The professional phagocytes of sea bass (Dicentrarchus labrax L.): cytochemical characterisation of neutrophils and macrophages in the normal and inflamed peritoneal cavity

In order to identify the phagocytic cells of sea bass, the peritoneal leucocyte population of fish injected intraperitoneally with Photobacterium damselae subspecies piscicida was studied by light microscopy using cytocentrifuge preparations stained by the Antonow technique for peroxidase detection. Among the leucocytes present in the peritoneal exudate of the infected fish (macrophages, neutrophils, eosinophilic granular cells, lymphocytes and thrombocytes), macrophages and neutrophils were the only phagocytic cells. Neutrophils were easily distinguished from macrophages in Antonow stained preparations by the pattern of peroxidase positivity. Using ultrastructural cytochemistry, neutrophils were found to have abundant cytoplasmic granules positive for peroxidase and arylsulphatase and were negative for alpha-naphthyl butyrate (ANB) esterase. In contrast, ANB esterase activity was detected in macrophages. These leucocytes were typically negative for peroxidase, but ocasionally, some macrophages with peroxidase or arylsulphatase-positive vacuoles were observed. Both phagocytes had cytoplasmic granules positive for acid phosphatase. Glycogen particles were found in the cytoplasm of the two phagocytic cells, but they were much more abundant in neutrophils. Macrophages were much more abundant than neutrophils in the peritoneal cavity of non-injected sea bass but early after the intraperitoneal injection of bacteria, the number of neutrophils increased quickly and extensively. Higher numbers of intraperitoneally injected bacteria were found inside macrophages as compared to neutrophils because macrophages strongly predominated in the peritoneal population at the time of injection. However, when the bacteria were injected into peritoneal cavities with high numbers of neutrophils (attracted by a previous injection of 12% casein), the percentage of neutrophils with phagocytosed bacteria increased, approaching that of infected macrophages. Taken together, these results show that in sea bass, as in many other organisms, in addition to macrophages, neutrophils are important phagocytic cells, the relative participation of each of the two phagocytes in defense mechanisms against infection depending on the opportunity to encounter the invading infectious agents.     

Localization of iodopsin and rod-opsin immunoreactivity in the retina and pineal complex of the river lamprey,Lampetra japonica

Melano-macrophages in the head-kidney, spleen and liver of sea bass and gilthead seabream have been investigated by means of light and electron microscopy, histochemistry and phagocytic assays. The results demonstrate the presence of both free and clustered melano-macrophages (melano-macrophage centres), with similar ultrastructural features. These large cells are PAS-, hemosiderin-and melanin-positive, and contain large, alkaline-and acid phosphatase-positive lysosomes, whose reaction intensity depends on the amount of accumulated pigment. The relationship between the cytochemical features of these lysosomes and the capacity of the melano-macrophages to phagocytose bacteria and latex beads, has been studied. The large melanomacrophage centres have a capsule of flattened cells, whose ultrastructural and cytochemical features are similar to fibroblast-like reticular cells. Melanin is the main accumulated pigment. A subpopulation of head-kidney mononuclear phagocytes engulfs melanin associated with cell debris. The relationship between the origin of the melano-macrophage pigment and the ability of monocytes/macrophages to phagocytise the melanin from melanocytes, is considered. The origin and possible function of melano-macrophage centres are discussed.     

Apoptosis of sea bass (Dicentrarchus labrax L.) neutrophils and macrophages induced by experimental infection with Photobacterium damselae subsp. piscicida

