Microarray analyses of gene expression in Japanese flounder Paralichthys olivaceus leucocytes during monogenean parasite Neoheterobothrium hirame infection

In this study, the gene expression patterns of peripheral blood leucocytes (PBL) from Japanese flounder Paralichthys olivaceus were analyzed during the course of monogenean parasite Neoheterobothrium hirame infection in order to select candidates for molecular biomarkers of infection. cDNA microarray analysis was performed to compare the gene expression patterns of PBL between infected and non-infected fishes. Among the 797 genes analyzed, 45 genes (5.6%) changed their expression levels. These genes included specific and non-specific immune-related genes (matrix metalloproteinase[MMP]-9, MMP-13, leukotriene B4 receptor, CD20 receptor, MHC [major histocompatibility complex] Class I, MHC Class II beta-chain, immunoglobulin light chain and immunoglobulin heavy chain). Significant up- and down-regulation of some unknown genes was also observed. Several candidates for infection-marker genes were selected for further study. These genes included MMP-9, MMP-13, leukotriene b4 receptor, CD20 receptor, immunoglobulin heavy chain, immunoglobulin light chain and unknown genes coded as B613, E25, LB3(8), WE2(3), WE8-18R and WF12-18R.     

Development of a DNA vaccine against hirame rhabdovirus and analysis of the expression of immune-related genes after vaccination

Intramuscular injection of Japanese flounder, Paralichthys olivaceus (average weight approximately 2 g) with 1 and 10 microg of a plasmid DNA vaccine encoding the hirame rhabdovirus (HIRRV) glycoprotein gene (pCMV-HRVg) was found to provide strong protection against HIRRV. We also conducted a real-time PCR analysis to quantify immune-related genes, e.g. MHC class Ialpha, IIalpha, IIbeta, TCR-alpha, beta1, beta2 and delta, to characterize the immune response at 1 and 7 days after DNA vaccination. In general, the copy numbers were at least 2-fold higher than those of the non-vaccinated fish. Interestingly, the gene expression of TCR beta1 and beta2 increased 1 day post-DNA vaccination, after which their copy numbers returned to levels similar to those before vaccination. These results suggest that the immune system of Japanese flounder was activated immediately after DNA immunization.     

Intraperitoneal vaccination of Atlantic cod, Gadus morhua with heat-killed Listonella anguillarum enhances serum antibacterial activity and expression of immune response genes

Serum-mediated reduction in bacterial count and expression of a number of immune response genes in the blood of Atlantic cod, Gadus morhua were investigated following intraperitoneal vaccination with heat-killed Listonella (Vibrio) anguillarum. Blood was collected from the caudal vein of both vaccinated and non-vaccinated (PBS-injected) fish at 0, 1, 3, 7 and 10 days post-vaccination (dpv). Serum protein concentration and antibacterial activity of the serum samples were determined. Whole blood was used for semi-quantitative RT-PCR of immune-related genes. Total serum protein was not significantly different between the vaccinated and non-vaccinated groups. Sera from the vaccinated fish significantly reduced L. anguillarum count on 3 dpv, with reductions of at least 2 log colony forming units per ml (CFU/ml) relative to the non-vaccinated fish. Expression of antibacterial genes, bactericidal/permeability-increasing protein/lipopolysaccharide-binding protein (BPI/LBP), g-type lysozyme and transferrin was significantly upregulated in the vaccinated fish, with maximum expression within 7 dpv. Cytotoxic-related and cell-mediated immunity genes such as, apolipoprotein A-I and the non-specific cytotoxic cell receptor protein (NCCRP-1) had maximum expression at 3 and 7 dpv, respectively. Significant upregulation in expression of pro-inflammatory cytokines, IL-1 beta and IL-8 was also observed in the vaccinated fish at 1 dpv. The upregulation of immune response genes following vaccination provides valuable information in the understanding of immune mechanisms against vibriosis in Atlantic cod particularly on the acute phase response during bacterial infection.     

