Irene Salinas

Monospecies and multispecies probiotic formulations produce different systemic and local immunostimulatory effects in the gilthead seabream (Sparus aurata L.)

The effects of the oral administration of heat-inactivated Lactobacillus delbrüeckii ssp. lactis and Bacillus subtilis, individually or combined, on gilthead seabream immune responses were investigated both systemically and locally in the gut. In a first experiment, seabream (65 g) were fed for 3 weeks different diets supplemented with 1 x 10(7)CFU g(-1)Lactobacillus, 1 x 10(7)CFU g(-1)Bacillus, or 0.5 x 10(7)CFU g(-1)Lactobacillus plus 0.5 x 10(7)CFU g(-1)Bacillus. Controls were fed non-supplemented diet. Six fish per group were sampled at the end of the trial and some humoral and cellular systemic innate immune parameters were evaluated. Feeding the mixture of the two killed bacteria species significantly increased natural complement, serum peroxidase and phagocytic activities compared with controls. In a second experiment, juvenile seabream (13 g) were fed for 3 weeks the same experimental diets and total serum IgM and numbers of gut IgM(+) cells and acidophilic granulocytes were evaluated. All these parameters were significantly higher in the multispecies probiotic group compared to monospecies and control fed groups. The advantages provided by administration of killed probiotic bacteria as well as multispecies versus monospecies formulations are discussed in light of the results obtained and for their possible application in aquacultural practices.

Oral delivery of live yeast Debaryomyces hansenii modulates the main innate immune parameters and the expression of immune-relevant genes in the gilthead seabream (Sparus aurata L.)

Microorganisms isolated from fish can be used as prophylactic tools for aquaculture in the form of probiotic preparations. The purpose of this study was to evaluate the effects of dietary administration of the live yeast Debaryomyces hansenii CBS 8339 on the gilthead seabream (Sparus aurata L.) innate immune responses. Seabream were fed control or D. hansenii-supplemented diets (10(6) colony forming units, CFU g(-1)) for 4 weeks. Humoral (seric alternative complement and peroxidase activities), and cellular (peroxidase, phagocytic, respiratory burst and cytotoxic activities) innate immune parameters and antioxidant enzymes (superoxide dismutase (SOD) and catalase (CAT)) were measured from serum, head-kidney leucocytes and liver, respectively, after 2 and 4 weeks of feeding. Expression levels of immune-associated genes, Hep, IgM, TCR-beta, NCCRP-1, MHC-II alpha, CSF-1R, C3, TNF-alpha and IL-1 beta, were also evaluated by real-time PCR in head-kidney, liver and intestine. Humoral immune parameters were not significantly affected by the dietary supplementation of yeast at any time of the experiment. On the other hand, D. hansenii administration significantly enhanced leucocyte peroxidase and respiratory burst activity at week 4. Phagocytic and cytotoxic activities had significantly increased by week 2 of feeding yeast but unchanged by week 4. A significant increase in liver SOD activity was observed at week 2 of feeding with the supplemented diet; however CAT activity was not affected by the dietary yeast supplement at any time of the experiment. Finally, the yeast supplemented diet down-regulated the expression of most seabream genes, except C3, in liver and intestine and up-regulated all of them in the head-kidney. These results strongly support the idea that live yeast Debaryomyces hansenii strain CBS 8339 can stimulate the innate immune parameters in seabream, especially at cellular level.

Histological changes in intestine of Atlantic salmon (Salmo salar L.) following in vitro exposure to pathogenic and probiotic bacterial strains

Furunculosis and vibriosis are diseases that cause severe economic losses in the fish-farming industry. The foregut of the Atlantic salmon (Salmo salar L.) was exposed in vitro to two fish pathogens, Aeromonas salmonicida (causative agent of furunculosis) and Vibrio anguillarum (causative agent of vibriosis), and to one probiotic strain, Carnobacterium divergens, at 6u2009×u2009104 or 6u2009×u2009106 viable bacteria per milliliter. Histological changes following bacterial exposure were assessed by light and electron microscopy. Control samples (foregut exposed to Ringer’s solution only) and samples exposed only to C. divergens had a similar appearance to intact intestinal mucosal epithelium, with no signs of damage. However, exposure of the foregut to the pathogenic bacteria resulted in damaged epithelial cells, cell debris in the lumen, and disorganization of the microvilli. Co-incubation of the foregut with a pathogen and C. divergens did not reverse the damaging effects caused by the pathogen, although these were alleviated when probiotic bacteria were used. Based on these results, we suggest that the probiotic bacterium, C. divergens, is able to prevent, to some extent, pathogen-induced damage in the Atlantic salmon foregut.

