Local immune response of two mucosal surfaces of the European seabass, Dicentrarchus labrax, fed tryptophan- or methionine-supplemented diets.

Immune responses relies on an adequate provision of multiple nutrients that sustain the synthesis of key effector molecules. These needs are depicted in the already reported increase of circulating free amino acids in fish under stressful conditions. Since aquaculture and the inherent fish welfare are an emergent call, the immunomodulatory effects of amino acids on gut- and skin-associated lymphoid tissues of the European seabass (Dicentrarchus labrax) were studied under unstressed conditions and after an inflammatory insult. To achieve this goal, fish were distributed in duplicate tanks (fifteen fish per tank) and were fed for 14 days with methionine or tryptophan-supplemented diets at 2× dietary requirement level (MET and TRP, respectively) or a control diet meeting the amino acids requirement levels (CTRL). Afterwards, samples of skin and posterior gut were collected from 6 fish per dietary treatment for the assessment of the immune status while the remaining animals were intraperitoneally-injected with inactivated Photobacterium damselae subsp. piscicida and subsequently sampled either 4 or 24 h post-injection. The immune status of both mucosal surfaces was poorly affected, although a tryptophan effect was denoted after bacterial inoculation, with several immune-related genes up-regulated in the gut at 4 h post-injection, which seems to suggest a neuroendocrine-immune systems interaction. In contrast, skin mucosal immunity was inhibited by tryptophan dietary supplementation. Regarding methionine, results were often statistically non-significant, though increasing trends were denoted in a few parameters. Overall, dietary methionine did not significantly affect neither gut nor skin immunity, whereas tryptophan supplementation seems to induce modulatory mechanisms that might be tissue-specific.

Effects of dietary administration of fenugreek seeds, alone or in combination with probiotics, on growth performance parameters, humoral immune response and gene expression of gilthead seabream (Sparus aurata L.).

The use of immunostimulants is considered a promising preventive practice that may help to maintain animal welfare and a healthy environment, while increasing production and providing higher profits. The purpose of this study was to evaluate the effects on gilthead seabream (Sparus aurata L.) of the dietary administration of fenugreek (Trigonella foenum graecum) seeds, alone or combined with one of the following probiotic strains: Bacillus licheniformis (TSB27), Lactobacillus plantarum or Bacillus subtilis (B46). Gilthead seabream were fed a control or one of the supplemented diets for 3 weeks. The effects of these supplemented diets on growth performance parameters and the humoral immune response (natural haemolytic complement, peroxidase, total IgM levels, proteases and antiproteases activities) were evaluated after 2 and 3 weeks of feeding. Simultaneously, the expression levels of some immune-relevant genes (igm, tcr-ß, csfr1 and bd) were measured in the head-kidney. Interestingly, all probiotic supplemented diets increased seabream growth rates, especially the B. licheniformis supplemented diet. Generally, humoral immune parameters were enhanced by the dietary supplementation at the different time points measured. The results showed a significant increases in the immune parameters, principally in fish fed only fenugreek or fenugreek combined with B. subtilis. Furthermore, real time qPCR revealed that dietary supplementation significantly enhances the expression of immune-associated genes in the head-kidney, particularly igm gene expression. These results suggest that fenugreek alone or combined with one of the probiotic strains mentioned enhances the immune response of gilthead seabream, a species with one of the highest rates of production in marine aquaculture.

Impact of date palm fruits extracts and probiotic enriched diet on antioxidant status, innate immune response and immune-related gene expression of European seabass (Dicentrarchus labrax).

The application of additives in the diet as plants or extracts of plants as natural and innocuous compounds has potential in aquaculture as an alternative to antibiotics and immunoprophylactics. The aim of the current study was to evaluate the potential effects of dietary supplementation of date palm fruit extracts alone or in combination with Pdp11 probiotic on serum antioxidant status, on the humoral and cellular innate immune status, as well as, on the expression levels of some immune-related genes in head-kidney and gut of European sea bass (Dicentrarchus labrax) after 2 and 4 weeks of administration. This study showed for the first time in European sea bass an immunostimulation in several of the parameters evaluated in fish fed with date palm fruits extracts enriched diet or fed with this substance in combination with Pdp 11 probiotic, mainly after 4 weeks of treatment. In the same way, dietary supplementation of mixture diet has positive effects on the expression levels of immune-related genes, chiefly in head-kidney of Dicentrarchus labrax. Therefore, the combination of both could be considered of great interest as potential additives for farmed fish.

The treatment with the probiotic Shewanella putrefaciens Pdp11 of specimens of Solea senegalensis exposed to high stocking densities to enhance their resistance to disease.

