Leucocytes of anadromous and landlocked strains of Atlantic salmon (Salmo salar L.) in the smolting period

Using flow cytometry and leucocyte specific monoclonal antibodies, neutrophils and B-cells were studied in blood and head kidney from wild strains of Atlantic salmon. The strains were Vosso and Blege, being an anadromous and landlocked strain, respectively. Smoltification was induced using a simulated natural photoperiod and sampling was performed monthly for 6 months and ended for the Blege strain at the time of seawater transfer while samples were collected from the Vosso strain after 4 weeks in seawater. Throughout the observation period, the mean proportions of neutrophils in both head kidney leucocytes (HKL) and peripheral blood leucocytes (PBL), were highest for the Vosso strain. The opposite was observed for B-cells where the Blege strain had higher or similar mean proportions compared to the Vosso strain. There were some differences between HKL and PBL. The mean proportion of neutrophils was always higher in HKL than in PBL and the mean proportion of B-cells was higher in PBL than in HKL. The fluctuations during the observation period, in the proportions of B-cells and neutrophils of the analysed cell population, showed mainly the same pattern in both strains. Differences between the strains were observed at various times in the mean of total number of leucocytes per gram head kidney and per millilitre of blood. The fluctuations throughout the experimental period in total numbers of leucocytes in head kidney and blood followed mainly the same pattern in both strains. The results of the leucocyte analyses suggest that there are differences between the anadromous and landlocked strains with respect to what cell type is present in highest proportion in the leucocyte samples from head kidney and blood. The striking similarity between the strains is the profiles of proportions of B-cells and neutrophils in HKL and PBL during the smoltification period.     

Neutrophils and B-cells in blood and head kidney of Atlantic salmon (Salmo salar L.) challenged with infectious pancreatic necrosis virus (IPNV)

Salmon B-cells and neutrophils were studied by flow cytometry in IPNV infected salmon. A highly virulent strain of IPNV was used for challenge of parr and post-smolts. The parr were challenged by intraperitoneal (ip) injection while salmon post-smolts were challenged by ip injection or cohabitation. No mortality occurred in the parr groups, but a cumulative mortality of about 50% was obtained in cohabitant infected post-smolt groups and less than 10% in ip challenged post-smolts. The virus levels were low in head kidney (HK) samples from survivors compared to dead fish. The percentages of neutrophilic granulocytes and Ig+ cells (B-cells) were analysed using HK and blood samples from survivors. The cell populations were identified by monoclonal antibodies (MAb) E3D9, recognising neutrophils, and G2H3 recognising Ig+ cells (B-cells). Parr sampling for leucocyte analyses took place about 1.5 weeks prior to and about 4 weeks post challenge. This corresponded to about 8 and 2.5 weeks before the fish were adapted to seawater transfer. In parr head kidney leucocytes (HKL) we observed significantly lower (p < 0.05) levels of neutrophils in ip infected fish compared to non-infected control fish. The post-smolt sampling from infected fish took place 2 weeks prior to and in the fifth and sixth week post challenge. HKL samples from both surviving cohabitants and ip injected fish had significantly (p < 0.05) lower levels of neutrophils than non-infected control fish. The cohabitant fish also had significantly (p < 0.05) higher levels of B-cells in HKL compared to ip injected fish. No significant changes in B-cells in HKL or peripheral blood leucocytes (PBL) was observed in infected parr or ip infected post-smolts compared to control fish. The relative leucocyte levels of the fish prior to challenge and in non-infected control fish are in accordance with earlier findings. The results indicate that non-specific immune cells like neutrophils are highly influenced by IPNV infection of parr and post-smolts several weeks post challenge.     

