Immunoglobulin Light Chain Gene Rearrangements, Receptor Editing and the Development of a Self-Tolerant Antibody Repertoire.

Discussion of the antibody repertoire usually emphasizes diversity, but a conspicuous feature of the light chain repertoire is its lack of diversity. The diversity of reported allelic variants of germline light chain genes is also limited, even in well-studied species. In this review, the implications of this lack of diversity are considered. We explore germline and rearranged light chain genes in a variety of species, with a particular focus on human and mouse genes. The importance of the number, organization and orientation of the genes for the control of repertoire development is discussed, and we consider how primary rearrangements and receptor editing together shape the expressed light chain repertoire. The resulting repertoire is dominated by just a handful of IGKV and IGLV genes. It has been hypothesized that an important function of the light chain is to guard against self-reactivity, and the role of secondary rearrangements in this process could explain the genomic organization of the light chain genes. It could also explain why the light chain repertoire is so limited. Heavy and light chain genes may have co-evolved to ensure that suitable light chain partners are usually available for each heavy chain that forms early in B cell development. We suggest that the co-evolved loci of the house mouse often became separated during the inbreeding of laboratory mice, resulting in new pairings of loci that are derived from different sub-species of the house mouse. A resulting vulnerability to self-reactivity could explain at least some mouse models of autoimmune disease.

When monoclonal antibodies are not monospecific: Hybridomas frequently express additional functional variable regions.

Monoclonal antibodies are commonly assumed to be monospecific, but anecdotal studies have reported genetic diversity in antibody heavy chain and light chain genes found within individual hybridomas. As the prevalence of such diversity has never been explored, we analyzed 185 random hybridomas, in a large multicenter dataset. The hybridomas analyzed were not biased towards those with cloning difficulties or known to have additional chains. Of the hybridomas we evaluated, 126 (68.1%) contained no additional productive chains, while the remaining 59 (31.9%) contained one or more additional productive heavy or light chains. The expression of additional chains degraded properties of the antibodies, including specificity, binding signal and/or signal-to-noise ratio, as determined by enzyme-linked immunosorbent assay and immunohistochemistry. The most abundant mRNA transcripts found in a hybridoma cell line did not necessarily encode the antibody chains providing the correct specificity. Consequently, when cloning antibody genes, functional validation of all possible VH and VL combinations is required to identify those with the highest affinity and lowest cross-reactivity. These findings, reflecting the current state of hybridomas used in research, reiterate the importance of using sequence-defined recombinant antibodies for research or diagnostic use.

Gammapatías biclonales: estudio retrospectivo de 47 pacientes / Biclonal gammopathies: retrospective study of 47 patients

Objetivo. Las gammapatías biclonales se caracterizan por una proliferación clonal de cálulas plasmáticas, o sus progenitores linfoides B, con producción de dos inmunoglobulinas anormales (proteínas M o paraproteínas). No conocemos estudios que hayan analizado esta patología en España. Hemos estudiado las enfermedades subyacentes, características de las paraproteínas y evolución de una serie de pacientes con gammapatía biclonal. Material y métodos. Se revisaron las gammapatías clonales del Servicio de Inmunología del Hospital Puerta de Hierro de Madrid, entre los años 1970 y 2011, seleccionando aquellos pacientes con gammapatía biclonal en una determinación. Se recogieron datos epidemiológicos, enfermedad de base, patologías asociadas, terapias recibidas, paraproteína y cuantificación de inmunoglobulinas. Resultados. De los 1.626 casos de gammapatías clonales, 47 eran gammapatía biclonal (2,89%). La mediana de seguimiento fue de 2 años. La principal entidad asociada fue la gammapatía biclonal de significado indeterminado. La composición de paraproteínas más frecuente fue IgG-IgG. En el 81% de los pacientes con una segunda determinación de paraproteína, había desaparecido al menos un componente M. Un tercio de los pacientes no había recibido tratamiento. Conclusiones. Las gammapatías biclonales se asocian fundamentalmente a gammapatía biclonal de significado indeterminado. Ninguna gammapatía biclonal de significado indeterminado evolucionó a patología maligna. En un elevado porcentaje desapareció al menos uno de los dos componentes clonales, a veces de forma espontánea (AU)

