Glial localization of interleukin-1 alpha in invertebrate ganglia.

1. Mytilus pedal ganglion contains a small population of glial cells that are immunopositive for interleukin-1 alpha. Positively stained fibers can also be seen in the neuropil of these sections. 2. The marine worm Nereis diversicolor also exhibits positive neural immunostaining for interleukin-1 alpha. 3. Both organisms contain hemocytes that contain immunoactivity for interleukin-1 alpha. The study suggests interleukin-1 alpha to be an ancient cytokine given its presence in organisms that evolved significantly earlier than mammals.

Adaptability of the coccidian Coelotropha to parasitism.

The coccidian, Coelotropha durchoni, manages to develop in its host, the polycheate annelid, Nereis diversicolor, because of its ability to circumvent the host's internal defence system. First, it avoids phagocytes by penetrating other cells, principally eleocytes and muscular cells, where it undergoes a phase of intracellular development. After becoming extracellular, a thick coat protects it from being attacked by granulocytes. This coat then breaks and is shed from its surface to permit fertilization. Parasites that have lost their coats and remain unfertilized are surrounded with granulocytes and destroyed by encapsulation. A strict hormonal correlation exists between the biological cycles of the parasite and its host. Thus, the mature spores of the coccidian parasite are disseminated when the worm lays its gametes by rupture of teguments. C. durchoni and N. diversicolor have established a biological equilibrium that permits mutual survival of both partners and constitutes a simple model for the study of the host-parasite relationship.

Cellular immunity in an annelid (Nereis diversicolor, Polychaeta): production of melanin by a subpopulation of granulocytes.

We attempted to identify the nature and origin of the pigment produced by the marine worm Nereis diversicolor in order to isolate, in inert brown capsules, foreign objects introduced into its body cavity. This brown pigment, characterized by cytochemical techniques, could be a melanin. The activity of the enzyme phenoloxidase responsible for melanin biosynthesis was detected by enzyme cytochemistry techniques in vacuoles and the Golgi apparatus of coelomocytes activated by the presence of foreign bodies. Morphological techniques combined with a monoclonal immunological probe enabled us to establish that the "G2" granulocytes contain both the precursor of the pigment in dense bodies and the capacity for phenoloxidase synthesis when activated to encapsulate foreign bodies. The "G2" granulocyte may therefore be compared to a melanocyte in which melanin is not stored as in mammals, but immediately extruded following synthesis in the form of a thick fluid.

Natural killer cells in a lower invertebrate, Nereis diversicolor.

Globular, non-adherent coelomocytes, called "G3 granulocytes", of the polychaetous annelid Nereis diversicolor display spontaneous cytotoxicity. These cells were found capable of killing invertebrate as well as vertebrate target cells by a contact-dependent cytolytic process. Cytotoxic activity of G3 granulocytes against foreign cells develops in three steps. At first, the cells become motile and form lamellipodia. In a second step, short, pointed pseudopodia arise from the edge of the lamellipodia and are making contact with the stimulating foreign object. In a third step, the G3 granulocytes release dense granules by exocytosis onto the foreign substrate or cell which finally will undergo lysis. Within few minutes after activation, the G3 granulocyte will alter its polarity, realigning both Golgi apparatus and centrosome towards the target cell. A pore-forming protein may be involved in the cytotoxic activity of the G3 granulocytes. These cells were observed to burst after contact with and release of granules onto an abiotic solid substrate, indicating that under certain circumstances the G3 granulocytes may be sensitive to their own cytotoxic activity. These data support the postulate of Franceschi et al. (Eur. J. Immunol. 21, 489-493 (1991) that a primitive natural killer cell-like activity had been developed early in phylogenesis. A simple method for preparing invertebrate coelomocytes for scanning electron microscopy is described.

Monoclonal antibodies against Nereis virens brain homogenates as probes for isolation and in situ detection of new neurosecretions.

The brain of Nereis contains 26 ganglionic nuclei which produce numerous neurosecretions. Only a few of them have been characterized. The production of monoclonal antibodies was adopted as an approach to discover unknown neurosecretions. Monoclonal antibodies produced against Nereis virens brain homogenates were selected using stepwise ELISA tests first with brain homogenates, then with brain neurosecretions. Eight antibodies specific for Nereis neurosecretions were selected. The results are illustrated with one of these monoclonal antibodies which was directed against a major peak after HPLC purification of brain neurosecretions. This antibody was subsequently used for the in situ detection of recognized epitope(s) in the brain and ventral nerve cord cells.

Identification of the eleocytes as the vitellogenin producing cells in nereids.

Coelomocytes of Nereis diversicolor synthesize and secrete vitellogenin in vitro. Using a monoclonal antibody which specifically recognized vitellogenin, we showed by immunocytochemistry that among the coelomocytes only a subpopulation, called eleocytes, contained vitellogenin. These results assert that eleocytes are the vitellogenin producing cells in nereids.