The infection of sea bass (Dicentrarchus labrax L.) by intraperitoneal (i.p.) injection of the agent of fish pasteurellosis Photobacterium damselae subsp. piscicida resulted in the apoptosis of peritoneal neutrophils and macrophages. All the eight virulent and none of the two non-virulent strains tested exhibited apoptogenic activity. A secreted bacterial protein(s) is a likely candidate as the factor(s) responsible for this activity, since no apoptosis was induced by i.p. injected UV-killed virulent strains and the virulent culture supernatants exhibited a thermo-labile apoptogenic activity identical to that of live bacteria. The apoptotic process was characterized by the occurrence of DNA fragmentation detected by terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling (TUNEL) staining and DNA electrophoresis, and of typical ultrastructural alterations namely cell shrinkage, chromatin condensation, nuclear fragmentation and production of blebs with shedding of apoptotic bodies. In the apoptotic process induced by lethal doses of virulent bacteria or culture supernatants both peritoneal macrophages and neutrophils were extensively affected, the majority of these cells being apoptotic and reaching values around 10(7)per peritoneal cavity for each cell type at 24h post-injection. Moreover, the number of non-apoptotic macrophages was always below the initial number in the resting peritoneal cavity. Since macrophages are key cells in the elimination of both bacteria and apoptotic moribund cells and apoptotic bodies, the induction by Ph. damselae subsp. piscicida of simultaneous macrophage and neutrophil apoptosis results, on the one hand, in the destruction of the two phagocytic cell types involved in the restriction of multiplication of the bacteria and, on the other hand, in the uncontrolled progression of the apoptotic process towards secondary necrosis and eventual lysis of high numbers of moribund neutrophils and of neutrophilic apoptotic bodies, with the consequent extensive release of their highly cytotoxic components. Abundant apoptotic cells were also seen in sections of head-kidney from fish dying from experimental pasteurellosis. In contrast, no apoptosis was seen in vitro after the treatment with virulent culture supernatants of sea bass head-kidney macrophage cultures or after the treatment ex vivo of peritoneal exudate leukocytes with virulent bacteria or culture supernatants. The apoptotic process described here appears as a novel and very powerful microbial pathogenic strategy.     

Cytochemical characterization of leucocytes from the seawater teleost,gilthead seabream (Sparus aurata L.)

The cytochemical characterization of head-kidney and peripheral blood leucocytes of gilthead seabream (Sparus aurata L.) was studied by light and electron microscopy. Neutrophilic granulocytes show some cytoplasmic granules, which are positive for alkaline phosphatase and peroxidase but acid phosphatase negative. The scarce granules found in the cytoplasm of the circulating neutrophils and their cytochemical features seem to be indicative of an immature stage. Acidophils are also alkaline phosphatase and peroxidase positive at pH 11.0. They are strongly positive for acid phosphatase and acid phosphatase activity may thus be considered a cytochemical marker to characterize and differentiate neutrophilic from acidophilic granulocytes in this fish species. Three granule populations are characterized in the cytoplasm of the gilthead seabream acidophils: the first is positive only for peroxidase and the second contains a dense core with acid and alkaline phosphatase activities, surrounded by a thin peroxidase positive electron-dense halo. The third granule type contains an eccentric core, which is strongly positive for acid and alkaline phosphatase and peroxidase. As regards their cytochemical features, the first and second granule types seem to correspond respectively to the azurophilic and specific granules found in acidophils of mammals and could be involved in phagocytic processes, thus playing an important microbicidal role in this species. The monocytes, monocyte-macrophages and macrophages show different cytochemical features. The first have scarce acid phosphatase-positive lysosomes, while blood monocyte-macrophages and macrophages are positive for acid and alkaline phosphatases and for peroxidase; the monocyte-macrophages show scarce lysosomes.     

Gut-associated lymphoid tissue (GALT) of the goldfish,Carassius auratus

The head kidney and spleen are major sites of haemopoiesis in fish; a secondary center is found in loose connective tissue of the intestine. In this study we determined the nature of gut-associated haemopoietic tissue in the goldfish, Carassius auratus, using light and electron microscopy. This tissue is a loose stroma of reticular cells and fibers vascularized by capillaries, venules, and arterioles. The cellular population includes lymphoblasts, small and medium-sized lymphocytes, plasmocytes, macrophages, and various granulocytes. The most abundant granulocyte is the mast cell, whose large granules stain with Alcian blue and toluidine blue. Heterophils are found in the intestinal connective tissue as well as two other granulocytes: one with ovoid granules having dense parallel lamellae and another with granules containing crystalline inclusions. Immature forms of both granulocytes were also noted. Macrophages containing phagocytosed debris were often located close to the epithelium; they were observed forming clusters with lymphocytes. The epithelium contained a number of migrating leucocytes including lymphocytes and lymphoblasts, macrophages, and heterophils. Although many granulocytes were found in the connective tissue, granulopoiesis does not seem to be a major function. Gut-associated haemopoietic tissue in goldfish resembles diffuse lymphoid tissue and may be involved in intestinal immune responses.     

