Characterization of 2-Cys peroxiredoxin 3 and 4 in common carp and the immune response against bacterial infection.

Accumulating evidence suggests that peroxiredoxins (Prxs) eliminate excessive cellular H2O2 and are important factors in redox signaling pathways. In this study, we cloned the full-length cDNAs and genomic sequences of Prx3 and Prx4 from common carp. The common carp Prx3 and Prx4 open reading frames were 753 base pairs (bp) and 783bp in length, respectively, and contained seven exons and six introns. Multiple sequence alignment and phylogenetic analyses revealed that the common carp Prx1-4 proteins share high identities and similar characteristics with other known animal Prxs. Prx3 and Prx4 mRNA were constitutively expressed in all tissues, and the highest Prx3 and Prx4 transcript abundances occurred in head kidney. Although the highest Prx4 protein and mRNA expression were also observed in head kidney, many differences were detected between Prx4 mRNA and protein expression levels in other tissues. Prx3 expression increased significantly in the head kidney 12h after an Aeromonas hydrophila challenge. The A. hydrophila challenge upregulated Prx3 mRNA expression in liver and spleen, increased Prx4 mRNA expression levels in liver and spleen excluding at 36h in spleen, but decreased Prx4 mRNA expression level in the head kidney. The mature Prx4 peptide was recombinantly expressed and purified using Dextrin Beads 6FF and it exhibited thioredoxin (Trx)-dependent peroxidase activity. These data suggest that Prx3 and Prx4 are constitutive and inducible proteins that might play important roles in innate immune function. The Trx-dependent peroxidase activity analysis of recombinant Prx4 further verified the important role of Prxs in the redox system of fish.

Turbot (Scophthalmus maximus) hepcidin-1 and hepcidin-2 possess antimicrobial activity and promote resistance against bacterial and viral infection.

Hepcidin is an antimicrobial peptide and a regulator of iron homeostasis. In turbot (Scophthalmus maximus), two types of hepcidins have been identified, which share approximately 50% sequence identity. In this study, we examined the antimicrobial potentials of the two hepcidins in the form of synthesized peptides, SmHep1P and SmHep2P. We found that SmHep1P and SmHep2P exhibited apparent bactericidal activities against both Gram-positive and Gram-negative bacteria in a dose-dependent manner. The bactericidal effect of SmHep1P was stronger against Gram-positive bacteria, while the bactericidal effect of SmHep2P was stronger against Gram-negative bacteria. Fluorescence and electron microscopy showed that both peptides were able to bind to the target bacterial cells and alter the surface structure of the cells. In vitro studies showed that SmHep1P and SmHep2P reduced bacterial invasion into cultured fish cells. In vivo studies showed that turbot administered with SmHep1P and SmHep2P exhibited significantly enhanced resistance against bacterial and viral infection. In both in vivo and in vitro studies, the antimicrobial activities of SmHep2P were in most cases significantly stronger than those of SmHep1P. Together these results indicate that the two hepcidins of turbot most likely possess antimicrobial properties and play a role in the innate immune defense against bacterial and viral pathogens.

Immunological study of the outer membrane proteins of Vibrio harveyi: insights that link immunoprotectivity to interference with bacterial infection.