Objectives. Biclonal gammopathies are characterized by the clonal proliferation of plasma cells or their B-lymphoid progenitors and are associated with the production of abnormal immunoglobulins (M proteins or paraproteins). There are no known studies that have analyzed this disease in Spain. We studied the underlying diseases, characteristics of paraproteins and the evolution of a series of patients with biclonal gammopathy. Material and methods. We reviewed clonal gammopathies at the Department of Immunology of Hospital Puerta de Hierro in Madrid, between 1970 and 2011, selecting those patients with biclonal gammopathy in one reading. We collected data on the patient's epidemiology, underlying disease, associated diseases, therapies and paraprotein and immunoglobulin levels. Results. Of the 1626 cases of clonal gammapathies, 47 were biclonal gammopathy (2.89%). The median follow-up was 2 years. The main associated condition was biclonal gammopathies of undetermined significance (BGUS). The most common paraprotein combination was IgG-IgG. Upon conducting a second paraprotein reading, 81% of the patients had lost at least 1 monoclonal component. A third of the patients had not undergone treatment. Conclusions. Biclonal gammopathy are fundamentally associated with biclonal gammopathies of undetermined significance. No biclonal gammopathies of undetermined significance evolved to a malignant disease. In a high percentage of patients, at least 1 of the 2 clonal components disappeared, sometimes spontaneously (AU)

Immunoglobulin light chains in medaka (Oryzias latipes).

The gene segments encoding antibodies have been studied in many capacities and represent some of the best-characterized gene families in traditional animal disease models (mice and humans). To date, multiple immunoglobulin light chain (IgL) isotypes have been found in vertebrates and it is unclear as to which isotypes might be more primordial in nature. Sequence data emerging from an array of fish genome projects is a valuable resource for discerning complex multigene assemblages in this critical branch point of vertebrate phylogeny. Herein, we have analyzed the genomic organization of medaka (Oryzias latipes) IgL gene segments based on recently released genome data. The medaka IgL locus located on chromosome 11 contains at least three clusters of IgL gene segments comprised of multiple gene assemblages of the kappa light chain isotype. These data suggest that medaka IgL gene segments may undergo both intra- and inter-cluster rearrangements as a means to generate additional diversity. Alignments of expressed sequence tags to concordant gene segments which revealed each of the three IgL clusters are expressed. Collectively, these data provide a genomic framework for IgL genes in medaka and indicate that Ig diversity in this species is achieved from at least three distinct chromosomal regions.

Molecular characterization and expression analysis of four isotypes of immunoglobulin light chain genes in orange-spotted grouper, Epinephelus coioides.

To date, many immunoglobulin (Ig) genes have been identified in diverse teleost species, but the contributions of different types of light chain (IgL) to the immune response remain unclear. Screening of a stimulated kidney cDNA library from orange-spotted grouper (Osg, Epinephelus coioides) resulted in the identification of 26 full Ig light chain (OsgIgL) coding sequences. These 26 OsgIgLs encoded peptides from 235 to 248 amino acid residues and could be grouped into five variable (V(L)) and four constant (C(L)) isotypes. The C(L) regions contained three conserved cysteine residues that may participate in intra- or inter-chain disulfide bond formation. The four C(L) isotypes could be sub-grouped into two serological types: κ (C(L)-I, C(L)-II and C(L)-III) and σ (C(L)-IV), by phylogenetic analysis. The OsgIgL genes were found to be expressed in various tissues, with greatest levels of expression observed in the head-kidney and spleen. The major expression type was C(L)-I, which comprised 92% and 91% of total OsgIgL gene expression in the head-kidney and spleen, respectively. Transcription of all four C(L) isotypes was differentially affected in response to various immunostimulators, including lipopolysaccharide (LPS), poly I:C and grouper iridovirus (GIV). Induction of OsgIgL genes in response to immunostimulators was particularly dramatic in the spleen, suggesting this organ holds particular importance for the regulation of OsgIgL expression. Furthermore, vaccination of grouper with formalin-inactivated GIV also induced differential patterns of expression in all four OsgIgL isotypes. In summary, the significant and diverse patterns of transcriptional induction observed for OsgIgL isotypes in the spleen and head-kidney imply that each isotype may have unique roles in the immune response.

The analysis and quantification of a clonal B cell response in a hyperimmunized anti-D donor.

Healthy volunteers are hyperimmunized with RhD-positive red cells in order to obtain plasma containing high titres of anti-D immunoglobulin, which is used for the prevention of haemolytic disease of the fetus and newborn. We analysed the anti-D immune response in a donor who had been hyperimmunized for 7 years and who showed declining anti-D titres despite re-immunization. A phage display library representing the complete immunorepertoire and a second library representing the IGHV3 superspecies family genes (IGHV3s) repertoire in the donor were constructed and analysed. A clonal Ig-gene rearrangement was quantified in the peripheral blood by limiting dilution polymerase chain reaction (PCR) All RhD-binding phages from both libraries, except one, had heavy chains with IGH-VDJ rearrangements of the same clonal origin, but with different patterns of somatic mutations and joined with different light chains. Limiting dilution PCR performed on mRNA and genomic DNA showed a frequency of 1 clonal B cell in 2000 IgG1/3-positive B cells. We show the presence of clonally related RhD-specific B cells in a hyperimmunized anti-D donor who had declining anti-D titres and who was unresponsive to re-immunization. Furthermore, we found a high frequency of clonal B cells. These results contribute to the understanding of the immune response against RhD in hyperimmunized anti-D donors.