Histology and Ultrastructure of the Cranial Lymphohaemopoietic Tissue in Chimaera monstrosa (Pisces,Holocephali)

In the present ultrastructural study we have extended previous reports on the histological organization and cell components of the lymphohaemopoietic masses occurring in the cranium, mainly in the orbit, the preorbital canal, and the suprapalatal and coiacoid areas of the holocephalan Chimaera monstrosa. Mature and developing granulocytes, monocytes, macrophages, lymphocytes and plasma cells occur in a reticular and/or fibroblastic supporting stroma inside the cartilaginous skeleton. Heterophils, which are the most abundant granulocytes in the cranial tissue, contain two distinct cytoplasmic granular populations, whereas eosinophils show one uniformly electron dense granule type. Heterophils and eosinophils may differentiate from a common precursor producing granules of each cell type in relation to the activity of rough endoplasmic reticulum and Golgi complex. The presence of macrophages, lymphocytes and developing and mature plasma cells suggests an important role of the cranial lymphohaemopoietic tissue in eliciting the immune responses. A phylogenetical relationship between this tissue and the higher vertebrate bone marrow is proposed on the basis of histological similarities between the cell microenvironments governing haemopoietic differentiation in these organs.     

Early local and systemic innate immune responses in the teleost gilthead seabream after intraperitoneal injection of whole yeast cells

The early cellular innate immune responses of the teleost gilthead seabream (Sparus aurata L.) against whole yeast cells were studied. Fish received a single intraperitoneal (i.p.) injection of Saccharomyces cerevisiae and leukocyte mobilization, degranulation, peroxidase content, respiratory burst, phagocytic and cytotoxic activities were assayed in both head-kidney leukocytes (HKLs) and peritoneal exudate leukocytes (PELs). The total number of PELs significantly increased from 4 h post-injection until the end of the experiment (3 days). Interestingly, flow cytometric analysis revealed variations in the proportion of cell-types in the PE. Thus, PE acidophilic granulocytes increased to a significant extent 4 h post-injection and were restored thereafter. Moreover, PE monocyte-macrophages started to increase from 24 h, the enhancement being statistically significant after 48 and 72 h. Degranulation was greater in PELs throughout the assay. The peroxidase content of the leukocytes was affected differently in HKLs and PELs. The respiratory burst activity was not affected in HKLs but significantly increased in PELs from 4 to 48 h post-injection with yeast cells. On the other hand, HKL phagocytosis had decreased 72 h post-injection with yeast cells while it increased after 4 and 24 h post-injection in the PELs. Conversely, the cytotoxic activity was significantly enhanced in HKLs from 24 to 72 h post-injection but slightly decreased in PELs. Finally, our data demonstrate that seabream injected with the yeast Saccharomyces cerevisiae show leukocyte mobilization and cellular innate immune response activation at the site of invasion and also in the head-kidney. The implications of the leukocyte-types and the immune responses observed, as well as analogies with other particulated antigens, will be discussed as possible models for investigating the effect of potential pathogens.     

Characterisation of gilthead seabream acidophilic granulocytes by a monoclonal antibody unequivocally points to their involvement in fish phagocytic response

The various cell types involved in fish phagocytic defence have not been properly established because of the morphological heterogeneity of leucocytes and the lack of appropriate cell-surface markers. In this study, we report the production and characterisation of a monoclonal antibody, G7, which specifically recognises gilthead seabream acidophilic granulocytes, as assayed by immunofluorescence and immunoelectron microscopy. The antibody reacted with 40%-50% of head-kidney and peritoneal exudate leucocytes and 10%-20% of spleen and peripheral blood leucocytes. More importantly, G7(+) acidophils constituted 85% of the head-kidney leucocytes showing phagocytic activity towards the fish pathogenic bacterium Vibrio anguillarum. The results are discussed in relation to the role played by this cell type in fish immune responses.     

Injection of xenogeneic cells into teleost fish elicits systemic and local cellular innate immune responses

