V. Mulero

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

Abstract 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.

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

Abstract. 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.

The tumor necrosis factor α of the bony fish seabream exhibits the in vivo proinflammatory and proliferative activities of its mammalian counterparts, yet it functions in a species-specific manner

Information on the bioactivities of non-mammalian cytokines is scant due to the lack of the recombinant molecules and specific antibodies. We produced the mature predicted peptide of tumor necrosis factor α (TNFα) from the bony fish gilthead seabream (Sparus aurata L.) (sbTNFα), and its biological role was determined in vitro and in vivo. We first demonstrated by analytical size-exclusion chromatography that sbTNFα is an oligomeric protein but the dimer appears to predominate over the trimeric form, in contrast to mammalian TNFα. Intraperitoneal injection of native sbTNFα resulted in (i) priming of the respiratory burst of the peritoneal exudate and head-kidney (HK) leukocytes, the latter being the bone marrow equivalent in fish; (ii) rapid recruitment of phagocytic granulocytes to the injection site, and (iii) induction of granulopoiesis in the HK. Interestingly, sbTNFα was able to induce a strong proliferation of HK cells in vitro, whereas human TNFα did not. Conversely, sbTNFα was not cytotoxic for murine L929 fibroblasts.

Evaluation of candidate reference genes for QPCR during ontogenesis and of immune-relevant tissues of European seabass (Dicentrarchus labrax)

The expression level of mRNA can vary significantly in different experimental conditions, such as stress, infection, developmental stage or tissue. Suitable reference genes are expected to exhibit constant expression levels. However no single gene is constitutively expressed in all cell types and under all experimental conditions. It has become clear that expression stability of the intended reference gene has to be examined before each experiment. For expression studies using quantitative real-time PCR (qPCR) at least two reference genes have to be applied. So far expression studies in the European seabass (Dicentrarchus labrax) as well as in the Gilthead seabream (Sparus aurata) have been performed with only one reference gene (S18, Ef-1 alpha or Gapdh). Though significant variations showed up in other teleost species such as the Atlantic halibut and the zebrafish affirming the need for proper normalization strategies, the present study aims at identifying suitable reference genes among nine candidates [glyceraldehyde-phosphate-dehydrogenase (Gapdh), beta-actin (two regions of beta-actin), 40S ribosomal protein S30 (Fau), ribosomal protein L13 a (L13a), beta2-tubulin (Tubb2) and tyrosine 3 monooxygenase/tryptophan 5-monooxygenase activation protein (Tyr)] for expression analysis of 8 developmental stages and a tissue panel (spleen, liver, kidney and brain) with samples infected with Nodavirus and Vibrio anguillarum in D. labrax. Besides the analysis of raw Ct-values, the gene expression stability was determined using two different software applications BestKeeper and NormFinder. According to both algorithms the best two reference genes for an appropriate normalization approach during D. labrax development are Ef-1 alpha and L13a whereas in the tissue panel Fau and L13a are recommended for qPCR normalization.

17Beta-Estradiol Triggers Postspawning in Spermatogenically Active Gilthead Seabream (Sparus aurata L.) Males

Abstract The testis is a tightly controlled dynamic tissue. In mammals, there is growing evidence that estrogen plays a role in the regulation of testicular functions. In teleosts, high levels of 17beta-estradiol (E2) in serum correlate with the end of spermatogenesis, spawning, and the initiation of postspawning stages when spermatogonia are the main cell types in the testis. Moreover, E2 modulates leukocyte functions in several teleost species. We hypothesized, therefore, that E2 would induce the infiltration of acidophilic granulocytes and cause a resumption of testicular cell proliferation in spermatogenically active gilthead seabream males. Several studies of this species have reported that supraphysiological doses of E2 are needed to induce histological and developmental changes in males. In fact, as gilthead seabream is a protandrous hermaphrodite teleost, long exposures (6–14 wk) to high doses of E2 result in feminization of the males. Taking all this into account, we sharply increased E2 levels during short times by i.p. injecting E2 diluted in coconut oil as the vehicle and sampled the fish after 7, 13, and 18 days to assess the effects that E2 had on spermatogenesis. It was observed that E2 levels in plasma increased, while 11-ketotestosterone (11-KT) and testosterone (T) levels remained unaltered. However, 11-KT and T levels strongly increased in control fish 18 days postinjection. The most relevant result of our study was that E2 accelerates the final events of spermatogenesis, inhibits the proliferation of spermatogonia in early stages, and induces some of the processes that usually occur during postspawning, such as the infiltration of acidophilic granulocytes and the apoptosis of primary spermatogonia. Strikingly, neither the shedding of spermatozoa nor an increase in the proliferative rate of spermatogonia stem cells was observed, probably because of the lack of other necessary stimuli, such as the increase in T levels that takes place during normal postspawning.

