The role of antigen in the selection of the human V3-23 immunoglobulin heavy chain variable region gene.

The immune system mounts antibody responses using few of the available immunoglobulin variable region (IgV) genes with some, such as the V3-23 heavy chain gene, regularly over-represented in responses to many antigens. The reasons for the over-representation of some V genes have not been established; the process could be either stochastic or selective. We demonstrated previously that the V3-23 gene, which is over-represented in the primary B lymphocyte repertoire in humans, encodes antibodies with differing antigen-binding reactivities in transgenic mice that express the human V3-23 gene. The aim of the current study was to assess if V3-23 gene over-representation is stochastic or could be influenced by antigen exposure. Transgenic mice were immunized with human IgG-Fc (hIgG-Fc), bovine collagen type II (bCII) or tetanus toxoid (TT), and hybridomas secreting human mu chain-containing antibodies generated. These were tested for binding to the immunogens and a panel of self- and exogenous antigens. In hybridomas derived from hIgG-Fc-immunized mice, 53% secreted antibodies specific for hIgG-Fc. A similar proportion (54%) of hybridomas from bCII-immunized mice secreted antibody that bound to collagen. By contrast, only 21% of hybridomas from mice immunized with TT bound to tetanus toxoid. Intriguingly, chimaeric antibodies generated from mice immunized with bCII or TT were mainly polyreactive, similar to antibodies generated from naive transgenic mice. However, hybridomas generated from mice immunized with hIgG-Fc were mainly specific, reacting exclusively with hIgG-Fc. These results suggest that selection and eventual expansion of B lymphocytes expressing the V3-23 gene are likely to be determined by exposure to self- and/or environmental antigens.