Use of a cDNA microarray to study immunity against viral hemorrhagic septicemia (VHS) in Japanese flounder (Paralichthys olivaceus) following DNA vaccination

Japanese flounder, Paralichthys olivaceus juveniles were vaccinated against viral hemorrhagic septicemia (VHS) by intramuscular injection of 10 microg of a plasmid DNA vector which encodes the viral hemorrhagic septicemia virus (VHSV) glycoprotein (G) gene under the control of the cytomegalovirus promoter. Experimental challenge of two viral doses (1 x 10(2) TCID50 and 1 x 10(3) TCID50) one month post-vaccination revealed that the G gene was able to induce protective immunity against VHS and this lasted until 21 days after the challenge. The VHSV G-protein gene DNA vaccine had a high protective efficiency, giving relative percentage survival (RPS) values of at least 93%. The defense mechanisms activated by the DNA vaccine were further elucidated by microarray analysis. Non-specific immune response genes such as NK, Kupffer cell receptor, MIP1-alpha and Mx1 protein gene were observed to be up-regulated by the VHSV G-protein DNA vaccine at 1 and 3 days post-immunization. Also, specific immune-related genes including the CD20 receptor, CD8 alpha chain, CD40 and B lymphocyte cell adhesion molecule were also up-regulated during that time. We observed significant up-regulation of some immune-related genes that are necessary for antiviral defense. Significant up- and/or down-regulation of unknown genes was also observed upon DNA vaccination. Our results confirm previous reports that the VHSV G gene elicits strong humoral and cellular immune responses which may play a pivotal role in protecting the fish during virus infections.     

Glyceraldehyde-3-phosphate dehydrogenase of Edwardsiella tarda has protective antigenicity against Vibrio anguillarum in Japanese flounder

Edwardsiella tarda glyceraldehyde-3-phosphate dehydrogenase (GAPDH) may be an effective vaccine candidate against infection by E. tarda in Japanese flounder Paralichthys olivaceus. The GAPDH of E. tarda is highly homologous to that of Vibrio cholerae (91%), and therefore E. tarda GAPDH may have protective antigenicity against Vibrio species. In this study, we immunized Japanese flounder with GAPDH of E. tarda and infected the fish with V anguillarum. The result showed that GAPDH prepared from E. tarda protected Japanese flounder effectively in a challenge of V anguillarum. Therefore, E. tarda GAPDH should be considered as a multi-purpose vaccine candidate against several kinds of pathogenic bacteria.     

Edwardsiella tarda sialidase: Pathogenicity involvement and vaccine potential

Bacterial sialidases are a group of glycohydrolases that are known to play an important role in invasion of host cells and tissues. In this study, we examined in a model of Japanese flounder (Paralichthys olivaceus) the potential function of NanA, a sialidase from the fish pathogen Edwardsiella tarda. NanA is composed of 670 residues and shares low sequence identities with known bacterial sialidases. In silico analysis indicated that NanA possesses a sialidase domain and an autotransporter domain, the former containing five Asp-boxes, a RIP motif, and the conserved catalytic site of bacterial sialidases. Purified recombinant NanA (rNanA) corresponding to the sialidase domain exhibited glycohydrolase activity against sialic acid substrate in a manner that is pH and temperature dependent. Immunofluorescence microscopy showed binding of anti-rNanA antibodies to E.?tarda, suggesting that NanA was localized on cell surface. Mutation of nanA caused drastic attenuation in the ability of E.?tarda to disseminate into and colonize fish tissues and to induce mortality in infected fish. Likewise, cellular study showed that the nanA mutant was significantly impaired in the infectivity against cultured flounder cells. Immunoprotective analysis showed that rNanA in the form of a subunit vaccine conferred effective protection upon flounder against lethal E.?tarda challenge. rNanA vaccination induced the production of specific serum antibodies, which enhanced complement-mediated bactericidal activity and reduced infection of E.?tarda into flounder cells. Together these results indicate that NanA plays an important role in the pathogenesis of E.?tarda and may be exploited for the control of E.?tarda infection in aquaculture.     

