Gert Flik

Cadmium inhibits plasma membrane calcium transport

SummaryThe interaction of Cd2+ with the plasma membrane Ca2+-transporting ATPase of fish gills was studied. ATP-driven Ca2+-transport in basolateral membrane (BLM) vesicles was inhibited by Cd2+ with anI50 value of 3.0nm at 0.25 μm free Ca2+ using EGTA, HEEDTA and NTA to buffer Ca2+ and Cd2+ concentrations. The inhibition was competitive in nature since theK0.5 value for Ca2+ increased linearly with increasing Cd2+ concentrations while theVmax remained unchanged. The Ca2+ pump appeared to be calmodulin dependent, but we conclude that the inhibition by Cd2+ occurs directly on the Ca2+ binding site of the Ca2+-transporting ATPase and not via the Ca2+-binding sites of calmodulin. It is suggested that Cd2+-induced inhibition of Ca2+-transporting enzymes is the primary effect in the Cd2+ toxicity towards cells followed by several secondary effects due to a disturbed cellular Ca2+ metabolism. Our data illustrate that apparent stimulatory effects of low concentrations of Cd2+ on Ca2+-dependent enzymes may derive from increased free-Ca2+ levels when Cd2+ supersedes Ca2+ on the ligands.

The ultrastructure of chloride cells in the gills of the teleost Oreochromis mossambicus during exposure to acidified water

SummaryBranchial chloride cells, which actively take up ions in the gills of freshwater fish, were studied in tilapia (Oreochromis mossambicus) exposed to sublethally acidified freshwater. Structural damage of cells, resulting in cell death by necrosis, only occurred transiently, when the reduction of water pH was acute rather than gradual. The most prominent effects of water acidification were the rapid increase in the number of chloride cells and the changes in frequency of the different stages of the chloride cell cycle. In the opercular inner epithelium, a twofold increase in cells occurred 48 h after gradual acidification. Cell density stabilized after 4 weeks at a level 5 times that of control fish. Four transitory stages were distinguished in the chloride cell cycle: accessory or replacement cells, immature, mature, and degenerating (apoptotic) cells. In control fish, mature chloride cells dominated (over 50%) with immature and apoptotic cells totalling about 40%. After 4 weeks in acid water, only 13% of the cells were mature. Immature and apoptotic cells dominated, each representing about 40% of the total number of chloride cells. Mature cells apparently age rapidly under these conditions. Thus, chloride cells turn over quickly in acid water, with a minor increase in ion transport capacity of the gills. This conclusion is supported by the observation that opercular and branchial Na+/K+ ATPase activities in treated fish are only 40%–50% higher than in controls.

Two divergent leptin paralogues in zebrafish (Danio rerio) that originate early in teleostean evolution.

We describe duplicate leptin genes in zebrafish (Danio rerio) that share merely 24% amino acid identity with each other and only 18% with human leptin. We were also able to retrieve a second leptin gene in medaka (Oryzias latipes). The presence of duplicate leptin genes in these two distantly related teleosts suggests that duplicate leptin genes are a common feature of teleostean fishes. Despite low primary sequence conservation, we are confident in assigning orthology between mammalian and zebrafish leptins for several reasons. First, both zebrafish leptins share their characteristic gene structure and display key features of conserved synteny with mammalian leptin genes. Secondly, the cysteine residues that make up leptins single disulphide bridge are equally spaced in mammalian and zebrafish leptins and are unique among all members of the class-I helical cytokine family. Thirdly, the zebrafish leptins cluster with other fish leptins and mammalian leptins in phylogenetic analysis, supported by high bootstrap values. Within the leptin cluster, leptin-b forms a separate clade with the leptin-b orthologue from medaka. Finally, our prediction of the tertiary structures shows that both leptins conform to the typical four alpha-helix bundle structure of the class-I alpha-helical cytokines. The zebrafish leptins are differentially expressed; the liver shows high leptin-a expression (in concordance with what we observed for carp leptins), while leptin-b is expressed at much lower levels, which are downregulated further upon fasting. The finding of duplicate leptin genes in teleosts adds to our understanding of the evolution of leptin physiology in the early vertebrate lineage.