Flow cytometry assays of respiratory burst in Atlantic salmon (Salmo salar L.) and in Atlantic cod (Gadus morhua L.) leucocytes

The oxidation of dihydrorhodamine 123 (DHR) to the fluorescent rhodamine 123 (RHO) was detected using flow cytometry. This assay for detection of respiratory burst activity was established in peripheral blood leucocytes (PBL) and head kidney leucocytes (HKL) of Atlantic salmon and Atlantic cod. The leucocytes were stimulated by phorbol 12-myristate 13-acetate (PMA). For cod cells 10 times lower concentration of PMA had to be used compared to salmon cells, as higher concentrations were toxic and resulted in considerable cell death. The cells found to be RHO-positive were monocytes/macrophages and neutrophils based on the scatter dot plots, but for salmon also some small cells were found to have high fluorescence intensity both in the flow cytometry analyses and by fluorescence microscopy of cytospin preparations. The nature of these cells is not known. For cod leucocytes, such cells were not obvious. The instrument settings are a bit more demanding for cod, as cod cells die more easily compared to salmon cells. In both assays the limit between negative and positive cells has to be carefully considered. The presented flow cytometry protocols for measurements of respiratory burst in salmon and cod leucocytes can be applied in various studies where respiratory burst functions are involved, such as to verify if it is activated or suppressed in connection with infections and immunostimulation.     

Flow cytometry detection of infectious pancreatic necrosis virus (IPNV) within subpopulations of Atlantic salmon (Salmo salar L.) leucocytes after vaccination and during the time course of experimental infection

In the present study, intracellular infectious pancreatic necrosis virus (IPNV) in salmon leucocytes was detected by flow cytometry after experimental cohabitant challenge. IPNV vaccinated, non-vaccinated and intraperitoneally (i.p.) infected salmon (virus shedders) were analysed at different times throughout the period when mortality occurred. Fish that had survived 61 days post challenge (carriers) were also analysed. In particular, we analysed the presence of IPNV in B-cells (C7G7+cells) and in neutrophils (E3D9+ cells) in head kidney leucocytes (HKL) and in peripheral blood leucocytes (PBL).IPNV was present in HKL and PBL from all challenged fish groups at all samplings, including carriers. IPNV was also found intracellular in other leucocytes than B-cells and neutrophils. During the time course of infection there were changes in proportion of B-cells and neutrophils and in proportions of IPNV+ cells. In vaccinated fish, a delay in the changes observed in the proportion of IPNV+ cells and in the proportions of the two subpopulations was identified. The vaccinated fish were protected against disease as no fish died compared to 30.8% of non-vaccinated cohabitant fish. All i.p. infected fish, except one, survived the challenge. This is consistent with previous studies and confirmed that the routes of infection can influence mortality. The analyses in this study could not identify any factors enlightening this absence of mortality in i.p. infected fish, but both flow cytometry and qRT-PCR showed that i.p. infected fish were carriers of IPNV. The present study also found that IPNV was present in both B-cells and neutrophils as well as in other leucocytes in all carriers after cohabitant challenge. These fish had survived 9 weeks post challenge and 4 weeks after mortality has ceased. The fish harbouring virus within their leucocytes might become life long carriers and represent a risk for disease outbreaks, being virus shedders. Such fish are protected from later infections if the virus exposure has resulted in protective immunity. Flow cytometry was found to be very suitable for detection of intracellular virus after in vivo challenge and the sensitivity was demonstrated by the detection of virus in carriers.     

Neutrophils and B-cells in Atlantic cod (Gadus morhua L.)

Proportions of leucocytes from head kidney, blood and spleen were identified as B-cells and neutrophils using a polyclonal antibody to cod IgM and a monoclonal antibody which previously has been shown to bind specifically to salmon and trout neutrophils. The cell specific binding of the antibodies was supported by double immunostaining. The morphology of isolated leucocytes was examined on Diff Quick stained slide preparations, and myeloperoxidase positive neutrophils were identified by diaminobenzidine staining. The antibodies clearly identified distinct cell populations. Using flow cytometry, high proportions of neutrophils were observed in peripheral blood leucocytes and high proportions of B-cells were found in head kidney leucocytes when compared to proportions of these cells in Atlantic salmon (Salmo salar L.). The spleen contained the highest proportion of B-cells. Cytoplasmic staining of immunoglobulin positive cells in slide preparations indicated that plasma cells were present, but not strikingly abundant, in head kidney, spleen and peripheral blood. Staining for myeloperoxidase identified, in accordance with the flow cytometry results, a large number of neutrophils, especially in peripheral blood leucocytes. The neutrophil nucleus was not clearly segmented, but appeared more irregular than rounded. The findings of high proportions of neutrophils in peripheral blood suggest that these cells of the innate immune system might have a central role in defence and protection against infections in cod.     

