Mechanisms that limit the diversity of antibodies. II. Evolutionary conservation of Ig variable region genes which encode naturally occurring autoantibodies

Abstract

Antibody which reacts with phosphatidyl choline can be detected in all normal mice. Generation of this specificity requires the use of either the unmutated V_H11 or V_H12 genes, with constraints on the length and sequence of CDR3, and specific light chain association. Given that those parts of the antibody that are subject to somatically generated diversity are restricted, we hypothesized that the germline V_H11 and V_H12 genes may be evolutionary conserved to a greater extent than other V_H genes. The nucleotide sequence was determined from a panel of inbred strains and Mua species for V_H11 and V_H12. The results were compared to the three functional members of the S107 V_H family and show that V_H11 and V_H12 have a total of 13 silent and three replacement mutations while the S107 genes have 11 silent and 20 replacement mutations. This Implies that there has been strong selection to conserve the V_H11 and V_H12 gene products, which must reflect a substantial survival value to the individual. Sequence comparisons also show that the alleles present in the recently derived inbred strains arose prior to spedatlon. While there is polymorphism within the inbred strains, there are alleies which are shared between species which diverged 3–5 million years ago. Conservation at the amino add and nucleotide levels argues against the idea that Ig genes evolve at a rapid rate and suggests that the rate at which mutations are incorporated may be determined by the importance of the encoded protein.