Rituximab induces sustained reduction of pathogenic B cells in patients with peripheral nervous system autoimmunity
Michael A. Maurer, Goran Rakocevic, Carol S. Leung, Isaak Quast, Martin Lukačišin, Norbert Goebels, Christian Münz, Hedda Wardemann, Marinos Dalakas, Jan D. Lünemann
Michael A. Maurer, Goran Rakocevic, Carol S. Leung, Isaak Quast, Martin Lukačišin, Norbert Goebels, Christian Münz, Hedda Wardemann, Marinos Dalakas, Jan D. Lünemann
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Research Article Immunology

Rituximab induces sustained reduction of pathogenic B cells in patients with peripheral nervous system autoimmunity

Abstract

The B cell–depleting IgG1 monoclonal antibody rituximab can persistently suppress disease progression in some patients with autoimmune diseases. However, the mechanism underlying these long-term beneficial effects has remained unclear. Here, we evaluated Ig gene usage in patients with anti–myelin-associated glycoprotein (anti-MAG) neuropathy, an autoimmune disease of the peripheral nervous system that is mediated by IgM autoantibodies binding to MAG antigen. Patients with anti-MAG neuropathy showed substantial clonal expansions of blood IgM memory B cells that recognized MAG antigen. The group of patients showing no clinical improvement after rituximab therapy were distinguished from clinical responders by a higher load of clonal IgM memory B cell expansions before and after therapy, by persistence of clonal expansions despite efficient peripheral B cell depletion, and by a lack of substantial changes in somatic hypermutation frequencies of IgM memory B cells. We infer from these data that the effectiveness of rituximab therapy depends on efficient depletion of noncirculating B cells and is associated with qualitative immunological changes that indicate reconfiguration of B cell memory through sustained reduction of autoreactive clonal expansions. These findings support the continued development of B cell–depleting therapies for autoimmune diseases.

Authors

Michael A. Maurer, Goran Rakocevic, Carol S. Leung, Isaak Quast, Martin Lukačišin, Norbert Goebels, Christian Münz, Hedda Wardemann, Marinos Dalakas, Jan D. Lünemann

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Figure 5

Higher load of IgM memory B cell expansions and persistence of expanded IgM memory B cells is associated with a poor clinical response to rituximab.

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Higher load of IgM memory B cell expansions and persistence of expanded ...
(A) IgM memory expansions before and after rituximab therapy in pooled samples from clinical responders and nonresponders. Results are based on the analysis of individual sequences in both clinical subgroups. Numbers within circles indicate the number of individual sequences analyzed per patient cohort and time point. The 2-tailed Fisher exact test was used to compare proportions of clonal expansions. (B) IgM memory B cell expansions in individual clinical responders or nonresponders compared with placebo-treated patients. Gray shading, nonexpanded sequences; differently colored shading, clonally expanded CDR3 sequences; black shading, sequences detected before and after therapy in individual patients are highlighted in black. Circles denote expanded sequences that were resurrected as IgG monoclonal antibodies (see Figure 3B). Due to the low frequency of memory B cells in 2 post-treatment samples, we were not able to amplify PCR products (ND, not determined).