Head kidney neutrophils of carp (Cyprinus carpio L.) are functionally modulated by the haemoflagellateTrypanoplasma borreli

In the present work responses of carp (Cyprinus carpio) head kidney-derived neutrophils to the blood parasite T. borreli, and the consequences of these responses for parasite survival and other host response mechanisms, were studied. In co-cultures of head kidney leucocytes (HKL) with viable and lysed T. borreli a prominent shape change of neutrophilic granulocytes towards increased size and complexity was observed. In addition, the longevity of neutrophils in vitro was prolonged in the presence of T. borreli antigens. In these cultures, neutrophils also exhibited an increased phagocytosis activity. An up regulation of the production of nitric oxide (NO) and reactive oxygen species (ROS) was observed in T. borreli- and mitogen-stimulated HKL cultures. However, addition of live, fluorescence-labelledT. borreli to previously stimulated HKL cultures, revealed neither killing nor phagocytosis of the parasite by activated neutrophils. Moreover, viable T. borreli, when added to HKL cultures of infected carp, reduced their phagocytosis activity and NO production. Supernatants of co-cultures between T. borreli and HKL also contained mediators, which suppressed a mitogen-induced proliferative response of peripheral blood leucocytes (PBL) in vitro. Thus, while T. borreli itself appeared not to be sensitive to responses of activated neutrophils, the flagellates interferes with the production of immunomodulatory signals of these cells, probably resulting in a partial immunosuppression, which may favour the parasite development in vivo.     

Peripheral blood and head kidney leucocyte populations during out-of-season (0+) parr-smolt transformation and seawater transfer of Atlantic salmon (Salmo salar L.)

Using monoclonal antibodies (MAb) and flow cytometry, Atlantic salmon neutrophils and Ig+ cells in blood and head kidney were studied in under-yearling out-of-season (0+) smolts, and 2 and 4 weeks after transfer to seawater. The parr-smolt transformation was induced using a phase advanced simulated natural photoperiod regime, and sampling of four fish was performed at regular intervals, starting on the date of the photoperiod initiation. During the freshwater period the proportion of neutrophils in the head kidney leucocytes (HKL) remained quite stable and only gradual changes in Ig+ cells were observed. In the peripheral blood leucocytes (PBL), the proportion of neutrophils markedly increased during the last month prior to seawater transfer. The most notable changes in the proportions of MAb+ leucocytes were observed in PBL after seawater transfer, with a significant increase in Ig+ cells and a significant decrease in neutrophils after two weeks in seawater. In the freshwater samples, although there were fluctuations, a decrease in the numbers of total leucocytes per millilitre blood and per gram head kidney during parr-smolt transformation was observed. The number of MAb+ cells in blood appeared to be relatively stable, while the number in head kidney tended to decrease. Following seawater transfer, the numbers of total and MAb+ leucocytes in both blood and head kidney increased markedly. The results suggest that changes in both distribution and numbers of leucocytes in peripheral blood and head kidney take place during parr-smolt transformation, and that marked changes are associated with seawater transfer. Some mechanisms possibly involved are indicated.     

The intracellular lifestyle of Francisella noatunensis in Atlantic cod (Gadus morhua L.) leucocytes

Francisella noatunensis causes the systemic granulomatous inflammatory disease, francisellosis in cod. Little is known about the lifestyle of this facultative intracellular bacterium within cod leucocytes. We have examined the interaction of this bacterium with phagocytic cells isolated from cod with emphasis on monocytes, macrophages, neutrophils and phagocytic B-cells. It is clear from confocal microscopy sections through adherent cell preparations that numerous bacteria were located intracellularly following in vitro infection in monocytes and macrophages. In these sections bacteria were immunostained and cell actin was stained using Alexa Fluor^® 488 phalloidin. Bacteria were observed in close association with neutrophils and intracellularly (low numbers) in B-cells. Bacteria were observed more frequently in head kidney- than in peripheral blood- and spleen- leucocytes. Following infection, bacteria were initially observed grouped together and located close to the nucleus. Later they were found spread within the cytoplasm. This indicates egression of F. noatunensis from the phagosome to the cytoplasm where replication possibly takes place. It may be hypothesised that the bacteria may alter maturation of the phagosome and thus, avoid the potent intracellular killing mechanisms of phagocytic cells. The intracellular lifestyle involving escape to cytoplasm prior to fusion with the lysosome may have consequences for vaccine development as well as antibiotic treatment of infected cod.     