Neuroendocrine-immune interactions in fish: a role for interleukin-1

Bi-directional communication between the hypothalamus-pituitary-adrenal (HPA)-axis and the sympathetic nervous system with the immune system is crucial to ensure homeostasis. Shared use of ligands and especially receptors forms a key component of this bi-directional interaction. Glucocorticoids (GC), the major end products of the HPA-axis differentially modulate immune function. Cytokines, especially interleukin-1 (IL-1), tumour necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL-6), ensure immune signalling to the neuroendocrine system. In addition, hormones from leukocyte origin such as corticotropin-releasing hormone (CRH), adrenocorticotropic hormone (ACTH) and beta-endorphin, as well as centrally synthesised and secreted cytokines, contribute to the communication network. In teleost fish cortisol is the major product of the hypothalamus-pituitary-interrenal (HPI)-axis which is the teleost equivalent of the HPA-axis. Moderate and substantial increases in cortisol during stressful circumstances negatively affect B-lymphocytes, whereas rescue of neutrophilic granulocytes may support innate immunity. Recent elucidation of lower vertebrate cytokine sequences has facilitated research into neuroendocrine-immune interactions in teleosts and the first evidence for a significant function of interleukin-1 in the bi-directional communication is discussed.

Cortisol induces apoptosis in activated B cells, not in other lymphoid cells of the common carp, Cyprinus carpio L

In mammalian T and B cells glucocorticoids (GS) regulate development and selection through induction of apoptosis; more recently GS-induced apoptosis has also been implicated in the removal of circulating, activated T and B cells following an immune response. In an earlier report we have given the first evidence for cortisol-induced apoptosis as an immune regulator in an aquatic vertebrate, the common carp. Here we report on subpopulation-specific sensitivity of carp peripheral blood leukocytes (PBL) to cortisol-induced apoptosis. B cells, the most abundant leukocyte subpopulation in fish blood, are sensitised to cortisol-induced apoptosis by activation with the mitogens LPS or PHA. Cortisol-induced apoptosis in B cells is receptor mediated as it is blocked by the synthetic GS receptor blocker RU486. In contrast to what is known for mammalian lymphocytes, apoptosis in carp T cells is hardly affected by cortisol, both in unstimulated and in PHA-stimulated cell cultures. A culture supernatant of PHA-prestimulated PBL, containing IL-2-like activity, decreased spontaneous apoptosis in both T and B cells, but did not affect cortisol-induced apoptosis in B cells. Apoptosis in thrombocytes was unaffected by either mitogens, cortisol, or lymphocyte supernatant. The difference between mammalian and fish leukocyte sensitivity to cortisol is discussed in the light of differences in the immune response of mammals and fish.

12 Calcium Transport Processes in Fishes

Publisher Summary This chapter discusses the calcium transport processes in fishes. Vertebrates are dependent on calcium for the formation of the skeleton and for many cellular functions. This requires the regulation, within narrow limits, of the calcium concentration, in particular ionic calcium, of the intracellular and intercellular fluids. Seawater fishes maintain a high, inside-positive, transepithelial potential across the branchial epithelium that is higher than the equilibrium potential for Ca 2+ , and therefore a passive influx of Ca 2+ from the seawater is also unlikely. For the transcellular uptake of Ca 2+ in the gills, the apical membrane of the ionocyte forms the primary barrier for Ca 2+ between the water and the fish. Taking into consideration the physiological conditions—millimolar concentrations of Ca 2+ outside and submicromolar concentrations in the cytosol—the importance of the apical membrane becomes fully apparent in keeping Ca 2+ out to maintain the physiological intracellular Ca 2+ concentration. A series of specific criteria have also been advanced to positively identify the calcium pump in the basolateral plasma membrane of the gills of fishes.

