The B-cell receptor (BCR) is of critical importance for normal B cells and for the majority of B-cell malignancies, especially chronic lymphocytic leukemia (CLL). The two major subsets of CLL are biologically distinct, being derived from B cells at different stages of differentiation and carrying unmutated (U-CLL) or mutated (M-CLL) IGHV genes. U-CLL, which has a poorer prognosis, often has relatively conserved (stereotypic) IGHV-HD-HJ sequences, indicative of interaction with large (super)antigens and similar to those in normal naive innate B cells. Conserved sequences are less evident in M-CLL, in keeping with its postfollicular origin. However, both subsets exhibit features of chronic antigen exposure in tissue sites, with local proliferative events, but also downregulation of surface immunoglobulin M but not surface immunoglobulin D, a characteristic of normal anergic B cells. BCR-mediated anergy can spread to other receptors such as CXCR4. Circulating CLL cells retain a shadow of tissue-based events that can reverse over time, but the overall extent of anergy is greater in M-CLL. Despite this stereotypic variety and more genomic complexity, BCR-mediated responses in vitro appear relatively homogeneous in U-CLL, but M-CLL is more heterogeneous. The differential balance between antigen-induced proliferation or anergy is the likely determinant of clinical behavior and possibly of response to kinase inhibitors.
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