Phagocytosis and Respiratory Burst Activity in Lumpsucker (Cyclopterus lumpus L.) Leucocytes Analysed by Flow Cytometry

In the present study, we have isolated leucocytes from peripheral blood, head kidney and spleen from lumpsucker (Cyclopterus lumpus L.), and performed functional studies like phagocytosis and respiratory burst, as well as morphological and cytochemical analyses. Different leucocytes were identified, such as lymphocytes, monocytes/macrophages and polymorphonuclear cells with bean shaped or bilobed nuclei. In addition, cells with similar morphology as described for dendritic cells in trout were abundant among the isolated leucocytes. Flow cytometry was successfully used for measuring phagocytosis and respiratory burst activity. The phagocytic capacity and ability were very high, and cells with different morphology in all three leucocyte preparations phagocytised beads rapidly. Due to lack of available cell markers, the identity of the phagocytic cells could not be determined. The potent non-specific phagocytosis was in accordance with a high number of cells positive for myeloperoxidase, an enzyme involved in oxygen-dependent killing mechanism present in phagocytic cells. Further, high respiratory burst activity was present in the leucocytes samples, verifying a potent oxygen- dependent degradation. At present, the specific antibody immune response could not be measured, as immunoglobulin or B-cells have not yet been isolated. Therefore, analyses of the specific immune response in this fish species await further clarification. The present study presents the first analyses of lumpsucker immunity and also the first within the order Scopaeniformes.     

Studies of Atlantic salmon (Salmo salar L.) blood, spleen and head kidney leucocytes using specific monoclonal antibodies, immunohistochemistry and flow cytometry

Monoclonal antibodies (mabs) raised against Atlantic salmon serum IgM (C7G7 and G2H3) and isolated peripheral blood leucocytes (PBL) (E3D9, C4B6 and D8B3) were applied in this study. Using immunoenzymehistochemistry, immunofluorescence and flow cytometry, the distribution of mab+ cells in blood, spleen and head kidney from Atlantic salmon were studied. Immunostaining on cytospin preparations and flow cytometry of isolated PBL showed that the Ig+ cells recognised by C7G7 and G2H3 were mononuclear leucocytes (MNL). The cytospin preparations showed some Ig+ cells with strong cytoplasmic staining, most likely plasma cells. The salmon blood neutrophils were the only E3D9+ cells in cytospin preparations of PBL, and E3D9 recognised about 94% of the defined neutrophil fraction in flow cytometry. The reactivities of C4B6 and D8B3 were to a large degree similar in both immunoenzymehistochemistry and flow cytometry, recognising both MNL and blood neutrophils. Immunofluorescence double staining of PBL with C4B6 and D8B3 showed double staining of all mab+ cells and D8B3 was apparently not able to block the binding of C4B6 to PBL. Immunofluorescence double staining of PBL also revealed more E3D9+ than C4B6+ neutrophils. In immunostaining on cryostat sections of spleen and head kidney, staining of cells was observed with all the mabs, the head kidney generally containing more positive cells than the spleen. Some potential applications for immunological studies using these mabs are suggested.     

Studies of Atlantic salmon (Salmo salar L.) blood, spleen and head kidney leucocytes using specific monoclonal antibodies, immunohistochemistry and flow cytometry