Effects of water-borne copper on branchial chloride cells and Na+/K+-ATPase activities in Mozambique tilapia (Oreochromis mossambicus)

Abstract Freshwater tilapia (Oreochromis mossambicus) were exposed for different periods up to 28 days to 3.2 μM of water-borne Cu. Electron microscopical analysis of the gills demonstrated significant changes in the structure and number of chloride cells (CCs) from Cu-exposed fish when compared to controls. These cells, which are the main location of the Na+/K+-ATPase of the gills and which play a crucial role in transepithlial Na+ transport, showed a time-related increase of degeneration by apoptosis and necrosis in the Cu-exposed fish. After 28 days of Cu exposure, apoptotic CCs had doubled in number while necrotic CCs had even increased by a factor of ten. The activity of the gill Na+/K+-ATPase and the plasma Na+ concentration decreased in time and in parallel. An inverse relationship between the Na+/K+-ATPase specific activity and the branchial Cu content further supports the notion that this enzyme is very sensitive to Cu2+ inhibition. In contrast to controls, no significant correlation was found in the Cu-exposed fish between the opercular CC number and the gill Na+/K+-ATPase total activities, despite the large increase in number of these cells. This study provides further evidence that not only the number but also the quality of the CCs, may determine to a large extent the branchial capacity of a freshwater fish to absorb Na+ from the surrounding water.

Cortisol inhibits apoptosis in carp neutrophilic granulocytes

The direct effect of cortisol treatment on carp neutrophil viability was examined in vitro. Cortisol treatment caused an inhibition of neutrophil apoptosis. The effect was blocked by glucocorticoid receptor blocker RU486, showing that rescue from apoptosis was receptor mediated. Using binding studies with radioactive cortisol, a single class of glucocorticoid receptors was detected with high affinity (Kd = 2.6 nM) and low capacity (497 receptors/cell) for cortisol binding. Both in vitro and in vivo cortisol treatment did not affect neutrophil respiratory burst activity. These data indicate that cortisol can augment the supply of functional neutrophilic granulocytes in conditions of acute stress, which may be essential for survival, since phagocytes form the first line of defence against micro-organisms.

Differential expression of two interferon-gamma genes in common carp (Cyprinus carpio L.).

Two interferon gamma (IFN-gamma) genes are expressed in immune cells of teleost fish and are potentially implicated in B- and T-lymphocyte responses. IFN-gamma-2 shows structural and functional characteristics to other vertebrate IFN-gamma genes and is associated with T-lymphocyte function. Expression profiling shows IFN-gamma-2 upregulation in T-lymphocytes after phytohemagglutinin (PHA) stimulation in vitro. Unexpectedly, we found IFN-gamma-1, which is structurally different from IFN-gamma-2, to be expressed in lipopolysacharide (LPS)-stimulated IgM+ (B- lymphocyte enriched) fractions. Expression of T-box transcription factor T-bet, but not of GATA-binding protein 3 (GATA3), correlated with expression of both IFN-gamma genes. In-vivo parasite infection, but as predicted not zymosan-induced inflammation, resulted in concomitant upregulation of T-bet and IFN-gamma-2. This corroborates a genuine T-lymphocyte associated role for IFN-gamma-2.

CXC chemokines and leukocyte chemotaxis in common carp (Cyprinus carpio L.)

CXC chemokines, structurally recognizable by the position of four conserved cysteine residues, are prominent mediators of chemotaxis. Here we report a novel carp CXC chemokine obtained through homology cloning and compare it with fish orthologues genes and with a second, recently elucidated, carp CXC chemokine. Phylogenetic analyses clearly show that neither CXC chemokine resembles any of the mammalian CXC chemokines in particular. However, basal expression is most prominent in immune organs like anterior kidney and spleen, suggesting involvement in the immune response. Furthermore we show that anterior kidney phagocyte-enriched leukocyte suspensions express both chemokines and that this expression is upregulated by brief (4 h) stimulation with PMA, but not lipopolysaccharide. Neutrophilic granulocyte-enriched leukocytes display chemotaxis to human recombinant CXCL8 (hrCXCL8; interleukin-8), confirming CXC chemokine mediated chemotaxis of neutrophilic granulocytes in teleost fish. Factors secreted from carp phagocytes are also capable of inducing chemotaxis and secretion of these factors into culture supernatants is upregulated by PMA. Finally we demonstrate involvement of both CXC chemokines as well as CXCR1 and CXCR2 in acute Argulus japonicus infection. Collectively the data presented implicate the involvement of CXC chemokines in chemotaxis of fish neutrophils in a fashion that shares characteristics with the mammalian situation. However, the CXC chemokines involved differ enough from those involved in neutrophil chemotaxis in mammals to warrant their own nomenclature.