Stimulation of the innate immune system of carp: role of Toll-like receptors

Toll-like receptors (TLRs), named after the Toll gene identified in fruit flies, are a family of evolutionary conserved proteins that play a key role in the innate immune system. TLRs are found inside or on the surface of immune cells of virtually all-living animals and recognize integral parts of microbes. Thereby, they are excellent candidate receptors for controlled stimulation of the innate immune system of, for example, fish in aquaculture. β-glucans are microbial compounds routinely added to fish feed for their health-promoting effects. They regulate innate immunity by stimulating fish cells to produce more oxygen and nitrogen radicals but are not recognized by TLRs.Instead, TLRs of cyprinid fish (zebrafish, carp) are stimulated by viral and/or parasitic infection. Although immunostimulation by β-glucans occurs via yet undefined receptors certainly, addition of integral but harmless parts of microbes to fish feed may help controlfish diseases in aquaculture.</p

Time and concentration dependency of MacroGard® induced apoptosis

In previous studies an effect of β-glucan on apoptosis in fish was noted and in this investigation we determine the time and concentration dependency of this effect. Primary cell cultures of pronephric carp cells were incubated for 6, 24, 48 h with various concentrations ranging from 0 to 1000 μg/ml of MacroGard® β-glucan. Apoptosis was monitored via acridine orange staining. Results indicate a clear effect of time and concentration on the induction of apoptosis in vitro, with only concentration ≥500 μg/ml causing significantly higher percentages of apoptotic cells. Apoptosis was detected after 6 h. This concentration dependent effect has to be considered when studying apoptosis in relation to immunostimulation

Ligand specificities of Toll-like receptors in fish: indicatiaons from infection studies

Toll like receptors (TLRs) are present in many different fish families from several different orders, including cyprinid, salmonid, perciform, pleuronectiform and gadiform representatives, with at least some conserved properties among these species. However, low conservation of the leucine-rich repeat ectodomain hinders predictions of ligand specificities of fish TLRs based on sequence information only. We review the presence of a TLR genes, and changes in their gene expression profiles as result of infection, in the context of different fish orders and fish families. The application of RT-qPCR and availability of increasing numbers of fish genomes has led to numerous gene expression studies, including studies on TLR gene expression, providing the most complete dataset to date. Induced changes of gene expression may provide (in)direct evidence for the involvement of a particular TLR in the reaction to a pathogen. Especially when findings are consistent across different studies on the same fish species or consistent across different fish species, up-regulation of TLR gene expression could be a first indication of functional relevance. We discuss TLR1, TLR2, TLR4, TLR5 and TLR9 as presumed sensors of bacterial ligands and discuss as presumed sensors of viral ligands TLR3 and TLR22, TLR7 and TLR8. More functional studies are needed before conclusions on ligands specific to (groups of) fish TLRs can be drawn, certainly true for studies on non-mammalian TLRs. Future studies on the conservation of function of accessory molecules, in conjunction with TLR molecules, may bring new insight into the function of fish TLRs

Accessory molecules for Toll-like receptors in Teleost fish. Identification of TLR4 interactor with leucine-rich repeats (TRIL)

The biosynthesis and activation of Toll-like receptors (TLRs) requires accessory proteins. In mammals, a number of accessory proteins have been characterized, that can be classified based on their function as ligand-recognition and delivery cofactors, chaperones and trafficking proteins. We identified the homologs in teleost fish genomes of mammalian accessory molecules and show their expression in transcriptome data sets. Further, we annotate in detail TLR4 interactor with leucine-rich repeats (tril) in zebrafish (Danio rerio) and in common carp (Cyprinus carpio). In mammals, TRIL is a functional component of the TLR4 complex and is important for TLR3 signaling, and is mainly expressed in the brain. In fish, the Tril molecule has many conserved features of mouse and human TRIL, containing 13 leucine-rich repeat domains, a fibronectin and a transmembrane domain. Zebrafish tril could not be detected in the latest assembly of the zebrafish genome (Zv9) and required manual annotation based on genome and transcriptome shotgun sequencing data sets. Carp tril was found in two copies in the draft genome. Both copies of carp tril are constitutively expressed in several organs, with the highest gene expression in muscle, skin and brain. In carp, the tril gene is expressed at high levels in endothelial cells and thrombocytes. We discuss the implication of the presence of most, but not all, accessory molecules for the biosynthesis and activation of tlr molecules in fish

Comparative study of ß-glucan induced respiratory burst measured by nitroblue tetrazolium assay and real-time luminol-enhanced chemiluminescence assay in common carp (Cyprinus carpio L.)

The respiratory burst is an important feature of the immune system. The increase in cellular oxygen uptake that marks the initiation of the respiratory burst is followed by the production of reactive oxygen species (ROS) such as superoxide anion and hydrogen peroxide which plays a role in the clearance of pathogens and tissue regeneration processes. Therefore, the respiratory burst and associated ROS constitute important indicators of fish health status. This paper compares two methods for quantitation of ROS produced during the respiratory burst in common carp: the widely used, single-point measurement based on the intracellular reduction of nitroblue tetrazolium (NBT) and a real-time luminol-enhanced assay based on the detection of native chemiluminescence. Both assays allowed for detection of dose-dependent changes in magnitude of the respiratory burst response induced by ß-glucans in head kidney cells of carp. However, whereas the NBT assay was shown to detect the production of only superoxide anions, the real-time luminol-enhanced assay could detect the production of both superoxide anions and hydrogen peroxide. Only the chemiluminescence assay could reliably record the production of ROS on a real-time scale at frequent and continual time intervals for time course experiments, providing more detailed information on the respiratory burst response. The real-time chemiluminescence assay was used to measure respiratory burst activity in macrophage and neutrophilic granulocyte-enriched head kidney cell fractions and total head kidney cell suspensions and proved to be a fast, reliable, automated multiwell microplate assay to quantitate fish health status modulated by ß-glucans