Monoclonal antibodies (mabs) raised against Atlantic salmon serum IgM (C7G7 and G2H3) and isolated peripheral blood leucocytes (PBL) (E3D9, C4B6 and D8B3) were applied in this study. Using immunoenzymehistochemistry, immunofluorescence and flow cytometry, the distribution of mab+ cells in blood, spleen and head kidney from Atlantic salmon were studied. Immunostaining on cytospin preparations and flow cytometry of isolated PBL showed that the Ig+ cells recognised by C7G7 and G2H3 were mononuclear leucocytes (MNL). The cytospin preparations showed some Ig+ cells with strong cytoplasmic staining, most likely plasma cells. The salmon blood neutrophils were the only E3D9+ cells in cytospin preparations of PBL, and E3D9 recognised about 94% of the defined neutrophil fraction in flow cytometry. The reactivities of C4B6 and D8B3 were to a large degree similar in both immunoenzymehistochemistry and flow cytometry, recognising both MNL and blood neutrophils. Immunofluorescence double staining of PBL with C4B6 and D8B3 showed double staining of all mab+ cells and D8B3 was apparently not able to block the binding of C4B6 to PBL. Immunofluorescence double staining of PBL also revealed more E3D9+ than C4B6+ neutrophils. In immunostaining on cryostat sections of spleen and head kidney, staining of cells was observed with all the mabs, the head kidney generally containing more positive cells than the spleen. Some potential applications for immunological studies using these mabs are suggested.     

The effect of triploidy and vaccination on neutrophils and B-cells in the peripheral blood and head kidney of 0+ and 1+ Atlantic salmon (Salmo salar L.) post-smolts

Sterile triploid fish are being used in aquaculture to prevent early unwanted sexual maturation and the genetic interaction between wild and cultured fish; however, triploid fish are typically considered to be more susceptible to disease than diploid counterparts. Proportions of leucocytes from the head kidney and peripheral blood were identified using monoclonal antibodies and flow cytometry in triploid and diploid, vaccinated and unvaccinated, out-of-season (0+) and 1+ Atlantic salmon (Salmo salar L.) three weeks post seawater transfer. Triploid 1+ fish were significantly (P<0.05) heavier than diploid fish at the time of sampling, whereas triploid 0+ had a significantly lower condition factor than diploids. Ploidy had a significant effect on the proportion of B-cells in the blood of both 0+ and 1+ fish, and the head kidney of 1+ fish, with triploids having lower proportions of B-cells to diploids in both smolt groups. In addition, a significant ploidy×vaccination interaction effect was observed in the response of neutrophils in the blood (vaccinated diploids had a higher mean proportion than diploid unvaccinated) and B-cells in the head kidney (in vaccinated fish, triploids had a lower mean proportion than diploids) in 0+ smolts. Vaccination was found to significantly increase the proportion of B-cells in the head kidney of 1+ smolts in both ploidy. Size (fish weight) was positively correlated with neutrophil proportions in 1+ fish. Our findings are discussed in relation to the physiological differences related to ploidy. The results suggest that ploidy as well as smelting regime influences the immune system of Atlantic salmon post-smolts.     

Methodological aspects of assessing phagocytosis of Vibrio anguillarum by leucocytes of gilthead seabream (Sparus aurata L.) by flow cytometry and electron microscopy

In this paper we optimize a flow cytometric method for evaluating the phagocytic activity of leucocytes in gilthead seabream (Sparus aurata L.) and characterize the phagocytic cells observed. Optimal conditions were established for the fluorescein-labelling and analysis of the bacterium Vibrio anguillarum by flow cytometry. Head-kidney leucocytes were incubated with the heat-killed fluorescein isothiocyanate (FITC)-labelled bacteria for different periods, during which the kinetics of phagocytosis was studied. Attached and interiorized bacteria were distinguished. Although phagocytic ability reached a maximum after 60 min, phagocytic capacity reached its maximum at 20 min. The amount of ingested bacteria per phagocyte was estimated from the mean fluorescence of the leucocytes. Cytochalasin B or colchicine was used to inhibit phagocytosis. Monocyte-macrophages and acidophilic granulocytes showed phagocytic activity as demonstrated by transmission electron microscopy. In conclusion, the technique presented allows the screening of thousands of cells, and individual cell evaluation, by quantifying interiorized particles in fish phagocytes. Our ultrastructural results demonstrate that V. anguillarum is actively phagocytized by seabream macrophages and acidophilic granulocytes.     

