The aim of this study was to screen for cell surface markers that could discriminate CLL-type MBL from CLL or identify CLL cases likely to have stable disease.
Six color flow cytometry was performed on CLL-type MBL (n = 94) and CLL (n = 387) at diagnosis or relapse; 39 cases had poor-risk chromosomal abnormalities (17p and/or 11q deletion). Expression of 30 markers was analysed: CCR6, CD10, CD103, CD11c, CD138, CD200, CD22, CD23, CD24, CD25, CD27, CD31, CD38, CD39, CD43, CD49d, CD5, CD52, CD62L, CD63, CD79b, CD81, CD86, CD95, CXCR5, HLADR, IgD, IgG, IgM, LAIR1.
There was no difference in expression between CLL-type MBL and CLL for the majority of markers. Differential expression was observed for several markers, mainly between MBL and CLL cases with adverse-risk chromosomal abnormalities. These differences included lower expression of CD38 (9.4-fold lower, P = 0.007) and CD49d (3.2-fold lower, P = 0.008) and higher expression of LAIR-1 (3.7-fold higher, P = 0.003), CXCR5 (1.25-fold higher, P = 0.002), and CCR6 (1.9-fold higher P < 0.001) on CLL-type MBL compared to CLL with adverse chromosomal abnormalities. CD62L (L-selectin) which mediates lymphocyte adhesion to endothelial venules of lymphoid tissue, was expressed at a significantly different level between CLL-type MBL and both CLL sub-groups, with 1.3-fold lower (P = 0.04) expression levels on the MBL cases. However, there was broad overlap in expression levels.
CLL-type MBL is phenotypically identical to CLL for a very broad range of markers. Differential expression is predominantly related to known prognostic markers and proteins involved in homing to lymphoid tissue.
© 2010 International Clinical Cytometry Society.

Breach of B cell tolerance is central to the pathogenesis of systemic lupus erythematosus (SLE). However, how B cell tolerance is subverted in human SLE is poorly understood due to difficulties in identifying relevant autoreactive B cells and in obtaining lymphoid tissue. We have circumvented these limitations by using tonsil biopsies to study autoreactive B cells (9G4 B cells), whose regulation is abnormal in SLE. Here we show that 9G4 B cells are physiologically excluded during the early stages of the GC reaction before acquiring a centroblast phenotype. Furthermore, we provide evidence to indicate that an anergic response to B cell receptor stimulation may be responsible for such behavior. In contrast, in SLE, 9G4 B cells progressed unimpeded through this checkpoint, successfully participated in GC reactions, and expanded within the post-GC IgG memory and plasma cell compartments. The faulty regulation of 9G4 B cells was not shared by RA patients. To our knowledge, this work represents the first comparative analysis of the fate of a specific autoreactive human B cell population. The results identify a defective tolerance checkpoint that appears to be specific for human SLE.