Decreased IL7Rα and TdT expression underlie the skewed immunoglobulin repertoire of human B-cell precursors from fetal origin.

Newborns are unable to mount antibody responses towards certain antigens. This has been related to the restricted repertoire of immunoglobulin (Ig) genes of their B cells. The mechanisms underlying the restricted fetal Ig gene repertoire are currently unresolved. We here addressed this with detailed molecular and cellular analysis of human precursor-B cells from fetal liver, fetal bone marrow (BM), and pediatric BM. In the absence of selection processes, fetal B-cell progenitors more frequently used proximal V, D and J genes in complete IGH gene rearrangements, despite normal Ig locus contraction. Fewer N-nucleotides were added in IGH gene rearrangements in the context of low TdT and XRCC4 expression. Moreover, fetal progenitor-B cells expressed lower levels of IL7Rα than their pediatric counterparts. Analysis of progenitor-B cells from IL7Rα-deficient patients revealed that TdT expression and N-nucleotides additions in Dh-Jh junctions were dependent on functional IL7Rα. Thus, IL7Rα affects TdT expression, and decreased expression of this receptor underlies at least in part the skewed Ig repertoire formation in fetal B-cell precursors. These new insights provide a better understanding of the formation of adaptive immunity in the developing fetus.

The Human Thymus Is Enriched for Autoreactive B Cells.

The human thymus has been shown to host B cells, which have been implicated in presentation of autoantigens for negative selection of T cell progenitors. Although these Ags are thought to be taken up through their surface Igs, data on thymic Ig gene repertoires are limited and reactivity to autoantigens has not been demonstrated. We therefore studied the Ig gene repertoires and reactivity to autoantigens of single-sorted B cells from pediatric thymus, and compared these with mature B cells from fetal and pediatric bone marrow. Nearly all B cells in thymus were mature and displayed an Ig gene repertoire that was similar to pediatric bone marrow. Fetal mature B cells predominantly used proximal V, D, and J genes, and their Abs were highly reactive to dsDNA. In contrast, thymic B cells were enriched for autoreactive clones that showed increased specificity to peptide autoantigens. Thus, most B cells in the thymus are resident rather than developing, and are enriched for autoantigen binding. These features support current models for a role of thymic B cells in presentation of autoantigens to developing T cells during negative selection.