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Myelin antigen capture in the CNS by B cells expressing EBV latent membrane protein 1 leads to demyelinating lesion formation

H. J. Kim, Mika Schneider, Yakine Raach, Panajotis Karypidis, Julien Roux, Georgios A. Perdikaris, Sebastian Holdermann, Laila Kulsvehagen, Anne-Catherine Lecourt, Kerstin Narr, Roman Sankowski, Martin Diebold, Ewelina Bartoszek-Kandler, Josef P. Kapfhammer, Gert Zimmer, Anne-Katrin Pröbstel, Marco Prinz, Ludwig Kappos, Nicholas S.R. Sanderson, Tobias Derfuss

2026Cell21 citationsDOIOpen Access PDF

Abstract

The efficacy of B cell depletion therapies, and their association with Epstein-Barr virus (EBV), implicate B cells in the pathogenesis of multiple sclerosis (MS). In mice, we observed that viral infections induce infiltration of B cells into the brain, independent of phenotype and specificity, and that myelin-reactive B cells then capture antigens directly from parenchyma. Trafficking of these antigen-loaded B cells to draining lymph nodes was not observed, and without T cell help, antigen-capturing B cells die rapidly. CD40L signaling or EBV latent membrane protein 1 (LMP1) can override this checkpoint, leading to B cell-receptor- and/or antibody-dependent inflammatory demyelination. Myelin-reactive B cells were identified in the healthy human B cell repertoire, and expression of LMP1 was observed in the brains of a subset of MS patients. These observations can explain the dependency of disease incidence on prior EBV infection, and the increased risk associated with brain infections, and suggest possible treatment strategies.

Topics & Concepts

BiologyPathogenesisMultiple sclerosisAntigenB cellCD40ImmunologyNaive B cellMyelinMembrane proteinPhenotypeCellAdoptive cell transferMolecular biologyTransfectionAntigen-presenting cellVirusEpstein–Barr virusVirologyAntibodyT cellCell membraneDemyelinating diseaseCD5Cell biologyB-1 cellDiseaseLesionInterleukin 21Multiple Sclerosis Research StudiesT-cell and B-cell ImmunologyPolyomavirus and related diseases