Ikunari Kiryu

Identification and characterization of Fugu orthologues of mammalian interleukin-12 subunits

AbstractWe have isolated and characterized cDNAs and genes for pufferfish, Fugu rubripes, (Fugu) orthologues of mammalian interleukin (IL)-12 subunits (IL-12 p35 and IL-12 p40). The deduced amino acid sequences of the Fugu IL-12 subunits showed homology with mammalian IL-12 subunits (p35: 50.4–58.0% similarity; p40: 51.2–55.4% similarity). Phylogenetic analysis confirmed that Fugu IL-12 p35 and p40 genes cluster with their mammalian counterpart lineages. The genomic organization of each of the Fugu IL-12 subunit genes is similar to that of the corresponding mouse IL-12 subunit genes, although the Fugu genes are very compact due to small intron size. Comparative genomic analysis showed conserved syntenies within the IL-12 p35 and p40 regions between Fugu and human, indicating that the Fugu IL-12 p35 and p40 genes are orthologues for mammalian IL-12 p35 and p40 encoding genes, respectively. Expression of IL-12 p35 mRNA was observed in lymphoid tissues and several non-lymphoid tissues, while expression of IL-12 p40 mRNA was constitutive and nearly ubiquitous. In the spleen and head kidney, expression of IL-12 p35 was induced by polyriboinosinic polyribocytidylic acid [poly(I:C)] and not by lipopolysaccharide (LPS), while expression of IL-12 p40 was constitutive and unresponsive to both poly(I:C) and LPS. These results indicate that IL-12 levels are regulated by production of IL-12 p35 mRNA and suggest that IL-12 in fish may be involved in antiviral defense. This is the first report of the identification and characterization of IL-12 subunit cDNAs and genes in a non-mammalian vertebrate.

Development of a new vaccine delivery method for fish: percutaneous administration by immersion with application of a multiple puncture instrument

A new administration method was developed for vaccination of juvenile rainbow trout against beta-haemolytic Streptococcus. This simple and convenient method was equal in effectiveness to intra-peritoneal injection. Small skin lesions were produced using a multiple puncture instrument while fish were immersed in a vaccine suspension containing formalin-killed Streptococcus iniae. Upon challenge 2 weeks after vaccination, mortality of fish vaccinated by this method was 40%, equal to that by intra-peritoneal injection, while non-vaccinated control fish and fish vaccinated by immersion (without multiple puncture) each experienced 80% mortality. High efficacy was obtained with the multiple puncture/immersion method even when vaccine was diluted 10-fold. Quantitative analysis using fluorescent microspheres revealed that both antigen uptake by skin and delivery to the kidney and spleen were more effective with this method than with immersion alone. Microspheres were found in the skin within the pinpoint lesions and pressure mark caused by multiple puncture instrument. The greater protection gained by the present method can be attributed to higher numbers of particulate antigens taken up by fish and delivered to the lymphoid tissues.

MHC class II invariant chain homologues in rainbow trout (Oncorhynchus mykiss).

The MHC class II invariant chain (Ii or CD74) in higher vertebrates is necessary for normal MHC class II loading in endosomal compartments. Detection of an Ii chain in fish would greatly support the idea that MHC class II function in fish and higher vertebrates is similar. Before this study only Ii homologues had been reported in fish that are unlikely to perform true Ii function. In the present study two Ii-like genes, Onmy-Iclp-1 and Onmy-Iclp-2, were detected in rainbow trout. Conservation of elements, particularly in Onmy-Iclp-1, suggests that the encoded proteins may be involved in MHC class II transport and peptide loading as is the Ii protein. The expression pattern of both rainbow trout genes was similar to that of the MHC class II beta chain, with strong expression in the lymphoid tissues, gills and intestine. Analysis of separated peripheral blood leucocyte fractions indicated that expression of Onmy-Iclp-1, Onmy-Iclp-2 and the MHC class II beta chain were all highest in B lymphocytes. This agrees with the expectation that the functions of the products of the new genes are closely associated with MHC class II. It is interesting why in rainbow trout there are two proteins that may function similar to Ii in higher vertebrates.