The haemoflagellate Trypanoplasma borreli induces the production of nitric oxide,which is associated with modulation of carp (Cyprinus carpio L.) leucocyte functions

In an attempt to characterise the role of nitric oxide (NO) in immune responses of carp, carp leucocytes obtained during an acute T. borreli infection were examined, for their capacity to generate NO. In a second set of experiments the impact NO on viability of the parasite and on the modulation of functional carp leucocyte responses were tested in vitro. Both in carp head-kidneys and in the peripheral blood, the fractions of lymphoblasts among separated leucocytes were increased. However, the relative proportions of granulocytes among head-kidney leucocytes (HKL) significantly decreased during infection, whereas granulocytes appeared among peripheral blood leucocytes (PBL). The cellular dynamics of HKL and PBL of infected carp were paralleled by an enhanced spontaneous NO release in vitro. NO production was further increased after addition of viable parasites to these cultures. The hypothesis that NO had a possible role in granulocyte activation and lymphocyte proliferation in carp was supported by the reduction of mitogen-induced proliferative responses of PBL from healthy carp in the presence of NO donor substances. The negative effects of NO on lymphocyte proliferation were contrasted by enhancing effects on granulocyte functions: the inhibition of NO generation in T. borreli-stimulated HKL cultures by the l-arginine analogue L-NMMA reduced the viability of granulocytes and their phagocytic activity. Even massive amounts of nitric oxide produced by donor substances (up to 600 micromol l(-1) NO(-)(2)) caused no reduction in the numbers of viable T. borreli flagellates in vitro. Thus, in carp, T. borreli seems to induce high amounts of NO in vivo which are apparently not harmful for the parasite but which may interfere with co-ordinated interactions of activated cells aiming at the defence of the parasite.     

Cathepsin D from Atlantic cod (Gadus morhua L.) liver. Isolation and comparative studies

The isolated cathepsin D-like enzyme from Atlantic cod (Gadus morhua L.) liver was shown to be a monomer with a molecular mass of approximately 40 kDa. It was inhibited by Pepstatin A and had an optimum for degradation of haemoglobin at pH 3.0. The purified enzyme had lower temperature stability than bovine cathepsin D. Antibodies raised against the purified enzyme and against two C-terminal peptides of cod cathepsin D recognized a 40 kDa protein in immunoblotting of the samples from the purification process. Both antisera showed cross reactivity with a similar sized protein in liver from cod, saithe (Pollachius virens L.), Atlantic herring (Clupea harengus L.) and Atlantic salmon (Salmo salar L.). A protein of same size was detected in wolffish (Anarhichas lupus L.) liver with the antibody directed against the purified enzyme. This antibody also recognized the native enzyme and detected the presence of cathepsin D in muscle of cod, saithe, herring and salmon. These antibodies may be useful in understanding the mechanisms of post mortem muscle degradation in fish by comparing immunohistochemical localization and enzyme activity, in particular in cod with different rate of muscle degradation. They may also be used for comparing muscle degradation in different fish species.     

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.     

A mannose-receptor is possibly involved in the phagocytosis of Saccharomyces cerevisiae by seabream (Sparus aurata L.) leucocytes

In this paper the possible involvement of the mannose-receptor on the non-specific recognition and phagocytosis of heat killed yeast cells (Saccharomyces cerevisiae) by gilthead seabream (Sparus aurata L.) head-kidney leucocytes was established by studying the ability of different sugars to inhibit the uptake of the yeast cells by leucocytes. Leucocytes were preincubated for 30min with different concentrations of sugar (alpha-mannan, d-mannose, d-fucose, l-fucose, d-glucose, d-glucosamine and n-acetyl-glucosamine, all of them described as specific ligands of the vertebrate mannose-receptor) and afterwards incubated with FITC-labelled yeast cells for phagocytosis assays. The phagocytic ability (percentage of cells with one or more ingested yeast cells within the total cell population) and capacity (number of ingested yeast cells per cell) of leucocytes was analysed by flow cytometry. The results demonstrate the potential existence of a specific receptor-sugar or receptor-yeast cell binding process, which was saturable, specific and dose-dependent. More specifically, when leucocytes were preincubated with appropriate doses of d-mannose, d- or l-fucose, d-glucose or n-acetyl-glucosamine the phagocytosis of yeast cells by head-kidney leucocytes was partially blocked. Seabream leucocytes were also preincubated with chloroquine, a lysosomotropic drug which downregulates (in a nonspecific manner) the expression of mannose-receptors in mammals, before phagocytosis assays were performed. The results demonstrated that the phagocytosis of yeast was completely blocked by this substance. The overall results seem to corroborate the presence of the mannose-receptor in seabream phagocytes, which is involved in the non-specific binding and phagocytosis of yeast cells by head-kidney leucocytes.     

