Ig light chain variability in DNP(494)-KLH immunised sea bass (Dicentrarchus labrax L.): evidence for intra-molecular induced suppression

Computational modeling of immune system of the fish for a more effective vaccination in aquaculture

Motivation

A computational model equipped with the main immunological features of the sea bass (Dicentrarchus labrax L.) immune system was used to predict more effective vaccination in fish. The performance of the model was evaluated by using the results of two in vivo vaccinations trials against L. anguillarum and P. damselae.

Results

Tests were performed to select the appropriate doses of vaccine and infectious bacteria to set up the model. Simulation outputs were compared with the specific antibody production and the expression of BcR and TcR gene transcripts in spleen. The model has shown a good ability to be used in sea bass and could be implemented for different routes of vaccine administration even with more than two pathogens. The model confirms the suitability of in silico methods to optimize vaccine doses and the immune response to them. This model could be applied to other species to optimize the design of new vaccination treatments of fish in aquaculture.

Availability and implementation

The method is available at http://www.iac.cnr.it/∼filippo/c-immsim/.

Contact

nromano@unitus.it.

Supplementary information

Supplementary data are available at Bioinformatics online.

Immunoglobulin genes and their transcriptional control in teleosts

Immunoglobulin (Ig), which exists only in jawed vertebrates, is one of the most important molecules in adaptive immunity. In the last two decades, many teleost Ig genes have been identified by in silico data mining from the enormous gene and EST databases of many fish species. In this review, the organization of Ig gene segments, the expressed Ig isotypes and their transcriptional controls are discussed. The Ig heavy chain (IgH) locus in teleosts encodes the variable (V), the diversity (D), the joining (J) segments and three different isotypic constant (C) regions including Cμ, Cδ, and Cζ/τ genes, and is organized as a "translocon" type like the IgH loci of higher vertebrates. In contrast, the Ig light (L) chain locus is arranged in a "multicluster" or repeating set of VL, JL, and CL segments. The IgL chains have four isotypes; two κ L1/G and L3/F), σ (L2) and λ. The transcription of IgH genes in teleosts is regulated by a VH promoter and the Eμ3' enhancer, which both function in a B cell-specific manner. The location of the IgH locus, structure and transcriptional function of the Eμ3' enhancer are important to our understanding of the evolutional changes that have occurred in the IgH gene locus.

Immunoglobulin light (IgL) chains in ectothermic vertebrates

Four major ancesteral IgL isotypes have been identified κ, λ, σ and σ-cart. However, depending on the vertebrate class the genomic representation of these isotypes differs in regards to what is encoded in the germline and how these genes are organized. Also, the relative contribution of each isotype in immune responses varies. This review focuses on the IgL chains of ectothermic vertebrates, specifically the number of different isotypes, their phylogenetic relationship, genomic organizations and expression.

Construction and characterization of a cDNA library from head kidney of Japanese sea bass (Lateolabrax japonicus)

In this paper, a cDNA expression library from head kidney of Japanese sea bass (Lateolabrax japonicus) was constructed for the first time. The first-strand cDNA was synthesized with Moloney Murine Leukaemia virus reverse transcriptase and the double-stranded cDNA was digested by Xho I enzyme. Size fractionation was performed on CHROMA SPIN-400 columns. cDNA fragments longer than 500 bps were ligated into the lambdaZAPExpress vector. The recombinant DNA was packaged in vitro with Gigapack III gold packaging extract. The titers of the primary and amplified library were 1.0 x 10(5) and 5.0 x 10(9) pfu/ml, respectively. To characterize the constructed cDNA library, 15 phage plaques were selected randomly to test the inserted fragments. The results showed that the inserts were mostly longer than 500 bps. To test the utility, the library was screened with primers designed for three immune-related genes of, Myxovirus resistant (Mx), tumor necrosis factor-alpha (TNF-alpha) and Toll-like receptor (TLR). Results of Blastn and alignment showed that they are members of Mx, TNF-alpha and TLR gene families, respectively, which meets our anticipates for this cDNA library as an immune-related one. These results confirmed that the cDNA library constructed will provide a useful tool for gene cloning and expression analysis in immune system of Japanese sea bass.

Antibody repertoire development in teleosts--a review with emphasis on salmonids and Gadus morhua L

The group of teleosts is highly diverse, comprising more than 23000 extant species. Studies of the teleost antibody repertoire have been conducted in many different species within different orders, though some species and families have been better characterised than others. The Atlantic cod (Gadus morhua L.) and several species within the Salmoninae (e.g. Salmo salar and Oncorynchus mykiss) are among the best-studied teleosts in terms of the antibody repertoire. The estimated size of the repertoire, the organisation of immunoglobulin (IG) gene segments, the expressed IG repertoire, the IgM serum concentration, and the serum antibody responses reveal some fundamental differences between these species. The serum IgM concentration of G. morhua is some ten times higher than that of S. salar, though G. morhua is characterised as a 'low' (or 'non') responder in terms of specific antibody production. In contrast, an antibody response is readily induced in S. salar, although the response is strongly regulated by antigen induced suppression. The IGHD gene of G. morhua has a unique structure, while the IGHM and IGHD genes of S. salar have a characteristic genomic organisation in two parallel loci. In addition, salmonids, express a broad repertoire of IGH and IGI V-region gene segments, while a single V gene family dominates the expressed heavy and light chain repertoire of G. morhua. Little is known about the developing antibody repertoire during ontogeny, in different stages of B-cell maturation, or in separate B-cell subsets. Information on the establishment of the preimmune repertoire, and the possible role of environmental antigens is also sparse.