Vibrio harveyi is a bacterial pathogen that affects marine vertebrates and invertebrates. In this study, we identified 13 outer membrane proteins (OMPs) from a pathogenic V. harveyi strain and analyzed their immunological properties. In vivo immunogenicity analysis showed that antibodies specific to recombinant proteins of the 13 OMPs were detected in the antiserum of V. harveyi-infected rat. When used as subunit vaccines to immunize Japanese flounder (Paralichthys olivaceus), all OMPs were able to elicit specific serum antibody production in the vaccinated fish; however, only two OMPs (OMP173 and OMP214) induced high levels (>70%) of relative percent survival. Pre-incubation of V. harveyi with the antisera of protective OMPs significantly impaired bacterial infectivity against peripheral blood leukocytes (PBL), whereas the antisera of non-protective OMPs had no apparent effect on infection. OMP173 antibodies could bind whole V. harveyi cells and exhibit bactericidal effect in a complement-dependent manner. Passive immunization showed that fish received OMP173 antiserum before being infected with V. harveyi exhibited significantly reduced mortality rate and lower bacterial loads in liver, spleen, and kidney. Finally, treatment of FG cells with OMP173 prior to V. harveyi infection protected the cells from bacterial invasion to a significant extent. Take together, these results indicate that two of the examined OMPs induce protective immunity through production of specific antibodies that block bacterial invasion, and that one OMP is likely to be involved in host cell interaction during the infection process. Thus, the immunoprotectivity of the OMPs is probably associated with functional participations of the OMPs in bacterial infection.

Characterization of a c-type lysozyme of Scophthalmus maximus: expression, activity, and antibacterial effect.

Lysozyme is a key component of the innate immune system and plays an important role in antibacterial infection. In this study, we analyzed the expression and activity of a chicken-type (c-type) lysozyme (named SmLysC) from turbot (Scophthalmus maximus). SmLysC is composed of 143 residues and shares 67-90% overall sequence identities with the c-type lysozymes of a number of teleost fish. SmLysC possesses a typical c-type lysozyme domain, which contains the conserved residues E50 and D67 that form the putative catalytic site. SmLysC expression was detected, in increasing order, in head kidney, gill, heart, muscle, brain, spleen, blood, and liver. Bacterial infection caused significant inductions of SmLysC expression in head kidney, spleen, and liver in a time-dependent manner. Immunoblot analysis indicated that SmLysC has a subcellular localization in the extracellular milieu. Recombinant SmLysC (rSmLysC) was able to bind to bacterial cells and inhibit bacterial growth. Enzyme assay showed that the optimal temperature and pH of rSmLysC were 37 °C and pH 6.0 respectively. In contrast to rSmLysC, the mutant protein rSmLysCM1, which bears alanine substitutions at E50 and D67, displayed drastically reduced bacteriolytic activity. rSmLysC was able to inhibit the growth of several fish bacterial pathogens in a manner that depended on the dose of the protein; however, Gram-positive bacteria were in general more sensitive to rSmLysC than Gram-negative bacteria. Together these results indicate that SmLysC is a functional lysozyme that is likely to participate in innate immune defense against extracellular bacterial pathogens, in particular those of Gram-positive nature.

C312M: an attenuated Vibrio anguillarum strain that induces immunoprotection as an oral and immersion vaccine.

Vibrio anguillarum, a Gram-negative bacterial pathogen, is the causative agent of vibriosis that affects a wide range of aquatic animals. In this study, we obtained a mutant V. anguillarum, C312M, derived from the pathogenic V. anguillarum C312 by selection of rifampicin resistance. C312M was slower in growth than the wild type C312, particularly under conditions of iron depletion. Compared to C312, C312M was altered in protein production profile and exhibited a dramatically increased median lethal dose. Safety analysis showed that C312M was stable in virulence in the absence of selective pressure. To examine the potential of C312M as a live attenuated vaccine, Japanese flounder Paralichthys olivaceus were vaccinated with C312M via oral, immersion, and oral plus immersion routes. Microbiological analysis showed that C312M was recovered from the gut, liver, kidney, and spleen of the vaccinated fish in 1 to 14 d post-vaccination. When the fish were challenged with C312 at 1 mo post-vaccination, C312M-vaccinated fish exhibited relative percent survival rates of 60 to 84%. Comparable protection was observed when the fish were challenged with a heterologous V. anguillarum strain. Further analysis showed that C312M-vaccinated fish produced specific serum antibodies which enhanced serum bactericidal activity in a manner that is probably complement-dependent. These results indicate that C312M is highly attenuated in virulence but still retains residual infectivity, and that C312M is an effective vaccine when delivered alive via immersion and oral feeding.