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CD20 as a gatekeeper of the resting state of human B cells

Kathrin Kläsener, Julia Jellusova, Geoffroy Andrieux, Ulrich Salzer, Chiara Böhler, Sebastian N. Steiner, Jonas B. Albinus, Marco Cavallari, Beatrix Süß, Reinhard Voll, Melanie Boerries, Bernd Wollscheid, Michael Reth

2021Proceedings of the National Academy of Sciences119 citationsDOIOpen Access PDF

Abstract

CD20 is a B cell-specific membrane protein and represents an attractive target for therapeutic antibodies. Despite widespread usage of anti-CD20 antibodies for B cell depletion therapies, the biological function of their target remains unclear. Here, we demonstrate that CD20 controls the nanoscale organization of receptors on the surface of resting B lymphocytes. CRISPR/Cas9-mediated ablation of CD20 in resting B cells resulted in relocalization and interaction of the IgM-class B cell antigen receptor with the coreceptor CD19. This receptor rearrangement led to a transient activation of B cells, accompanied by the internalization of many B cell surface marker proteins. Reexpression of CD20 restored the expression of the B cell surface proteins and the resting state of Ramos B cells. Similarly, treatment of Ramos or naive human B cells with the anti-CD20 antibody rituximab induced nanoscale receptor rearrangements and transient B cell activation in vitro and in vivo. A departure from the resting B cell state followed by the loss of B cell identity of CD20-deficient Ramos B cells was accompanied by a PAX5 to BLIMP-1 transcriptional switch, metabolic reprogramming toward oxidative phosphorylation, and a shift toward plasma cell development. Thus, anti-CD20 engagement or the loss of CD20 disrupts membrane organization, profoundly altering the fate of human B cells.

Topics & Concepts

State (computer science)CD20ChemistryMedicineImmunologyComputer scienceAntibodyAlgorithmImmune Cell Function and InteractionT-cell and B-cell ImmunologyCancer Immunotherapy and Biomarkers
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