Identification of novel putative virulence factors, adhesin AIDA and type VI secretion system, in atypical strains of fish pathogenic Edwardsiella tarda by genomic subtractive hybridization

Edwardsiella tarda, which is known to be the causative agent of edwardsiellosis in freshwater and marine fish, has two motility phenotypes. Typical strains exhibiting motility are isolated mainly from freshwater fish and Japanese flounder. Atypical strains exhibiting non-motility are isolated mainly from marine fish, with the exception of Japanese flounder. Subtractive hybridization was performed to identify genomic differences between these two phenotypes. Two fragments which showed homology to potential virulence factors were isolated from atypical strains: the autotransporter adhesin AIDA and a component of T6SS. We analysed DNA sequences of about 5 kbp containing these fragments and identified two partial ORF, and ORF encoding for other components of T6SS. The predicted amino acid sequences showed remarkably low homology to components of T6SS reported in the typical E. tarda strain PPD130/91. Furthermore, the organization of these ORF was different from the gene cluster of the typical E. tarda strain. AIDA and T6SS may therefore be associated with different pathogenicity in typical and atypical E. tarda hosts.     

Sensitive and rapid detection of edwardsiellosis in fish by a loop-mediated isothermal amplification method

Here we report a rapid and sensitive method (using loop-mediated isothermal amplification [LAMP]) for the diagnosis of edwardsiellosis, a fish disease caused by Edwardsiella tarda, in Japanese flounder. A set of four primers was designed, and conditions for the detection were optimized for the detection of E. tarda in 45 min at 65 degrees C. No amplification of the target hemolysin gene was detected in other related bacteria. When the LAMP primers were used, detection of edwardsiellosis in infected Japanese flounder kidney, and spleen and seawater cultures was possible. We have developed a rapid and sensitive diagnostic protocol for edwardsiellosis detection in fish. This is the first report of the application of LAMP for the diagnosis of a fish pathogen.     

Infection with Edwardsiella tarda causes hypertrophy of liver cells in the Japanese flounder Paralichthys olivaceus

To study the direct cause of liver enlargement in the Japanese flounder Paralichthys olivaceus infected with Edwardsiella tarda, the fish were challenged with E. tarda and reared without feeding. The liver of fish exposed to the bacteria was markedly enlarged compared to that of the controls while no severe histopathological change appeared in the organ during the experiments. No notable difference was observed in the crude fat, glycogen, and water content of the liver between challenged and control fish. The size of liver cells and nuclei of the challenged fish was apparently larger than that of the controls. Analysis of crude DNA in the liver suggested that the number of liver cells of starved control fish significantly decreased during the experiment while that of the challenged fish was maintained at a level of the initial control. RNA/DNA ratio of the liver of challenged fish clearly increased while it decreased in the control fish during the experiment. These observations suggest that liver enlargement of flounder infected with E. tarda, at least in the early stage of infection, is not a result of any readily observable histopathological changes and that E. tarda infection causes hypertrophy of the cells, as well as preventing decrease in liver cell number.     

Immune-related gene expression profiling of yellowtail (Seriola quinqueradiata) kidney cells stimulated with ConA and LPS using microarray analysis

To better understand the immune system of a commercially important fish (yellowtail, Seriola quinqueradiata), we constructed a cDNA microarray containing 1001 selected genes from yellowtail EST and used this to investigate gene expression of primary cultured kidney cells stimulated with ConA and LPS. The total number of up-regulated genes stimulated by LPS was apparently greater than that of ConA stimulation, whereas down-regulated genes were markedly found in ConA-stimulated group. Of the genes that were up-regulated at 3, 6, and 12h after LPS treatment, 12%, 13% and 12%, respectively, were immune-related. Immune-related genes were sorted into 4 groups based on their differential expression patterns against LPS induction. LPS induced the expression of genes related to inflammation, cytokine activity, antigen presentation and antigen binding such as, IL-1beta, CC chemokine with stalk CK2, MHC class II beta chain and immunoglobulin heavy chain. Amplified fragments of RT-PCR products of IgM, IL-1beta, nephrosin, and beta-actin had signal intensities that were comparable to those obtained with the microarray. Overall, these results show that microarrays are a promising tool for uncovering immune mechanism in teleost fish. cDNA sequences of genes were deposited in the GenBank database at DDBJ with accession numbers BB 996897-BB 997897.     

