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.

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

The coding sequence of the sea bass light chain was obtained by sequential anchored PCR on a head kidney cDNA library of a DNP(494)-KLH immunised sea bass. The cDNA sequence obtained codes for a leader peptide of 21aa and a mature IgL chain of 223aa. Both the amino acid sequence comparisons and neighbour-joining trees showed that the IgL chain of sea bass obtained is of the L1/G type. To study the variability of the light chain, additional PCRs on the cDNA library and cDNA from pooled head kidneys were performed. Multiple alignment of unique sequences (N=17) could be performed without introducing gaps, and showed extremely low variability in CDR1, and no variability in CDR2 or CDR3. A possible explanation for this low variability of the IgL1 chain might be the enhanced expression of monospecific anti-DNP antibodies. The isolation and characterisation of partial genomic and cDNA IgL sequences, which showed normal variability, corroborate this explanation.

Characterization of three isotypes of immunoglobulin light chains and T-cell antigen receptor alpha in zebrafish.

The zebrafish (Danio rerio) has become a significant model for understanding the developmental regulation of gene expression and holds considerable potential for characterizing the development of the immune system. Using a number of different approaches, including heterologous hybridization and short-primer PCR, cDNAs for three different classes of light-chain genes were identified and characterized. The zebrafish light chains are similar to trout type 1, trout type 2, and catfish type F, respectively. T-cell antigen receptor alpha (TCRalpha) was also identified and characterized. A high proportion of unusual transcripts including sterile transcripts, germline VJC transcripts, aberrant splice forms, and V-V transcripts were encountered in the immunoglobulin and TCR cDNAs examined. The light-chain and TCRalpha loci each consist of multiple families of V gene segments, apparent even from the small numbers of cDNAs of each isotype sequenced. The gene sequences reported provide an essential set of markers of both B- and T-cell lineages that will facilitate investigations of immune system development.

Isolation and comparison of the IgM heavy chain constant regions from Australian (Trichosurus vulpecula) and American (Monodelphis domestica) marsupials.

cDNAs encoding IgM heavy chain constant region (Cmu) were isolated from two metatherians (marsupials)--the Australian common brushtail possum (Trichosurus vulpecula) and the South American grey short-tailed opossum (Monodelphis domestica). Analysis of the sequences suggested that they correspond to the secreted form of Cmu in both species. The domain size and structure of the marsupial Cmu sequences were compared with other Cmu sequences and a high degree of conservation throughout vertebrate evolution was observed. Amino acid sequence comparisons revealed a marked level of sequence similarity between the two marsupial sequences (79%), relatively high similarity between the marsupials and eutherians (63%), and lower similarities between marsupials and birds (45%), marsupials and amphibians (47%), marsupials and reptiles (45%) and marsupials and fish (37%). These data allow the incorporation of metatherians into the study of mammalian IgM evolution.

Antibodies of sharks: revolution and evolution.

The combinatorial immune response is restricted to jawed vertebrates with cartilaginous fishes being the lowest extant species to have the mechanism for diversification and an extensive panoply of immunoglobulins, T-cell receptors and MHC products. Here, we review the molecular events of the "big bang" or rapid evolutionary appearance of the functionally complete combinatorial immune system coincident with the appearance of ancestral jawed vertebrates, suggesting that this event was catalyzed by horizontal transfer of DNA processing systems. We analyze the nature and extent of variable and constant domain diversity among the distinct immunoglobulin sets of carcharhine sharks focusing upon the lambda-like light chains and the mu and omega heavy chains. The detection and isolation of natural antibodies from the blood of unimmunized sharks illustrates a surprising range of recognition specificities and the existence of polyspecificity suggests that the antibody-forming system of sharks offers unique opportunities for studies of immunological regulation. Although the homologies between shark and mammalian immunoglobulins are unequivocal, major differences in segmental gene organization present challenges to our understanding of basic immunological phenomena such as clonal restriction.

Immunogenic and antigenic epitopes of Ig. XXV. Monoclonal antibodies that differentiate the Mcg+/Mcg- and Oz+/Oz- C region isotypes of human lambda L chains.

The C region of human lambda L chains is specified by multiple C lambda genes of which three--C lambda 1, C lambda 2, and C lambda 3--encode for the isotypes designated Mcg+, Kern- Oz-, and Kern- Oz+, respectively. The Mcg, Kern, and Oz factors have been characterized by sequence differences involving specific C lambda amino acid residues. They have also been recognized serologically by polyclonal antisera but, with rare exception, these reagents are no longer available. We have obtained two murine anti-human lambda-chain mAb, 14G1 and 14D1, that recognize antigenic determinants specific for the C lambda isotypes Mcg and Oz, respectively. These antisera have been used to classify as Mcg+/Mcg- or Oz+/Oz- monoclonal lambda-chains (Bence Jones proteins) and intact Ig lambda proteins. There was complete concordance between the chemical and serologic assignment of lambda-chains as Mcg+/Mcg- or as Oz+/Oz-; no single protein expressed both isotypes. There was no evident association between the C region isotype Mcg or Oz and the V region subgroup of the protein tested. However, our finding that four of seven amyloid-associated lambda VI Bence Jones proteins were Oz+ suggests a predominant expression of the C lambda 3 gene product among proteins of this uncommon V lambda subgroup.