The early innate immune response of the teleost gilthead seabream (Sparus aurata L.) against xenogeneic cells was studied. Fish received a single intraperitoneal injection of xenogeneic cells (tumour cell line), following which leucocyte mobilization, degranulation, peroxidase content, respiratory burst and phagocytic and cytotoxic activities were determined in both peritoneal exudate leucocytes (PELs) and head-kidney leucocytes (HKLs). The total number of PELs increased from 4 h post-injection until the end of the experiment (3 days). Interestingly, flow cytometric analysis of PEL and HKL suspensions revealed variations in the proportion of cell types. The percentage of HK acidophilic granulocytes significantly increased after 72 h, whereas PE acidophils increased after 4 h. Moreover, numbers of PE lymphocytes and monocyte-macrophages significantly increased during the experiment. The peroxidase content of the leucocytes was unaffected, although PEL degranulation was largely enhanced. This liberation of peroxidases correlated well with the enhancement of the oxidative respiratory burst activity in PELs, reflecting leucocyte activation. However, phagocytosis only increased in PELs 4 h after intraperitoneal injection, whereas the cytotoxic activity of HKLs increased 1 and 2 days post-injection but, in general, decreased in the PELs. Our data thus demonstrate that the appearance of xenogeneic cells involves leucocyte mobilization and innate immune-response activation at the site of invasion and in the head-kidney. Involvement of the various leucocyte types and potential modes of activation are discussed.This work was partially funded by the European Commission (QLRT-2001-00722). A. Cuesta and I. Salinas are fellows of Fundación CajaMurcia and Fundación Séneca, respectively.     

Effect of the pineal hormone melatonin on teleost fish phagocyte innate immune responses after in vitro treatment

Although neuroendocrine-immune system interaction has been shown in teleost fish, no study has evaluated the role of melatonin (Mel) on fish immune response even considering that it is affected by the photoperiod. Gilthead seabream (Sparus aurata L.) and sea bass (Dicentrarchus labrax L.) head-kidney leucocytes were incubated with Mel (0-control-, 20 pM-400 microM) and leucocyte viability and main innate cellular immune parameters were evaluated. Overall, seabream and sea bass head-kidney leucocytes incubated with low (similar to physiological) doses of Mel unchanged the innate immune response, whereas very high (pharmacological) dosages did. Phagocytosis was not affected by any Mel treatment while the peroxidase activity was significantly inhibited with the highest Mel concentration. In contrast, the sea bass respiratory burst activity was increased in a dose-dependent manner with 400 nM Mel or higher. Further studies are needed to clarify whether there are interactions between the fish pineal gland, and its hormone Mel, and the fish immune system.     

Modulation of the activity of sea bass (Dicentrarchus labrax) head-kidney macrophages by macrophage activating factor(s) and lipopolysaccharide

The aim of this study was to establish the requirements for macrophage activating factor (MAF) production by sea bass head-kidney leucocytes and the kinetics of macrophage activation when exposed to MAF-containing supernatants and/or lipopolysaccharide (LPS), a known macrophage stimulant. MAF activity was found in culture supernatants of total head-kidney leucocytes pulsed with 5 microg ml(-1)Con A, 5 or 10 ng ml(-1)PMA and 100 ng ml(-1)calcium ionophore, or 10 microg ml(-1)Con A alone, as assessed by the capacity to prime macrophages for enhanced production of reactive oxygen intermediates (ROI). Mixed leucocyte cultures from two or eight fish showed higher MAF activity after stimulation, indicating that a mixed leucocyte reaction was also important for MAF production. MAF-induced activation of macrophage cultures was highest at 18 h of exposure and was lost by 72 h except for MAF induced by Con A-stimulation alone. LPS primed macrophages for increased ROI production at early incubation times and down-regulated ROI production after 24 h. LPS had no effect in further stimulating the MAF-induced priming effect on production of ROI and down-regulated the MAF-priming by 48 h. Sea bass head-kidney macrophages did not show increased nitrite production when exposed to MAF and/or LPS, which may be related to their differentiation status.     

Infiltration of H-2d-specific cytotoxic macrophage with unique morphology into rejection site of allografted meth A (H-2d) tumor cells in C57BL/6 (H-2b) mice

It is assumed that CD8(+) cytotoxic T lymphocytes (CTLs) mediate direct lysis of allografts and that their growth, differentiation, and activation are dependent upon cytokine production by CD4(+) helper T lymphocytes. In the present study, the effector cells responsible for the rejection of i.p. allografted, CTL-resistant Meth A tumor cells from C57BL/6 mice were characterized. The cytotoxic activity was associated exclusively with peritoneal exudate cells and not with the cells in lymphoid organs or blood. On day 8, when the cytotoxic activity reached a peak, 3 types of cells (i.e., lymphocytes, granulocytes, and macrophages) infiltrated into the rejection site; and allograft-induced macrophages (AIM) were cytotoxic against the allograft. Bacterially-elicited macrophages also exhibited cytotoxic activity (approximately 1/2 of that of AIM) against Meth A cells, whereas the cytotoxic activity of AIM against these cells but not that of bacterially-elicited macrophages was completely inhibited by the addition of donor (H-2(d))-type lymphoblasts, suggesting H-2(d)-specific cytotoxicity of AIM against Meth A cells. In contrast, resident macrophages were inactive toward Meth A cells. Morphologically, the three-dimensional appearance of AIM showed them to be unique large elongated cells having radiating peripheral filopodia and long cord-like extensions arising from their cytoplasmic surfaces. The ultrastructural examination of AIM revealed free ribosomes in their cytoplasm, which was often deformed by numerous large digestive vacuoles. These results indicate that AIM are the H-2(d)-specific effector cells for allografted Meth A cells and are a more fully activated macrophage with unique morphological features.     