Vaccine efficacy of recombinant GAPDH of Edwardsiella tarda against Edwardsiellosis

Thirty-seven kilodalton glyceraldehyde-3-phosphate dehydrogenase (GAPDH) of Edwardsiella tarda was suggested to be an effective vaccine candidate against E. tarda infection in previous research. For developing a vaccine, obtaining GAPDH in large quantities is necessary. In this study, we determined the complete nucleotide sequence of the gene that encodes GAPDH of E. tarda, and overexpressed the GAPDH of E. tarda by using the Escherichia coli expression system. We immunized Japanese flounder with recombinant GAPDH (rGAPDH) and evaluated its vaccine efficacy. Our results showed that rGAPDH effectively protected Japanese flounder from experimental E. tarda infection, and will contribute to the development of a vaccine against E. tarda.     

Identification of viral induced genes in Ig+ leucocytes of Japanese flounder Paralichthys olivaceus, by differential hybridisation with subtracted and un-subtracted cDNA probes

Up-regulated genes of leucocytes expressing immunoglobulin (Ig+ leucocytes) of hirame rhabdovirus (HRV)-infected Japanese flounder were identified by differential hybridisation, using subtracted and un-subtracted cDNA probes. Ig+ leucocytes were separated from apparently healthy and HRV-infected Japanese flounder by the magnetic beads antibody method using mouse anti-Japanese flounder Ig monoclonal antibody (mab). A cDNA library was constructed from HRV-infected Japanese flounder leucocytes, and was screened with subtracted cDNA probes enriched in genes up-regulated by HRV infection. Fifty cDNAs were isolated for further analysis. These included cDNAs coding for homologues of interferon-inducible 56K protein (IFI56), Stat3, CEF-10, RGS5, inducible poly(A) binding protein, prolylcarboxylpeptidase, basigin III (Ig superfamily), MUC-18 (Ig superfamily), proteasome-nexin 1 (SERPIN), herpes virus entry mediator (TNFR family), collagenase III, gelatinase-b, megakaryocyte stimulating factor, Rab8-interacting protein, IgM, IgD and 20 unknown cDNA clones. The majority of these identified genes are reported for the first time in fish. From leucocytes mRNA for homologues of IFI56, CEF-10, Stat3, SERPIN and inducible poly (A) binding protein expression was shown to increase following HRV infection.     

Expressed sequence tags analysis of Atlantic halibut (Hippoglossus hippoglossus) liver, kidney and spleen tissues following vaccination against Vibrio anguillarum and Aeromonas salmonicida

To investigate the response of Atlantic halibut to vaccination and pathogen exposure, a cDNA library was constructed from liver, kidney and spleen mRNA collected following vaccination against Vibrio anguillarum and Aeromonas salmonicida. After sequencing 1114 clones 1072 (96.23%) readable sequences were obtained of which 106 sequences are the first reported from the fish. Of these, 182 clones (16.98%) contained cell/organism defence genes including immunoglobulin light chain, MHC class I and II, interferon consensus sequence binding protein, B-cell receptor-associated protein, early B-cell factor, 10 complement components, heat shock protein 70 and 90, antimicrobial peptides hepcidin type 1 and 2, and CC chemokine (macrophage inflammatory protein-1 beta-like chemokine, MIP-1beta). Expression of MIP-1beta-like was elevated in the kidney and spleen at 1, 2, 7 and 14 days post vaccination. Functional genes involved in cellular processes of hematopoietic tissues were also identified. These results indicate that this cDNA library contains many important genes involved in the immune response, making it an important resource for studying the response of Atlantic halibut to vaccination or pathogen exposure.     

