Positive and negative selection shape the human naive B cell repertoire.

Jeff W Chen,Joel Sng,Laurence Menard,Eric Meffre,Daniele Parisi,Fabien R Delmotte,Nikolaos Tsakiris,Ruchi Gera,Joshua M Boeckers,Jean-Nicolas Schickel,Klaus Schwarz,Margaret Veselits,Catharina Schuetz,Delphine Bouis,Florent Arbogast,Eva-Maria Jacobsen,Ansgar S Schulz,Marcus R Clark,Carsten Posovszky

doi:10.1172/jci150985

Jeff W Chen, Joel Sng + Show 17 more

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https://doi.org/10.1172/jci150985

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Abstract

Although negative selection of developing B cells in the periphery is well described, yet poorly understood, evidence of naive B cell positive selection remains elusive. Using 2 humanized mouse models, we demonstrate that there was strong skewing of the expressed immunoglobulin repertoire upon transit into the peripheral naive B cell pool. This positive selection of expanded naive B cells in humanized mice resembled that observed in healthy human donors and was independent of autologous thymic tissue. In contrast, negative selection of autoreactive B cells required thymus-derived Tregs and MHC class II–restricted self-antigen presentation by B cells. Indeed, both defective MHC class II expression on B cells of patients with rare bare lymphocyte syndrome and prevention of self-antigen presentation via HLA-DM inhibition in humanized mice resulted in the production of autoreactive naive B cells. These latter observations suggest that Tregs repressed autoreactive naive B cells continuously produced by the bone marrow. Thus, a model emerged, in which both positive and negative selection shaped the human naive B cell repertoire and that each process was mediated by fundamentally different molecular and cellular mechanisms.

Highlights

Developing B cells undergo two sequential selection steps whereby clones expressing self-reactive B-cell receptors (BCRs) are purged from the repertoire [1]
We investigated the establishment of early B cell tolerance checkpoints in two humanized mouse models: both rely on the engraftment of human fetal hematopoietic stem cells (HSCs) in NOD-scid-common gamma chain (γc) knockout (NSG) immunodeficient mice (Fig. 1A)
We analyzed the repertoire and reactivity of recombinant antibodies cloned from single human CD19+CD27-CD10+CD21-/loIgMhi new emigrant/transitional B cells and CD19+CD27-CD10-CD21+IgM+ mature naïve B cells isolated from the spleens of seven NSG and seven NSG+Thymus humanized mice engrafted with donor-matched HSCs isolated from seven different human fetal samples [1, 14]

Summary

Introduction

Developing B cells undergo two sequential selection steps whereby clones expressing self-reactive B-cell receptors (BCRs) are purged from the repertoire [1]. To explore mechanisms that shape the mature naive B cell compartment in humans, we used NOD-scid-common gamma chain (γc) knockout (NSG) mice transplanted with human fetal hematopoietic stem cells (HSCs) with or without a human thymic graft [14,15,16,17]. While both models recapitulated normal central B cell tolerance and peripheral positive selection, fetal thymic tissue was required to repress the peripheral accumulation of autoreactive naïve B cells

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