Blood and inflammatory cells of the lungfish Lepidosiren paradoxa

A special interest exists concerning lungfish because they may possess characteristics of the common ancestor of land vertebrates. However, little is known about their blood and inflammatory cells; thus the fine structure, cytochemistry and differential cell counts of coelomic exudate and blood leucocytes were studied in Lepidosiren paradoxa. Blood smear analyses revealed erythrocytes, lymphocytes, monocytes, polymorphonuclear agranulocytes, thrombocytes and three different granulocytes. Blood monocytes and lymphocytes had typical vertebrate morphology. Thrombocytes had large vacuoles filled with a myelin rich structure. The polymorphonuclear agranulocyte had a nucleus morphologically similar to the human neutrophil with no apparent granules. Types I and II granulocytes had eosinophilic granules. Type I granulocytes had round or elongated granules heterogeneous in size, while type II had granules with an electron dense core. Type III granulocyte had many basophilic granules. The order of frequency was: type I granulocyte, followed by lymphocyte, type II granulocyte, monocyte, polymorphonuclear agranulocyte and type III granulocyte. Peroxidase localized mainly at the periphery of the granules from type II granulocytes, while no peroxidase expression was detected in type I granulocytes. Alkaline phosphatase was localized in the granules of type II granulocyte and acid phosphatase cytochemistry also labelled a few vacuoles of polymorphonuclear agranulocyte. About 85% of the coelomic inflammatory exudate cell population was type II granulocyte, 10% polymorphonuclear agranulocyte and 5% macrophages as judged by the nucleus and granule morphology. These results indicate that this lungfish utilises type II granulocytes as its main inflammatory granulocytes and that the polymorphonuclear agranulocyte may also be involved in the inflammatory response. The other two granulocytes appear similar to the mammalian eosinophil and basophil. In summary, this lungfish appears to possess the typical inflammatory granulocytes of teleosts, however, further functional studies are necessary to better understand the polymorphonuclear agranulocyte.     

Light and Electron Microscopical Characterization of Heterophilic Granulocytes in the Intestinal Wall and Islet Parenchyma of the Hagfish,Myxine glutinosa (Cyclostomata)

Heterophilic granulocytes were studied in the blood, intestinal wall, and islet parenchyma of the Atlantic hagfish (Myxine glutinosa) by light and electron microscopical methods. The granulocytes are pseudoeosinophils and show a PAS-positive cytoplasmic reaction. Ultrastructurally, the cells contain evenly distributed pleomorphic cytoplasmic granules with the granule membrane close to the osmiophilic core. Emigrated blood granulocytes are found extra-vascularly in the submucous connective tissue, and obviously they can pass the basal lamina and migrate into the epithelium of the intestine, bile duct, and islet parenchyma. Though the staining characteristics of hagfish granulocytes are different from those of endocrine cells in the intestinal mucosa and islet parenchyma, intraepithelial granulocytes in some locations may sometimes be difficult to distinguish ultrastructurally from insulin-containing B-cells, since heterophil granules have both a size and a shape close to those of secretion granules in B-cells. However, in contrast to B-cells the granulocytes show the following ultrastructural features: a lobated nucleus with peripherally arranged electron-dense chromatin; cytoplasmic processes and often rod-like granules with no clear space between the granule membrane and core; prominent cytoplasmic vacuoles and microtubules; and sparse mitochondria and endoplasmic reticulum. Furthermore, immigrated granulocytes lack desmosomes and annulate lamellae. Some of the intraepithelial granulocytes in the mucosa show signs of disintegration and cell death. Degenerative cell processes are also described in the islet parenchyma.     

