Haematologica (May 2007)
Molecular characterization of heavy chain immunoglobulin gene rearrangements in Waldenström’s macroglobulinemia and IgM monoclonal gammopathy of undetermined significance
Abstract
Background and Objectives Waldenström macroglobulinemia (WM) and monoclonal gammopathy of undetermined significance (MGUS) are IgM-related disorders in which monoclonal B cells harbor a unique clonotypic rearrangement of the immunoglobulin heavy chain gene (IgH). The aim of this study was to characterize IgH rearrangements in a larger series of IgM-related disorders than any previously described.Design and Methods Seventy-two patients with monoclonal IgM disorders (64 with WM and eight with IgM-MGUS) were studied to amplify and sequence both VDJH and DJH rearrangements. Twenty-nine of them were also tested for the existence of class switch recombination (CSR).Results VDJH and DJH rearrangements were detected in 91% and 42% of WM patients and in 100% and 13% of IgM-MGUS patients, respectively. In WM, the most frequently observed VH family and single segment were VH3 and VH3-23 (76% and 29%, respectively), with their frequencies differing markedly from those that would occur if the rearrangements were random. The VH3-23 segment was never selected in IgM-MGUS. The distribution of both DH and JH families in WM did not differ from that in normal B-lymphocytes. Somatic hypermutation with >2% deviation was seen in 90% of cases of WM and in 71% of IgM-MGUS. DJH rearrangements were more frequent in WM than in MGUS (42% and 13%, respectively). All DJH rearrangements were unmutated, which makes them an attractive target for minimal residual disease investigation. IgM clonotypic transcripts were observed in all cases and IgD in 83%. IgA and/or IgG monoclonal isotypes were seen in three WM cases (14%) but in none of the IgM-MGUS patients.Interpretation and Conclusions WM and IgM-MGUS exhibit dissimilarities in VDJH and DJH rearrangements that could suggest different differentiation processes. There is evidence that WM cells are able to undergo CSR in vivo, a fact that was initially thought to be impossible in this disease.