Pattern of expression of immune-relevant genes in the gonad of a teleost, the gilthead seabream (Sparus aurata L.).

Immune responses in the testis are regulated in a way that provides protection for the developing male germ cells, while permitting qualitatively normal inflammatory responses and protection against infection. In addition, germ cells are potent targets for the growth factors and cytokines which regulate the reproductive process. Our study analyzes for the first time the pattern of expression of several immune-relevant genes in the gonad of a seasonal breeding teleost fish. The immune molecules analyzed include (i) inflammatory molecules, such as interleukin-1b (il1b), il6, tumor necrosis factor-a (tnfa), cyclooxygenase-2 (cox2) and the NADPH oxidase subunit p40(phox) (ncf4 gene); (ii) the anti-inflammatory cytokine transforming growth factor-b1 (tgfb1) and its type 2 receptor tgfbr2; (iii) innate immune receptors, including toll-like receptor 9 (tlr9), tlr5, tlr22 and macrophage-colony stimulating factor receptor (mcsfr); (iv) lymphocyte receptors, such as the beta subunit of T-cell receptor (Tcrb) and the heavy chain of immunoglobulin M (ighm); (v) the anti-bacterial molecules lysozyme (lyz), hepcidin (hamp) and complement component 3 (c3); (vi) the anti-viral molecule myxovirus (influenza) resistance protein (mx); and (vii) molecules related to leukocyte infiltration, including the CC chemokine ccl4, the CXC chemokine il8 and the leukocyte adhesion molecule E-selectin (Sele). Notably, all of them show a pattern of expression that depends on the reproductive stage of the first two reproductive cycles when the fish develop and function as males. Furthermore, we demonstrate that some of these immune-relevant molecules, such as Il1b and Mcsfr, are produced by germ cells (Il1b) and ovarian and testicular somatic cells (Mcsfr). These data suggest that, as occurs in mammals, there is a critical balance between immune molecules and that these may play an essential role in the orchestration of gametogenesis and the maintenance of gonad tissue homeostasis in fish.

17β-Estradiol regulates gilthead seabream professional phagocyte responses through macrophage activation

In mammals, estrogens regulate the immune system, either directly or indirectly via several leukocyte types through autocrine/paracrine mechanisms. In the gilthead seabream (Sparus aurata L.) gonad, an intensive remodeling process accompanied by the massive infiltration of acidophilic granulocytes (AG) is partially triggered by 17β-estradiol (E(2)). Once AG infiltrated the gonad, show impaired activities. In this study we first demonstrate that neither testicular nor head-kidney AG express any of the three estrogen receptor (ER) genes (ERa, ERb1 and ERb2) described in the gilthead seabream, while head-kidney macrophages (Mc) and lymphocytes (Ly) constitutively express ERa gene. Moreover, Mc are important in the immune-modulatory role of E(2), as suggested by its ability to induce ERb2 gene expression and up-regulate the expression of genes coding for ERa, ERb1, pro-inflammatory cytokines, chemokines and tissue remodeling molecules. Furthermore, the soluble factors produced by E(2)-treated Mc decreased in head-kidney phagocytes, their phagocytic ability and capacity, while no effects were observed on their reactive oxygen intermediate (ROI) production or their migratory capabilities. However, the role of Ly in the regulation of AG migration and the modulation of phagocytic and ROI production activities triggered by E(2) can not be ruled out, so that further studies are necessary to clarify these issues.