Effects of short-term crowding stress on the gilthead seabream (Sparus aurata L) innate immune response

Gilthead seabream specimens were subjected to an intense short-term crowding stress of 100 kg m(-3) for 2 h. After 0, 1, 2, 3 and 4 days, blood glucose and serum cortisol levels, serum complement activity, phagocytic and respiratory burst activities of head-kidney leucocytes, and the percentage of monocyte/ macrophages and granulocytes in head-kidney and circulating blood were determined. An immediate effect of the stress was a depression in complement and phagocytic activities, both of which recovered after 3 or 2 days, respectively, while respiratory burst remained unaffected. The depression of phagocytosis in head-kidney leucocytes seemed to correlate with stress-induced migration of active cells from the organ to circulating blood. The present results point to the importance of minimising intense short-term crowding stress in order to reduce possible states of immunodepression in farmed fish.     

Comparative study on peroxidatic activity in inflammatory cells on cutaneous and peritoneal implants

Summary Inflammatory reactions were evoked by simultaneous implantation of pieces of Melinex plastic in the subcutaneous tissues of the dorsum and in the peritoneal cavity of rats. The cellular composition of the Melinex-adherent cells and their peroxidatic (PO) activity were investigated in relation to the duration of implantation. Several striking differences were found between the subcutaneous and peritoneal implants. On the 7th and 14th days, multinucleated giant cells were abundantly present on the subcutaneous implants, whereas they were relatively rare on the peritoneal implants. The subcutaneous implants bore no mast cells and only a few eosinophilic granulocytes, but both types of cell were observed frequently on the peritoneal implants.Macrophages and multinucleated giant cells on the subcutaneous implants show PO activity only in the granules or are PO negative. On the peritoneal implants three types of macrophages can be distinguished: exudate macrophages which have PO activity restricted to granules or are PO-negative; macrophages with PO activity in granules and both the rough endoplasmic reticulum (RER) and nuclear envelope; and resident macrophages with PO activity only in the RER and nuclear envelope. In addition, two types of multinucleated giant cells are found, one with and the other without PO activity in the RER and nuclear envelope. Multinucleated giant cells with PO activity in the RER and nuclear envelope as well as exudate macrophages with PO activity in the RER and nuclear envelope were mainly found 32 h and 3 days after implantation of the Melinex in the peritoneal cavity. These findings are discussed in the light of current knowledge of the PO activity in macrophages and multinucleated giant cells. It is concluded that the appearance of PO activity in the RER and nuclear envelope of exudate macrophages and multinucleated giant cells is in all probability a transient phenomenon, and that there is no objective evidence to support the opinion that exudate macrophages with PO activity in the RER and nuclear envelope are transitional cells between exudate and resident macrophages.     

Acidophilic granulocytes of the marine fish gilthead seabream (<Emphasis Type="Italic">Sparus aurata</Emphasis> L.) produce interleukin-1β following infection with<Emphasis Type="Italic"> Vibrio anguillarum</Emphasis>

The fish immune response to Gram-negative bacteria is poorly understood. In this study, we use a monoclonal antibody (mAb) specific to acidophilic granulocytes from the marine fish gilthead seabream (Sparus aurata L.), together with an antiserum specific to interleukin-1 (IL-1) from this species, in order to investigate whether these cells are involved in the immune response against the pathogenic bacterium Vibrio anguillarum and, in particular, in the production of the pro-inflammatory cytokine IL-1. We found that gilthead seabream head-kidney, peritoneal exudate and peripheral blood leukocytes accumulated proIL-1 intracellularly when challenged in vitro with V. anguillarum, whereas only peritoneal exudate and blood leukocytes were able to accumulate proIL-1 following infection. Importantly, the blood leukocytes from infected animals that accumulated proIL-1 were shown to be the acidophilic granulocytes. A rapid mobilization of such cells from the head-kidney to the site of inflammation following infection with V. anguillarum was also observed. This work was supported by the Spanish Ministry of Science and Technology (grants BIO2001-2324-C02-02 and AGL2002-03529, and fellowship to J. García-Castillo), Spanish Ministry of Education, Culture and Sport (fellowship to E. Chaves-Pozo) and Fundación Séneca, Coordination Centre for Research (grant PI-51/00782/FS/01 and fellowship to P. Pelegrín).E. Chaves-Pozo and P. Pelegrín contributed equally to this work.     

