Abstract
Genetic studies of human immunoglobulin variable regions have been hampered by the lack of anti-idiotypic antibodies that recognize specific heavy and light chain variable region sequences. Sixty percent of human monoclonal IgM anti-IgG autoantibodies (rheumatoid factors [RF]) from unrelated individuals share a cross-reactive idiotype (CRI) termed Wa. In previous experiments in which we used an enzyme-linked immunosorbent assay, we reported that a synthetic peptide (PSL2), corresponding to the second hypervariable region in the kappa light chain of a monoclonal IgM-RF (Sie), induced rabbit antibodies reactive with several RF paraproteins. In the present experiments, to avoid interference due to the human IgM-RF binding toward rabbit IgG, the reactivity of the anti-PSL2 antibody to the separated heavy and light chains of multiple IgM proteins and Bence-Jones proteins was assessed by the Western blot technique. The PSL2-induced anti-CRI reacted well with the separated kappa chains from 10 out of 12 IgM-RF, zero out of four light chains from IgM proteins lacking anti-IgG activity, and one out of six kappa Bence-Jones proteins. The results show that the PSL2-CRI is associated with RF and is not a kappa subgroup marker. Furthermore, a comparison of the reported light chain sequences of the PSL2-CRI-positive IgM-RF suggests that the majority of human IgM-RF light chains derive from a single germ-line VK gene or from a family of closely related VK genes that is highly conserved in the human population. Synthetic peptide-induced anti-CRI provide a potent tool for analyzing the genetic basis of CRI and abnormal autoantibody production in humans.