Analyses of B cells in the bone marrow and secondary lymphoid tissues have revealed a broad range of cell surface markers defining B cell subpopulations, but only a few of these have been used to analyze B cell subpopulations in peripheral blood (PB). We report here the delineation of circulating PB B cell subpopulations by staining for CD19, CD38, and IgD in combination with CD10, CD44, CD77, CD95, CD23, IgM, and the B cell memory marker CD27. The utility of this approach is shown by the demonstration of disturbances of circulating B cell subpopulations in patients with autoimmune disease. Five mature B cell (Bm) subpopulations were identified in normal PB that were comparable with the tonsillar Bm1, Bm2, early Bm5, Bm5 subpopulations and, surprisingly, to the germinal center (GC) founder cell subpopulation (Bm2′ and Bm3δ–4δ), suggesting that some GC founder cells are circulating. No PB B cells resembled the Bm3 and Bm4 GC cells. Remarkably, some cells with the CD38−IgD+ phenotype, previously known as naive Bm1 cells, expressed CD27. The CD38−IgD+ subpopulation therefore includes both naive Bm1 cells and IgD+ memory B cells. This new classification of B cell developmental stages reveals disturbances in the proportions of B cell subpopulations in primary Sjögren’s syndrome (pSS) patients compared with healthy donors and rheumatoid arthritis patients. Patients with pSS contained a significantly higher percentage of B cells in two activated stages, which might reflect a disturbance in B cell trafficking and/or alteration in B cell differentiation. These findings could be of diagnostic significance for pSS.
We investigated the effects of acute starvation on mitogen-induced T-cell activation and Th1/Th2 cytokine responses in rheumatoid arthritis (RA) patients. Ten RA patients with active disease underwent a 7-day fast followed by a 2-week refeeding period. Immunological, hormonal, laboratory and clinical evaluations were carried out on days 0, 7 and 21. Using flow cytometry, mitogen-stimulated T-cell activation was assessed in fresh heparinised blood via analysis of CD69 expression. Production of Th1 (interferon-gamma) and Th2 (interleukin-4, IL-4) cytokines was also assessed by ELISA. The 7-day fast significantly decreased the erythrocyte sedimentation rate, C-reactive protein level, joint count, morning stiffness, body weight, CD4+ and CD8+ counts and CD69+ expression on mitogen stimulated CD4+ lymphocytes. A significant increase in mitogen-induced IL-4 production after fasting was found. The fast markedly reduced serum leptin and insulin-like growth factor-1 concentrations. No significant differences occurred in serum cortisol or prolactin before and after fasting. Decreases in CD4+ lymphocyte activation during fasting correlated with decreases in body weight. Our results suggest that the clinical and laboratory improvements in fasting RA patients may be attributed to decreased CD4+ T-cell activation and an increase in the number and/or function of IL-4-producing Th2 cells. Factors associated with loss of body weight during acute starvation appear to have an inhibitory effect on CD4+ lymphocyte activation.
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