Characterization and expression of the immunoglobulin light chain in the fugu: evidence of a solitaire type

In this study, we characterized the immunoglobulin light (IgL) chain gene and examined its expression in the fugu (Takifugu rubripes). The cDNA fragment that partially encodes the IgL chain was isolated by RACE and used as a probe for screening for IgL in a fugu splenic cDNA library. The IgL cDNA sequence that we found consisted of a variable (V(L)) and a constant (C(L)) segment. Its structural features were similar to the IgL isotype commonly found in teleosts. Genomic sequence analysis revealed that the IgL gene was organized as two V(L) gene segments (designed V(L1) and V(L2)) followed by single joining (J(L)) and C(L) segment. In addition, an unusual duplicate V(L1) gene segment was found downstream of the C(L) segment. The transcriptional orientation of the V(L) exons was found to be opposite to that of the J(L) and C(L) segments. Genomic blot hybridizations with V(L) and C(L) probes gave multibands, supporting the contention that the teleost IgL forms a multicluster. Both genomic and cDNA sequences analyses showed that all of the constant segments found in the fugu are identical, suggesting that no other isotypes could be found in this species. Comparison of the deduced amino acid sequence of the fugu C(L) domain with those of other species showed a high degree of identity (from 40 to 77%). IgL mRNAs were found to be expressed primarily in the lymphoid tissues. In situ hybridization revealed the presence of IgL-positive cells widely distributed throughout the spleen, head kidney, kidney, and thymus. These results support the contention that the lymphoid tissues are the major sites of antibody production in fish. Since IgL mRNA was also expressed in the skin and gill that are exposed to external antigens, it is likely that mucosal Ig plays an important role in immune protection.

Immunoglobulin V(H)families and light chain isotypes in the spotted wolffish (Anarhichas minor Olafsen)

The spotted wolffish (Anarhichas minor Olafsen) is a species of the Perciformes, the most diverse and numerous order of all fish. A cDNA library from head kidney tissue was screened for immunoglobulin (Ig) heavy and light chain transcripts, and showed highest identity to Ig sequences from other perciform species. So far only one Ig class is described in spotted wolffish, but three V(H)families were identified among the heavy chain transcripts. Highest diversity was located at the CDR3 region and demonstrates the importance of this gene element to the antibody repertoire. Two V(L)families were identified among the light chain clones and three distinct isotypes were present. Use of polymerase chain reaction and in situ hybridisation techniques revealed individual variations in the relative expression of the three isotypes of light chains.

Characterization of cDNA encoding immunoglobulin light chain of the mandarin fish (Siniperca chuatsi)

Immunoglobulin light chain cDNA sequences of a perciform fish, the mandarin fish Siniperca chuatsi were amplified from head kidney mRNA by reverse transcription (RT)-PCR and RACE methods using degenerated primer and gene specific ones. In cDNA sequences of the VL region, nucleotide exchanges were present mainly within CDRs, although a lesser degree of variability was also found in FRs. Moreover, the length of CDR1 and CDR3 in the mandarin fish is shorter than in most other fish species. In the middle of S. chuatsi CL region, a microsatellite sequence (AGC)(6-8) was found, which is also present in another perciform species, the spotted wolffish (Anarhichas minor). The comparison of amino acid sequence of the mandarin fish CL domain with those of other vertebrates showed the highest degree of similarity of 94.5% to the spotted wolffish, while the similarity with rainbow trout (Oncorhynchus mykiss) Ig L1 (62.7%) and channel catfish (Ictalurus punctatus) Ig LG (55.9%) isotypes is also higher. However, there is only 50% identity in the VL regions between the mandarin fish and the wolffish. The sequence similarity of the mandarin fish CL domain with those of higher vertebrate did not readily allow it to be classified as kappa or lambda isotype. The phylogenetic analyses also demonstrated that the CL genes of the mandarin fish and most other teleost fish cluster as a separate branch out of the mammal kappa and lambda branches.

Characterisation of immunoglobulin light chain cDNAs of the Atlantic salmon, Salmo salar L.; evidence for three IgL isotypes

By screening a cDNA library and analysis of DNA produced by a combined 3'RACE/5'-anchored PCR, we have isolated three isotypes of IgL in the Atlantic salmon. Two of the isotypes were homologous to rainbow trout IgL1 and L2 sequences, while the third represents a previously uncharacterised salmonid IgL. The novel type 3 CL region is homologous to spotted wolffish c1 and yellowtail sequences, while the VL region is more similar to channel catfish F class than to any other fish VL sequences. Southern analysis indicates that the gene segments of all three isotypes are organised in multiple clusters. In addition, the VL gene segments of type 3 are arranged in opposite orientation relative to the JL and CL segments, while gene segments in type 2 clusters are all in the same orientation. Although transcripts of type 1 and 3 were readily found in the spleen and head kidney, only minute amounts of type 2 transcripts were seen. The majority of type 3 messages were truncated, suggesting that spliced and full-length transcripts of this isotype probably are present at a low level compared to type 1 transcripts. The uniqueness of the type 3 VLJL sequences suggests that this isotype offers additional diversity to the antigen-binding site of Atlantic salmon immunoglobulins.