Composition and ultrastructure of elasmobranch granulocytes. II. Rays (Rajiformes)

The blood granulocyte composition of seven species of ray is given together with ultrastructural observations made on the epigonal organ and blood of Pavoraja spinifera and the spleen of a deepwater rajid skate. Under the light microscope three granulocyte types, eosinophils, eosinophilic granulocytes and neutrophilic granulocytes could be distinguished. At the EM level two granulocyte types were apparent, one with elongated granules containing longitudinal fibrils that consolidated to form an axial rod-like inclusion, and the other with large, spherical, uniformly electron-dense granules. Correlation of light and electron microscope observations indicated that the neutrophilic granulocytes with weakly basophilic, elongated granules become weakly eosinophilic, as eosinophilic granulocytes, and these in turn develop to eosinophils with granules containing axial rods. The other granulocyte type forms another population of eosinophils with spherical granules.
The inter-relationship of these granulocytes, the identification of eosinophilic granulocytes, or heterophils, as immature eosinophils, and the co-existence of two morphologically distinct eosinophil forms are discussed.     

Developmental stages and localization of peroxidatic activity in the leucocytes of three teleost species (Cyprinus carpio L.; Tinca tinca L.; Salmo gairdneri Richardson)

Summary The ultrastructural localization of peroxidase (PO) in the leucocytes of three teleosts (Cyprinus carpio L., Tinca tinca L., Salmo gairdneri R.) has been investigated using the 3,3-diaminobenzidine method. In the heterophilic granulocytes the granules show a species specific structure and are PO-positive at pH 7.6. They can be traced back to small granules arising near the Golgi apparatus (GA) in the promyelocyte. They coalesce to form larger granules and gradually change into the mature type. Myelocytes contain small unreactive granules, and these represent a second granule population. Eosinophils contain one PO-positive granule type (at pH 9), and these granules show a varying density during cell maturation.Basophils are present only in the Cyprinid species, and contain unreactive granules originating from precursors displaying a weakly positive reaction at pH 7.6. The active secretory organelles (RER, GA) are PO-negative, except for a weakly positive reaction in the flocculent matrix of the inner G-cisternae.In promonocytes and monocytes the granules are unreactive, but in the macrophages PO-positive staining occurs in a few small to medium sized granules, and in large vacuoles. At least some of these latter are apparently derived from phagolysosomes containing digested erythrocytes. Thrombocytes and lymphocytes are unreactive.The successive development of PO-positive and negative granule populations in the heterophils, and the PO-reactivity of eosinophils and basophils, show some similarities to the corresponding cells in higher vertebrates, but an analogous PO-positive (azurophil) granule type in monocytes seems to be absent.     

Early innate immune response and redistribution of inflammatory cells in the bony fish gilthead seabream experimentally infected with <Emphasis Type="Italic">Vibrio anguillarum</Emphasis>

An obvious difference between the immune system of fish and mammals is that fish lack both bone marrow and lymph nodes; in their place, the head-kidney acts as a major haematopoietic and lymphoid organ in adult fish, whereas the thymus, spleen and mucosa-associated lymphoid tissues are common to both fish and mammals. This suggests that differences exist in antigen presentation and naïve lymphocyte stimulation, a prerequisite for the initiation of adaptive immune responses. Intraperitoneal injection of the bony fish gilthead seabream (Sparus aurata L.) with intact Vibrio anguillarum, as a particulate bacterial antigen, results in the mobilisation of head-kidney leucocytes to the peritoneal cavity and priming of their respiratory burst activity. We have also observed the rapid infiltration of acidophilic granulocytes, which are leucocytes functionally equivalent to mammalian neutrophils, into the spleen. These cells may be involved in antigen capture and transport to the spleen, since an apparent association between mobilised acidophilic granulocytes, bacterial antigens and proliferating lymphocytes has been seen in this organ. Collectively, these results suggest that, in addition to being actively involved in bacterial clearance, fish phagocytic granulocytes play a role in the initiation and support of the adaptive immune response.This work was supported by the Spanish Ministry of Science and Technology (grants BIO2001-2324-C02-02, AGL2002-03529 and AGL2002-04306-C03-01 to V.M. and J.M. and Programa Ramón y Cajals contract to P.M.), Spanish Ministry of Education, Culture and Sport (fellowship to E.C.-P.) and the Fundación Séneca (grant PI-51/00782/FS/01 to J.M. and fellowship to P.P.).