Abstract
Amino acid replacement mutations in certain chronic lymphocytic leukemia (CLL) stereotyped B cell receptor (BCR) immunoglobulins (IGs) at defined positions within antigen-binding sites strongly imply antigen selection. Prime examples of this are CLL subset 4 BCR IGs using IGHV4-34/IGHD5-18/IGHJ6 and IGKV2-30/IGKJ2 rearrangements. Conspicuously, and unlike most CLL IGs, subset 4 IGs do not bind apoptotic cells. By testing the (auto)antigenic reactivities of subset 4 IGs toward viable lymphoid-lineage cells and specific autoantigens typically bound by IGHV4-34+ IGs, we found that IGs from both subset 4 and non-subset 4 IGHV4-34-expressing CLL cases bound naïve B cells. However, only subset 4 IGs reacted with memory B cells. Furthermore, subset 4 IGs did not bind DNA nor i or I carbohydrate antigens that are common targets of IGHV4-34-utilizing antibodies in systemic lupus erythematosus and cold agglutinin disease, respectively. Notably, we found that subset 4 IG binding to memory B lymphocytes depends on an aspartic acid at position 66 of FR3 in the rearranged IGKV2-30 gene; this amino acid residue is acquired by somatic mutation. Our findings illustrate the importance of positive and negative selection criteria for structural elements in CLL IGs and suggest that autoantigens driving normal B cells to become subset 4 CLL cells differ from those driving IGHV4-34+ B cells in other diseases.
Highlights
Considerable evidence suggests that normal B cells ushered into the leukemic state in chronic lymphocytic leukemia (CLL) are selected by the structure of their surface membrane immunoglobulin (IG) antigen-binding site [1,2,3]
These results were compared with those obtained using two different CLL clones whose mAbs either use the same IGHV4-34 gene without a stereotyped rearrangement, or use a different IGHV gene and belong to a different stereotyped subset with a distinct B cell receptor (BCR) IG encoded by IGHV1-3/ IGHD6-19/IGHJ4 and IGKV1(D)39/IGKJ2 gene rearrangements
The antigens recognized by subset 4 mAbs are constitutively present on the surface of viable B cells, unlike those antigens brought to the cell surface membrane during apoptosis that are recognized by most other CLL mAbs
Summary
Considerable evidence suggests that normal B cells ushered into the leukemic state in chronic lymphocytic leukemia (CLL) are selected by the structure of their surface membrane immunoglobulin (IG) antigen-binding site [1,2,3]. The concept of stereotyped BCR IGs in CLL has evolved from a scientific enigma [4,5,6] to a defined entity [7,8] to a paradigmatic principle [9,10,11] that supports the concept that leukemic B cell clones are selected for transformation based on structural restrictions in their antigen-binding domains [1,12,13] This principle has been further elaborated in certain CLL stereotyped subsets for which specific amino acid replace-. Subset 4 BCR IGs can continue to acquire somatic mutations over time [15,16], implying that antigen selection operates during clonal evolution
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