Two Distinct Populations of H Chain-Edited B Cells Show Differential Surrogate L Chain Dependence

Abstract

Developing autoreactive B cells may edit (change) their specificity by secondary H or L chain gene rearrangement. Recently, using mice hemizygous for a site-directed VDJH and VJκ transgene (tg) encoding an autoreactive Ab, we reported ongoing L chain editing not only in bone marrow cells with a pre-B/immature B cell phenotype but also in immature/transitional splenic B cells. Using the same transgenic model, we report here that editing at the H chain locus appears to occur exclusively in bone marrow cells with a pro-B phenotype. H chain editing is shown to involve VH replacement at the tg allele or VH rearrangement at the wild-type (wt) allele when the tg is inactivated by nonproductive VH replacement. VH replacement/rearrangement at the tg/wt alleles was found to entail diverse usage of VH genes. Whereas the development of edited B cells expressing the wt allele was dependent on the λ5 component of the surrogate L chain, the development of B cells expressing the tg allele, including those with VH replacement, appeared to be λ5 independent. We suggest that the unique CDR3 region of the tg-encoded μH chain is responsible for the λ5 independence of tg-expressing B cells.