Aquaculture industry exposes fish to acute stress events, such as high stocking density, and a link between stress and higher susceptibility to diseases has been concluded. Several studies have demonstrated increased stress tolerance of fish treated with probiotics, but the mechanisms involved have not been elucidated. Shewanella putrefaciens Pdp11 is a strain isolated from healthy gilthead seabream (Sparus aurata L.) and it is considered as probiotics. The aim of this study was to evaluate the effect of the dietary administration of this probiotics on the stress tolerance of Solea senegalensis specimens farmed under high stocking density (PHD) compared to a group fed a commercial diet and farmed under the same conditions (CHD). In addition, during the experiment, a natural infectious outbreak due to Vibrio species affected fish farmed under crowding conditions. Changes in the microbiota and histology of intestine and in the transcription of immune response genes were evaluated at 19 and 30 days of the experiment. Mortality was observed after 9 days of the beginning of the experiment in CHD and PHD groups, it being higher in the CHD group. Fish farmed under crowding stress showed reduced expression of genes at 19 day probiotic feeding. On the contrary, a significant increase in immune related gene expression was detected in CHD fish at 30 day, whereas the gene expression in fish from PHD group was very similar to that showed in specimens fed and farmed with the conventional conditions. In addition, the dietary administration of S. putrefaciens Pdp11 produced an important modulation of the intestinal microbiota, which was significantly correlated with the high number of goblet cells detected in fish fed the probiotic diet.

Effects of dietary inulin and heat-inactivated Bacillus subtilis on gilthead seabream (Sparus aurata L.) innate immune parameters.

In the present study, a feeding trial was conducted to evaluate the effect of inulin and heat-inactivated Bacillus subtilis, single or combined, on several innate immune activities of gilthead seabream (Sparus aurata). Forty-eight specimens were randomly assigned to four dietary treatments: 0 (control), inulin (10 g/kg, prebiotic group), B. subtilis (10(7) cfu/g, probiotic group), or B. subtilis + inulin (10(7) cfu/g + 10 g/kg, synbiotic group). After two and four weeks, six fish of each group were sampled, with the main innate immune parameters (natural haemolytic complement activity, serum and leucocyte peroxidase, phagocytosis, respiratory burst, and cytotoxic activities) being determined. Inulin or heat-inactivated B. subtilis failed to significantly stimulate the innate immune parameters assayed, although some activities showed no significant increase through these treatments. A combination of inulin and B. subtilis resulted in an increase of such parameters, with the haemolytic complement activity being the only one significantly stimulated. To conclude, inulin and B. subtilis, when administered as a synbiotic, have a synergistic effect and enhance some innate immune parameters of gilthead seabream.

Effects of 2-deoxy-D-glucose on the immune system of seabream (Sparus aurata L.).

Stressful situations are a major problem in aquaculture because they affect the immune system. 2-Deoxy-D-glucose (2-DG) is a derivative of a glucose analogue that reduces the availability of energy, thereby inhibiting cell metabolism so that it is unable to enter the glycolysis pathway. In this paper, 2-DG has been administered in order to study if the immune function is compromised during metabolic stress. Blood glucose level was measured as an indicator of the inhibition of glycolysis, and the effects of intraperitoneal administration of 2-DG on the main parameters of the humoral (complement, IgM levels and peroxidase activity in blood plasma) and cellular (respiratory burst, intracellular peroxidase level and phagocytosis activity) immune parameters of gilthead seabream (Sparus aurata, L) were evaluated. Furthermore, the expression levels of immune-associated genes (CSF-1R, NCCRP-1, Hep, TCR-ß, IgM(H), MHC-IIα, C3 and IL-1ß) were analyzed by real-time PCR in head-kidney. A total of 5 intraperitoneal injections were performed at 48 h intervals. Three experimental groups were established: a control group injected with phosphate buffer saline, group 2-DG 500 and group 2-DG 750 injected with 500 mg kg⁻¹ and 750 mg kg⁻¹ 2-DG, respectively (N=15). After the third and fourth injection, some specimens of both DG-treated groups died. Following the first and third injection, the blood glucose levels of both 2-DG treated groups increased to a statistically significant extent with respect to the control group. While the humoral immune parameters were not significantly affected as a consequence of 2-DG administration, the cellular activities of leucocytes were. The injection of 500 mg kg⁻¹ 2-DG provoked up- or down-regulation of the immune-relevant genes analyzed, while the injection of 750 mg kg⁻¹ always caused down-regulation of these genes. The results suggest that 2-DG provokes metabolic stress, which reduces the activities carried out by immune cells (leucocytes) and induces down-regulation of the immune-relevant genes analyzed when the energy available to the cell decreases.