Shaping of Human Germline IgH Repertoires Revealed by Deep Sequencing

Abstract

To understand better how selection processes balance the benefits of Ig repertoire diversity with the risks of autoreactivity and nonfunctionality of highly variable IgH CDR3s, we collected millions of rearranged germline IgH CDR3 sequences by deep sequencing of DNA from mature human naive B cells purified from four individuals and analyzed the data with computational methods. Long HCDR3 regions, often components of HIV-neutralizing Abs, appear to derive not only from incorporation of long D genes and insertion of large N regions but also by usage of multiple D gene segments in tandem. However, comparison of productive and out-of-frame IgH rearrangements revealed a selection bias against long HCDR3 loops, suggesting these may be disproportionately either poorly functional or autoreactive. Our data suggest that developmental selection removes HCDR3 loops containing patches of hydrophobicity, which are commonly found in some auto-antibodies, and at least 69% of the initial productive IgH rearrangements are removed from the repertoire during B cell development. Additionally, we have demonstrated the potential utility of this new technology for vaccine development with the identification in all four individuals of related candidate germline IgH precursors of the HIV-neutralizing Ab 4E10.