa when stimulated with ARIS and asterosap. ARIS could also increase the [cAMP]i in the presence of high pH seawater. Pretreatment of spermatozoa with two specific and cell-permeable PKA inhibitors, H89 and KT5720, prevented the induction of the AR in a concentration-dependent manner. These results suggest that PKA activity participates in the induction of the AR with ARIS and asterosap. To investigate this, we have cloned a gene that encodes a regulatory subunit of PKA that had been identified in starfish spermatozoa.

Ca2+ spikes in the flagellum control chemotactic behavior of sperm.

The events that occur during chemotaxis of sperm are only partly known. As an essential step toward determining the underlying mechanism, we have recorded Ca2+ dynamics in swimming sperm of marine invertebrates. Stimulation of the sea urchin Arbacia punctulata by the chemoattractant or by intracellular cGMP evokes Ca2+ spikes in the flagellum. A Ca2+ spike elicits a turn in the trajectory followed by a period of straight swimming ('turn-and-run'). The train of Ca2+ spikes gives rise to repetitive loop-like movements. When sperm swim in a concentration gradient of the attractant, the Ca2+ spikes and the stimulus function are synchronized, suggesting that precise timing of Ca2+ spikes controls navigation. We identified the peptide asterosap as a chemotactic factor of the starfish Asterias amurensis. The Ca2+ spikes and swimming behavior of sperm from starfish and sea urchin are similar, implying that the signaling pathway of chemotaxis has been conserved for almost 500 million years.