β-glucan supplemented diets induce high and broad expression levels of TLR3 what explains protection conferred by these additives against viral infections in fish

We have previously observed that in common carp (Cyprinus carpio), administration of β-glucan (MacroGard™) as feed additive leads to a lower expression of pro-inflammatory cytokines suggesting that this immunostimulant may be preventing an acute and potentially dangerous response to infection. However, in general, mechanisms to detect and eliminate pathogens must also be induced in order to achieve an efficient clearance of the infection. Protection against viral diseases acquired through β-glucan-supplemented feed has been extensively reported for several experimental models in fish but the underlining mechanisms are still unknown. Thus, in order to better characterize the antiviral action induced by β-glucans in fish, MacroGardTM was administered daily to common carp in the form of supplemented commercial food pellets. Carp were fed for a period of 25 days prior to intra-peritoneal injection with polyinosinic:polycytidylic acid (poly I:C), a well-known double-stranded RNA mimic that triggers a type-I interferon (IFN) response and a set of immune related genes, including Mx, were analysed by real-time PCR in liver, spleen, head-kidney and mid-gut. Results obtained confirmed that treatment with β-glucan alone generally down-regulated the mRNA expression of pro-inflammatory cytokines when compared to untreated fish, while Mx gene expression remained stable. A similar expression pattern was observed for cytokines in samples obtained from β-glucan fed fish 24 h after injection with poly I:C. However, poly I:C injection markedly increased Mx gene expression but mainly in the group fed with β-glucan. Toll-like receptor 3 (TLR3) is the candidate pattern recognition receptor possibly responsible also in fish for the binding of viral double-stranded RNA and triggering of a type-I IFN response. Through a carp genome data mining, two sequences for carp TLR3 were retrieved (ccTLR3.1 and ccTLR3.2) and characterized. Constitutive gene expression of both genes was detected by real-time PCR in cDNA of all analysed carp organs. Strikingly, 25 days after β-glucan supplementation, very high levels of ccTLR3.2 gene expression were observed in all analysed organs, with the exception of liver. This suggests that β-glucan-mediated protection against viral diseases could be the result of a general induction of ccTLR3.2 gene expression in several organs in carp

Carp Il10 has anti-inflammatory activities on phagocytes, promotes proliferation of memory T-cells and regulates B-cell differentiation and antibody secretion

In the current study, we investigated the effects of carp Il10 on phagocytes and lymphocytes. Carp Il10 shares several prototypical inhibitory activities on phagocytes with mammalian IL-10, including deactivation of neutrophils and macrophages, as shown by inhibition of oxygen and nitrogen radical production, as well as reduced expression of proinflammatory genes and mhc genes involved in Ag presentation. Similar to mammalian IL-10, carp Il10 acts through a signaling pathway involving phosphorylation of Stat3, ultimately leading to the early upregulation of socs3 expression. To our knowledge, this is the first study of the effects of Il10 on lymphocytes in fish. Although Il10 did not affect survival and proliferation of T cells from naive animals, it greatly promoted survival and proliferation of T cells in cultures from immunized animals, but only when used in combination with the immunizing Ag. Preliminary gene expression analysis suggests that, under these circumstances, carp Il10 stimulates a subset of CD8+ memory T cells while downregulating CD4+ memory Th1 and Th2 responses. In addition to the regulatory effect on T cells, carp Il10 stimulates proliferation, differentiation, and Ab secretion by IgM+ B cells. Overall, carp Il10 shares several prototypical activities with mammalian IL-10, including downregulation of the inflammatory response of phagocytes, stimulation of proliferation of subsets of memory T lymphocytes, and proliferation, differentiation, and Ab secretion by IgM+ B lymphocytes. To our knowledge, this is the first comprehensive analysis of biological activities of fish Il10 on both phagocytes and lymphocytes showing functional conservation of several properties of Il10

Identification and functional characterization of nonmammalian Toll-like receptor 20

Like other vertebrate Toll-like receptors (TLRs), the TLRs of teleost fish can be subdivided into six major families, each of which recognize a general class of molecular patterns. However, there also are a number of Tlrs with unknown function, the presence of which seems unique to the bony fish, among which is Tlr20. We identified full-length complementary DNA (cDNA) sequences for tlr20 of zebrafish and common carp, two closely related fish species. Zebrafish have six copies of tlr20, whereas carp express only a single copy. Both zebrafish Tlr20 (at least Tlr20a–d) and carp Tlr20 have 26 leucine-rich repeats (LRRs). Three-dimensional modeling indicates a best fit to the crystal structure of TLR8. Phylogenetic analyses place Tlr20 in the TLR11 family closest to Tlr11 and Tlr12, which sense ligands from protozoan parasites in the mouse. Conservation of genes on zebrafish chromosome 9, which carries tlr20, with genes on mouse chromosome 14, which carries tlr11, indicates Tlr11 could be a possible ortholog of Tlr20. Confocal microscopy suggests a subcellular localization of Tlr20 at the endoplasmatic reticulum. Although in vitro reporter assays could not identify a ligand unique to Tlr20, in vivo infection experiments indicate a role for Tlr20 in the immune response of carp to protozoan parasites (Trypanoplasma borreli). Carp tlr20 is mainly expressed in peripheral blood leukocytes (PBL) with B lymphocytes, in particular, expressing relatively high levels of Tlr20. In vitro stimulation of PBL with T. borreli induces an upregulation of tlr20, supportive of a role for Tlr20 in the immune response to protozoan parasites