Generation of two auxotrophic genes knock-out Edwardsiella tarda and assessment of its potential as a combined vaccine in olive flounder (Paralichthys olivaceus)

Two auxotrophic genes that play essential roles in bacterial cell wall biosynthesis--alanine racemase (alr) gene and aspartate semialdehyde dehydrogenase (asd) gene--knock-out Edwardsiella tarda (Δalr Δasd E. tarda) was generated by the allelic exchange method to develop a combined vaccine system. Green fluorescent protein (GFP) was used as a model foreign protein, and was expressed by transformation of the mutant E. tarda with antibiotic resistant gene-free plasmids harboring cassettes for GFP and asd expression (pG02-ASD-EtPR-GFP). In vitro growth of the mutant E. tarda was similar to wild-type E. tarda when D-alanine and diaminopimelic acid (DAP) were supplemented to growth medium. However, without d-alanine and/or DAP supplementation, the mutant showed very limited growth. The Δalr Δasd E. tarda transformed with pG02-ASD-EtPR-GFP showed a similar growth pattern of wild-type E. tarda when D-alanine was supplemented in the medium, and the expression of GFP could be observed even with naked eyes. The virulence of the auxotrophic mutant E. tarda was decreased, which was demonstrated by approximately 10? fold increase of LD?? dose compared to wild-type E. tarda. To assess vaccine potential of the present combined vaccine system, olive flounder (Paralichthys olivaceus) were immunized with the GFP expressing mutant E. tarda, and analyzed protection efficacy against E. tarda challenge and antibody titers against E. tarda and GFP. Groups of fish immunized with 10? CFU of the Δalr Δasd E. tarda harboring pG02-ASD-EtPR-GFP showed no mortality, which was irrespective to boost immunization. The cumulative mortality rates of fish immunized with 10? or 10? CFU of the mutant bacteria were lowered by a boost immunization. Fish immunized with the mutant E. tarda at doses of 10?-10? CFU/fish showed significantly higher serum agglutination activities against formalin-killed E. tarda than PBS-injected control fish. Furthermore, fish immunized with 10?-10? CFU/fish of the mutant E. tarda showed significantly higher ELISA titer against GFP antigen than fish in other groups. These results indicate that the present double auxotrophic genes knock-out E. tarda coupled with a heterologous antigen expression has a great strategic potential to be used as combined vaccines against various fish diseases.     

Influence of vaccination on the nitric oxide response of gilthead seabream following infection with Photobacterium damselae subsp. piscicida

The nitric oxide (NO) response of vaccinated and non-vaccinated juvenile gilthead seabream was studied in vivo and the NO response of isolated kidney macrophages of fish was studied in vitro. Fish were vaccinated with formalin-killed Photobacterium damselae subsp. piscicida (Pdp) with or without Freund's incomplete adjuvant (FIA) and control fish received phosphate buffered saline (PBS). Thirty days later, fish were injected with a sublethal dose of Pdp and 3 fish/group were bled at time periods thereafter and serum nitrite and citrulline levels were determined as a measure of the NO response. All infected groups showed an increase in NO metabolites from 6h to 27 days, with peak levels at 24 h. However, the response in bacterin-vaccinated fish was significantly higher than in the non-vaccinated group and the bacterin plus FIA resulted in a further significant enhancement. Similarly enhanced NO responses were produced in vitro by isolated macrophages obtained from vaccinated compared with non-vaccinated fish 30 days after vaccination following infection, with the response in macrophages from fish vaccinated with the bacterin plus FIA being significantly higher than those from fish vaccinated with the bacterin alone. Thus, vaccination resulted in an enhanced NO response to infection with Pdp in vivo and in vitro. Furthermore, the level of protection of fish to experimental challenge with virulent Pdp correlated with the level of the NO responses in the different groups.