Gilthead seabream ( Sparus aurata L.) innate defence against the parasite Enteromyxum leei (Myxozoa)

The humoral innate immune response of gilthead seabream (Sparus aurata L.) against the myxozoan Enteromyxum leei has been studied. At 10, 22, 38, 52 and 108 days of cohabitation fish were sampled to examine gut histology and to determine serum innate immune parameters and the mRNA expression of pro-inflammatory cytokines (IL-1beta and TNFalpha) in head-kidney. The parasite was successfully transmitted to 45% of the recipient fish and prevalence reached a maximum (62.5%) at the last sampling time (108 days). Recipient fish started to die after 74 days of cohabitation. In general, alternative complement activity was higher whereas the peroxidase level was lower in recipient fish than in controls. Moreover, IL-1beta mRNA expression increased while the TNFalpha gene expression decreased in recipient fish. These data demonstrate the involvement of complement activity in the defence mechanisms of the gilthead seabream against the myxosporean E. leei. Within the recipient fish group, few differences were observed in the studied immune parameters between E. leei-parasitized and non-parasitized recipient fish. Parasitological and immunological implications of E. leei infections in Mediterranean fish farms are discussed.

Cell-mediated cytotoxicity is the main innate immune mechanism involved in the cellular defence of gilthead seabream (Teleostei: Sparidae) against Enteromyxum leei (Myxozoa)

The cellular innate immune response of gilthead seabream (Sparus aurata L.) against the myxozoan Enteromyxum leei was studied. Enteromyxosis was transmitted by maintaining uninfected fish (recipients) together with infected animals. A group of fish not exposed to the infection served as controls. After 10, 22, 38, 52 and 108 days, control and recipient fish were sampled and leucocyte subpopulations and cellular immune responses (leucocyte peroxidases, phagocytosis, respiratory burst and cytotoxicity) of the head‐kidney leucocytes were determined. The percentage of acidophilic granulocytes was significantly lower in non‐parasitized and parasitized recipient fish than in control fish after 22 days but no significant differences were seen between non‐parasitized and parasitized recipient animals. The leucocyte peroxidase content, phagocytosis and respiratory burst activity were seen to have decreased significantly at different sampling times in both non‐parasitized and parasitized recipient fish with respect to the controls, whereas cytotoxic activity was up to 2·3 times higher than in control fish. Within the recipient group, little difference was observed in the studied parameters between non‐parasitized and parasitized fish. These data demonstrate that cytotoxic activity may have an important role in the defence of gilthead seabream against the myxosporean E. leei. Immunological implications of E. leei infections are discussed.

Unmethylated CpG motifs mimicking bacterial DNA triggers the local and systemic innate immune parameters and expression of immune-relevant genes in gilthead seabream

Unmethylated CpG motifs present in bacterial DNA are recognized by leucocyte receptors triggering an immune response. We have evaluated herein the immunomodulatory actions of a CpG motif in an important commercial fish, the gilthead seabream. Thus, 1, 3 and 7days after intraperitoneal injection of the CpG motif the seabream immune parameters and gene expression profile were evaluated. Firstly, humoral innate immune responses were unaffected by CpG ODN 1668. On the other hand, ODN injection significantly enhanced the number of peritoneal leucocytes (PELs) 1day after injection and increased the main innate immune parameters of PELs and HKLs (head-kidney leucocytes). Thus, injection of ODN 1668 significantly increased respiratory burst, peroxidase, cytotoxic and phagocytic activities, with variations in increment and time. The cytotoxic activity of HKLs was the most increased (up to 4.2-fold). Moreover, the expression profile of immune-relevant genes in head-kidney was affected, with substantial up-regulation of TLR9, IL-1beta, Mx, TGFbeta and Gal8 gene expression. These results demonstrate that unmethylated CpG motifs prime the fish immune response with promising applications for aquaculture.

Assessment of different protocols for the isolation and purification of gut associated lymphoid cells from the gilthead seabream (Sparus aurata L.)

Teleost gut associated lymphoid tissue (GALT) consists of leucocyte populations located both intraepithelially and in the lamina propria with no structural organization. The present study aims to assess different protocols for the isolation of GALT cells from an important fish species in the Mediterranean aquaculture, the gilthead seabream. Mechanical, chemical and enzymatic treatments were assayed. Nylon wool columns and continuous density gradients were used for further separation of cell subpopulations. Light microscopy and flow cytometry showed that the highest density band (HD) consisted of a homogeneous lymphocytic population, whereas the intermediate density band (ID) corresponded to epithelial and secretory cells and some lymphocytes. Respiratory burst activity of total cell suspensions revealed very low numbers of potential phagocytic cells, reflecting results from light microscopy and reports in other teleost species. The present data set up the basis for future functional characterization of GALT in seabream.

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 4xa0h post-injection until the end of the experiment (3xa0days). 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 72xa0h, whereas PE acidophils increased after 4xa0h. 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 4xa0h after intraperitoneal injection, whereas the cytotoxic activity of HKLs increased 1 and 2xa0days 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.