Cloning and characterization of alpha-amylase from Atlantic salmon (Salmo salar L.)

Amylase has a lower activity in carnivorous fish species, particularly in Atlantic salmon. We report the first cloning of a salmonid alpha-amylase cDNA from Atlantic salmon, a major species in aquaculture. By amino acid alignment of several species, we identified a seven amino acid deletion in one of the large loops of the enzyme in relatively close proximity to the active site, that could impair substrate binding. We also found the signal peptide to be less hydrophobic compared to other species. This may affect import into ER during protein synthesis. Active site residues were shown to be conserved. Amylase mRNA expression was shown in pancreatic tissue, liver, and in the heart. Using blocked p-nitrophenyl-maltoheptaoside as a substrate, we measured a low amylase activity in Atlantic salmon intestinal content, which was about half of the activity measured in Atlantic cod, whereas activity measured in rainbow trout was fourteen times higher. Amylase activities in all three species showed similar degree of reduction in hydrolytic activity in a dose-response trial with a wheat amylase inhibitor preparation. This indicates similar specific activity per amylase molecule.     

Pathogenesis and immune response in Atlantic salmon (Salmo salar L.) parr experimentally infected with salmon pancreas disease virus (SPDV)

Atlantic salmon parr were injected intraperitoneally with salmon pancreas disease virus (SPDV) grown on CHSE-214 cells. The viraemia, the histopathological changes in target organs and some immune parameters were taken at intervals up to 30 days post-infection (dpi). The earliest kind of lesion was necrosis of exocrine pancreas, appearing as soon as 2 dpi. It progressed towards complete tissue breakdown at 9 dpi before resolving gradually. Concurrent to this necrosis, a strong inflammatory response was in evidence from 9 dpi in the pancreatic area for a majority of fish. A necrosis of the myocardial cells of the ventricle occurred in infected fish mainly at 16 dpi and it faded thereafter. The monitoring of the plasma viral load showed a rapid haematogenous spreading of SPDV, peaking at 4 dpi, but also the absence of a secondary viraemia. No interferon (IFN) was detected following the infection of parr with SPDV, probably owing to an IFN activity in Atlantic salmon below the detection level of the technique. Neutralising antibodies against SPDV were in evidence from 16 dpi and they showed a time-related increasing titre and prevalence. The phagocytic activity in head-kidney leucocytes was always significantly higher in the infected fish than in the control fish, being particularly high by 9 dpi. Lysozyme and complement levels were both increased and they peaked significantly in the infected fish at 9 and 16 dpi respectively. These results demonstrated that an experimental infection of Atlantic salmon parr with SPDV provoked a stimulation of both specific and non-specific immunity with regards to the viraemia and the histopathology.     

Phagocytosis of Loma salmonae (Microsporidia) spores in Atlantic salmon (Salmo salar), a resistant host, and chinook salmon (Oncorhynchus tshawytscha), a susceptible host

The in vitro phagocytosis of Loma salmonae spores by macrophages of Atlantic salmon and two strains of chinook salmon were investigated. Opsonisation of L. salmonae with plasma factors increased uptake by head kidney macrophages. Macrophages of Atlantic salmon, which are resistant to the parasite, had a significantly higher phagocytic index (PI) than those of chinook salmon, a susceptible species. This may indicate a possible mechanism contributing to resistance in Atlantic salmon or that L. salmonae is able to evade or suppress initial binding by macrophages of chinook. Non-specific binding or lectinophagocytosis was also suggested by significantly higher PI of spores from EDTA treated plasma when compared with no plasma or heat treated plasma. In comparison, uptake of Baker's yeast Saccharomyces cerevisiae by phagocytes was not significantly different between fish species and strains for all treatments.