A fish cell surface receptor defined by a mAb mediates leukocyte aggregation and deactivation

Cell adhesion molecules play a key role in the inflammatory response. Selectins, integrins and immunoglobulin gene superfamily adhesion receptors mediate the different steps of leukocyte migration from the blood-stream towards inflammatory foci. In addition to their adhesive function, these receptors modulate major cellular processes such as cell activation, growth, differentiation and death. To characterise the fish molecules involved in cell adhesion, a panel of mAbs was raised by immunising mice with macrophages from the marine fish gilthead seabream (Sparus aurata L.). One of these mAbs, which we named anti-Aggregatin, was found to induce a rapid heterotypic aggregation of seabream leukocytes. Anti-Aggregatin defined a 140-kDa cell surface receptor which was highly expressed by macrophages and was up-regulated after co-stimulation with LPS and MAF. Functionally, the cell adhesion which occurred upon exposure to anti-Aggregatin required Ca(2+), an intact cytoskeleton and an active cell metabolism. More importantly, Aggregatin engagement resulted in strong inhibition of the phagocyte respiratory burst, although the cells showed neither loss of viability nor DNA fragmentation. The results are discussed in relation to the potential role of cell adhesion molecules in fish immune responses.

Three Mx genes with differential response to VNNV infection have been identified in Gilthead seabream (Sparus aurata).

Type I interferons are secreted by infected cells and promote an antiviral state in neighbouring cells by the induction of numerous genes, some of which present antiviral activity, as the Mx proteins. In this study, three different Mx cDNAs (Mx1, Mx2 and Mx3) from gilthead seabream (Sparus aurata), the most important fish species in Southern European aquaculture, have been cloned and characterized. A Southern blot assay revealed the existence of three Mx loci, thus the three Mx isoforms correspond to three different genes that seem to have a common origin. The genomic sequences of Mx1, Mx2 and Mx3 have been completely obtained, and consist on 11 introns and 12 exons in a full length of 5971 bp, 7391 bp and 6938 bp, respectively. As a first approach to the functional meaning of these three genes, their response to the viral nervous necrosis virus (VNNV) infection was tested. Important differences in terms of tissue, time course and level of induction were found between them, thus suggesting a differential functional role for each isoform, which can represent a key point in the natural resistance of this fish species, that has been repeatedly reported as an asymptomatic carrier of VNNV.

Natural and synthetic estrogens modulate the inflammatory response in the gilthead seabream (Sparus aurata L.) through the activation of endothelial cells.

Sex steroids are known to deeply alter processes other than fish reproduction, including fish growth, intermediary metabolism, osmoregulation and immunity. We have previously reported that 17β-estradiol (E(2)), the main fish estrogen, promotes the mobilization of acidophilic granulocytes from the head kidney, the bone marrow equivalent in fish, to the gonad in the bony fish gilthead seabream (Sparus aurata L.). The aim of this study was to investigate the effects of E(2) and 17α-ethinylestradiol (EE(2)), an endocrine disruptor with strong estrogenic effects commonly found in the aquatic environment, on the ability of gilthead seabream endothelial cells (ECs) to promote leukocyte infiltration. E(2) and EE(2) were seen to affect ECs in different ways. Thus, E(2) was able to increase the production of nitric oxide (NO) and up-regulate the expression of the key activation markers, interleukin-1β, CC chemokine ligand 4, interleukin-8, E-selectin and matrix metalloproteinase 9, when used alone or combined with bacterial DNA. In contrast, EE(2) failed to affect NO release and reduced the up-regulation of the above genes promoted by bacterial DNA. Moreover, we found that leukocyte adhesion to ECs was enhanced by E(2) treatment. Collectively, these results suggest that estrogens modulate fish leukocyte trafficking during an inflammatory process by activating ECs.