Abstract
AbstractTime-resolved antibody repertoire analysis is essential to elucidate the antibody maturation process during immunization. However, most analyses are merely snapshot comparisons of unimmunized and fully immunized animals. In this study, an alpaca was immunized with multiple antigen injections and its repertoire development was traced by high-throughput next-generation sequencing every week for 3 months. The use of alpaca-derived, single-domain antibody circumvents the problems associated with conventional antibodies including heavy-chain and light-chain matching and labor-intensive production. The sequences were processed into clusters and the antibodies were generated to determine whether the clusters included antigen-binding antibodies. For most of the antigen-responding clusters, repertoire development exhibited distinct time-dependent patterns compared with clusters unresponsive to antigens. Moreover, the sequences at the tips and root of the phylogenetic tree had strong and weak antigen-binding affinity, respectively. The foregoing characteristics could be exploited in the prediction of antigen-responding clusters and the physical properties of antibodies.TeaserClusters of antigen-responding, single-domain antibodies exhibited distinct time-dependent repertoire development history
Publisher
Cold Spring Harbor Laboratory