Polymorphism of two very similar MHC class Ib loci in rainbow trout (Oncorhynchus mykiss)

As part of an ongoing elucidation of rainbow trout major histocompatibility complex (MHC) class I, the polymorphism of two MHC class Ib loci was analyzed. These loci, Onmy-UCA and Onmy-UDA, are situated head-to-tail and share more than 89% nucleotide identity in their open reading frames. They share 80% identity with some trout Ia alleles. The deduced amino acid sequences suggest that the UCA and UDA molecules are transported to endosomal compartments and may bind peptides in their binding groove. Our survey revealed seven UCA and eight UDA alleles. Similarity indices overlap when comparing within and between UCA and UDA alleles and some cross-locus motif variation is observed. In most trout both UCA and UDA transcripts were found. However, there probably is functional redundancy, because some trout lacked transcription of one of the two loci. Furthermore, for some UCA and UDA alleles, splicing deficiencies, early stop codons, and upstream start codons were found, which may interfere with efficient protein expression. The present study is the first extensive report on MHC class Ib polymorphism assigned to locus in ectotherm species.

Development of mRNA-specific RT-PCR for the detection of koi herpesvirus (KHV) replication stage.

An mRNA-specific reverse transcription (RT)-PCR primer set spanning the exon junction of a spliced putative terminase gene in the koi herpesvirus (KHV) was developed to detect the replicating stage of the virus. The proposed RT-PCR amplified a target gene from the RNA template, but not from a DNA template extracted from common carp brain (CCB) cells infected with KHV. In addition, the RT-PCR did not amplify the target gene of templates extracted from specific cell lines infected with either CyHV-1 or CyHV-2. RT-PCR detected mRNA from the scales of koi experimentally infected with KHV at 24 h post exposure (hpe). However, unlike conventional PCR, RT-PCR could not detect KHV DNA in fish at 0 hpe. The results indicate that the RT-PCR developed in this study is mRNA-specific and that the assay can detect the replicating stage of KHV from both fish and cultured cells infected with the virus.

A new putative G-protein coupled receptor gene associated with the immune system of rainbow trout (Oncorhynchus mykiss)

A putative G-protein coupled receptor (GPCR) gene belonging to the rhodopsin-like family was detected in rainbow trout and designated LPSenhR-1. Only moderate homology (<35%) was present with known GPCRs. Semi-quantitative RT-PCR indicated that the gene was expressed predominantly in lymphoid tissues, with highest expression associated with cells of the monocyte/macrophage lineage. Expression was strongly up-regulated by injection with LPS but not by infection with infectious haematopoietic necrosis virus.

Comprehensive validation of T- and B-cell deficiency in rag1-null zebrafish: Implication for the robust innate defense mechanisms of teleosts

Abstractrag1−/− zebrafish have been employed in immunological research as a useful immunodeficient vertebrate model, but with only fragmentary evidence for the lack of functional adaptive immunity. rag1-null zebrafish exhibit differences from their human and murine counterparts in that they can be maintained without any specific pathogen-free conditions. To define the immunodeficient status of rag1−/− zebrafish, we obtained further functional evidence on T- and B-cell deficiency in the fish at the protein, cellular, and organism levels. Our developed microscale assays provided evidence that rag1−/− fish do not possess serum IgM protein, that they do not achieve specific protection even after vaccination, and that they cannot induce antigen-specific CTL activity. The mortality rate in non-vaccinated fish suggests that rag1−/− fish possess innate protection equivalent to that of rag1+/− fish. Furthermore, poly(I:C)-induced immune responses revealed that the organ that controls anti-viral immunity is shifted from the spleen to the hepatopancreas due to the absence of T- and B-cell function, implying that immune homeostasis may change to an underside mode in rag-null fish. These findings suggest that the teleost relies heavily on innate immunity. Thus, this model could better highlight innate immunity in animals that lack adaptive immunity than mouse models.