Analysis of hypermutation in immunoglobulin heavy chain passenger transgenes

Abstract

Somatic hypermutation of immunoglobulin (Ig) genes plays a critical role in the maturation of the human antibody response. The molecular basis of this important process is, however, unknown. To identify cis-acting sequences that initiate and target hypermutation, we have made three minitransgenes containing different portions of an Ig heavy chain (IgH) locus. Each transgene is a passenger, bearing a nonsense mutation preventing its translation; thus, transgene mutations reflect the endogenous mutational process and are not subject to affinity selection. To study transgenes after their circulation through the compartment associated with hypermutation in vivo, we rescued B cells as hybridomas after hyperimmunizing mice with the hapten 4-hydroxy-3-nitrophenyl acetyl (NP). Hybridoma transgene and endogenous variable regions were amplified by polymerase chain reaction, subcloned, and sequenced. Endogenous anti-NP VDJ regions show the expected, at times extensive degree of base substitution. In mice bearing the smallest construct, which includes 2.4 kb of 5′ IgH sequences, a rearranged VDJ region, the 5′ matrix attachment region, and the intron enhancer, one of four evaluable hybridomas demonstrates two base substitutions in the V segment of one transgene copy. The two larger constructs include additional 3′ IgH sequences (an α constant region and the 3′ enhancer) and either the original VDJ segment or a substituted T cell receptor β segment. Ten hybridomas derived from mice bearing these larger constructs demonstrate no evidence of targeted mutation, despite demonstrable transgene transcription in all hybridomas. In our system, mutation of a rearranged VDJ segment and surrounding promoter/enhancer regions is not increased by the juxtaposition of a constant region segment and the IgH 3′ enhancer.