Activated memory B cells may function as antigen-presenting cells in the joints of children with juvenile idiopathic arthritis.

OBJECTIVE: B cells impact the perpetuation of chronic inflammatory or autoimmune diseases in multiple ways. A role of B cells as antigen-presenting cells (APCs) in the pathogenesis of chronic arthritis in humans has been suggested; however, as of yet the presence of such B cells at the site of inflammation has not been demonstrated. This study was undertaken to investigate whether synovial B cells in patients with juvenile idiopathic arthritis (JIA) might display features of APCs. METHODS: The frequency, phenotype, and immunoglobulin repertoire of synovial B cells were studied by flow cytometry and single-cell polymerase chain reaction (PCR). Cytokine expression by B cells was analyzed by real-time PCR, and interaction between B cells and T cells was investigated in a mixed lymphocyte culture. RESULTS: CD27+IgD- and CD27-IgD- B cells accumulated in the joints of JIA patients and displayed an activated phenotype. Both B cell subsets expressed hypermutated and class-switched immunoglobulins, indicators of memory B cells. The accumulating memory B cells expressed the costimulatory molecules CD80/CD86 and showed a higher capacity to activate allogeneic T cells and prime a Th1 phenotype than their peripheral blood counterparts. CONCLUSION: Activated immunoglobulin class-switched CD27- and CD27+ memory B cells, indicating a phenotype of APCs with expression of costimulatory molecules, accumulate in the joints of patients with JIA and might be involved in the amplification of pathogenic T cell activation. These findings provide evidence that B cells play an antibody-independent immunopathologic role in human chronic inflammatory arthritis of childhood.

The kappa immunoglobulin light chain repertoire of peripheral blood B cells in patients with juvenile rheumatoid arthritis.

The frequent appearance of antinuclear antibodies in patients with juvenile rheumatoid arthritis (JRA) indicates a loss of tolerance in B cell differentiation and/or activation. In this analysis, we were interested whether particular changes in the immunoglobulin light chain repertoire might exist in early-onset pauciarticular arthritis (EOPA) patients thereby potentially revealing distinct molecular patterns, which characterize defects in central tolerance mechanisms as well as an autoreactive peripheral B cell repertoire. Using single cell sorting and single cell PCR the distribution of Vkappa Jkappa rearrangements has been analyzed in individual naïve B cells of patients with EOPA-JRA and healthy individuals. The immunoglobulin kappa light chain repertoire of peripheral blood B cells in EOPA patients seems to be skewed to a decreased use of downstream Vkappa gene segments indicating increased events of secondary V(D)J-recombination. Another prominent molecular pattern in JRA B cells seem to be a restricted combination of Vkappa Jkappa rearrangements based on the predominant utilization of the Jkappa 1 and 2 gene segment. The current study indicates disturbances in the peripheral B cell pool in juvenile rheumatoid arthritis. The peripheral blood B cell pool of JRA patients did show molecular changes in the kappa light chain repertoire which, in part, could be a sequel of secondary V(D)J-recombination and of a molecular bias during immunoglobulin rearrangement in the bone marrow. Thus, B cell tolerance might be broken by more than one pathogenic mechanism.

Seasonal and habitat-related distribution pattern of Synechococcus genotypes in Lake Constance.

The abundance and distribution of Synechococcus spp. in the autotrophic picoplankton of Lake Constance, were followed in the pelagic and littoral habitat by qPCR over 2 years. One genotype, represented by isolated phycoerythrin-rich strain BO 8807, showed a seasonal distribution pattern in both habitats. Before a stable thermal stratification, the maximum of both the Synechococcus population and genotype BO 8807 occurred at 15 or 20 m water depth in the pelagic habitat. During the summer stratification, when the absolute abundance of all Synechococcus spp. was highest above 15 m, the absolute and relative abundance of genotype BO 8807 was maximal at 20 m. These results indicate that Synechococcus spp. or single genotypes are present in deep maxima in Lake Constance. The in situ dynamics of genotype BO 8807 is consistent with the observation that isolated strain BO 8807 requires higher phosphate concentrations for maximum growth rates than a strain from the same phylogenetic cluster that dominates the pelagic summer population. In contrast to these findings, low genome numbers of phycocyanin-rich genotype BO 8805 were found temporarily only in both the littoral and pelagic plankton. Microscopy revealed that PC-rich cells in general occurred preferentially in the littoral habitat. We discuss our results with respect to the versatility of picocyanobacteria of the evolutionary lineage VI of cyanobacteria, and a habitat-related distribution pattern of Synechococcus genotypes.