Mechanism for pre-B cell loss in VH-mutant rabbits.

Pre-BCR signaling is a critical checkpoint in B cell development in which B-lineage cells expressing functional IgH μ-chain are selectively expanded. B cell development is delayed in mutant ali/ali rabbits because the a-allotype encoding V(H)1 gene, which is normally used in VDJ gene rearrangements in wt rabbits, is deleted, and instead, most B-lineage cells use the a-allotype encoding V(H)4 gene [V(H)4(a)], which results in a severe developmental block at the pre-B cell stage. We found that V(H)4(a)-utilizing pre-B cells exhibit reduced pre-BCR signaling and do not undergo normal expansion in vitro. Transduction of murine 38B9 pre-B cells with chimeric rabbit-VDJ mouse-Cμ encoding retroviruses showed V(H)4(a)-encoded μ-chains do not readily form signal-competent pre-BCR, thereby explaining the reduction in pre-BCR signaling and pre-B cell expansion. Development of V(H)4(a)-utilizing B cells can be rescued in vivo by the expression of an Igκ transgene, indicating that V(H)4(a)-μ chains are not defective for conventional BCR formation and signaling. The ali/ali rabbit model system is unique because V(H)4(a)-μ chains have the capacity to pair with a variety of conventional IgL chains and yet lack the capacity to form a signal-competent pre-BCR. This system could allow for identification of critical structural parameters that govern pre-BCR formation/signaling.