Translation in a cell-free system, and in Xenopus oocytes, of mRNA which specify a cadmium-binding protein in Nereis diversicolor (Annelida, Polychaeta).

The presence in the marine worm Nereis diversicolor of a low molecular mass protein with the capacity to bind cadmium has been previously demonstrated. Poly(A)(+)-mRNA were extracted from coelomocytes of Nereis diversicolor and were translated either in vitro, using a rabbit reticulocyte lysate, or in vivo into Xenopus laevis oocytes. Analysis of synthesized polypeptides by enzyme-linked immunosorbent assay (ELISA) and by Western blotting, using a specific monoclonal anti-MP II antibody, showed that this metalloprotein was translated both in in vitro and in vivo translation systems, with an apparent molecular mass of 11-13 kDa. Two other products, with 26.5 and 28 kDa molecular mass, cross-reacted with the monoclonal anti-MP II antibodies. The present work confirms that coelomocytes are sites of important synthesis of MP II-mRNA.

Distribution and nature of membrane receptors for different plant lectins in the coelomocyte subpopulations of the Annelida Nereis diversicolor.

Studies on membrane receptors have been performed on the Nereis coelomocytes using various lectins. In the agglutination assay, only LCA and WGA appeared nonreactive. Fluorescent lectins showed the poor reactivity of the eleocytes and the diversity of the receptors according to the granulocyte types. Types I-granulocytes reacted only with Con A. Type II-granulocyte membrane contained mannose and galactose receptors (reactivity with Con A, PNA and SBA). The type III-granulocyte membrane revealed the presence of mannose and fucose receptors (UEA, AAA). Electron microscope investigations with HRP-DAB or mannosyl labelled Con A, RCAI and LTA have confirmed the distribution of the membrane receptors.

Dilatation of Golgi vesicles by monensin leads to enhanced accumulation of sugar nucleotides.

Incubation of mouse thymocytes with 10 microM monensin for 1 hour induces morphological alterations characterized by the extensive dilatation and vacuolization of the Golgi complex. This effect is used to study the transport and utilization of labelled sugar nucleotides into intracellular vesicles by using thymocytes whose plasma membrane has been permeabilized by ammonium chloride treatment. It is demonstrated that monensin stimulates the incorporation of labelled sialyl, fucosyl, galactosyl, and N-acetylglucosaminyl residues. This enhanced incorporation is not due to a direct effect of monensin on glycosyltransferase activities themselves but is a consequence of a higher entry and accumulation of labelled sugar nucleotides in the dilated vesicles.

Are rhoptries of Coccidia really extrusomes?

Some evidence that rhoptries of invasive stages of Coccidia are extrusive organelles has been found in a study of Toxoplasma, after conventional electron microscopy, cryosubstitution preparations, and freeze-fracture. Periodic rows of intramembranous particles were seen in the membrane of the rhoptries. The ducts of the organelles are positioned by two microtubules, and joined to an apical vesicle, through the conoid. Above the vesicle in the plasmalemma, there is sometimes a "rosette" of intramembranous particles. Extrusion of a dense substance was seen at the same time as an anterior vacuole. This represents degenerative "empty" rhoptries. This paper discusses whether rhoptries of Coccidia can be put in the group of extrusomes of protists.

[Ultrastructure of Sarcocystis tenella. I. Endozoïte (after negative staining)]. / Quelques précisions sur l'ultrastructure de Sarococystis tenella. I. L'endozoïte (après coloration négative)

The employment of negative staining technics for the endozoites (cyst stages) of Sarcocystis tenella allowed the elucidation of certain aspects of their fine structure. The conoid consists of similar to 20 oblique fibers and is surmounted by a ring with regular ornamentation. In the conoid's interior there are 2 excentric parallel microtubules which extend posteriorly for a considerable distance into the adjacent cytoplasm. The fibers of the conoid, intraconoid microtubules, appear to have the same diameter and structure as the 22 subpellicular microtubules. They are "cemented" anteriorly into a periconoidal ring which surrounds the conoid. The "reticulated" pellicle has certain differentiations: the micropore, surrounded by a "fibrillar" element, similar to 10 subcircular structures arranged into an anterior crown, and 11 rows of granules converging toward the posterior end. The sarconemes look like rice grains which, contrary to previous statements, are independent of one another. It is established that there are only 2 rhoptries.

[Growth of Sarcocystis tenella in cell culture]. / Croissance de Sarcocystis tenella en culture cellulaire

Sarcocystis tenella endozoites obtained from sheep oesophagus cysts have been cultivated in embryonic sheep kidney cells. They quickly enter the cells, become shorter and wider ("stage 2"), then grow to an ovoid shape within 24 h ("stage 3").