Single-domain antibodies reveal unique borreliacidal epitopes on the Lyme disease vaccine antigen, Outer surface protein A (OspA)

Abstract

ABSTRACTCamelid-derived, single-domain antibodies (VHHs) have proven to be extremely powerful tools in defining the antigenic landscape of immunologically heterogeneous surface proteins. In this report, we generated a phage-displayed VHH library directed against the candidate Lyme disease vaccine antigen, Outer surface protein A (OspA). Two alpacas were immunized with recombinant OspA serotype 1 (ST1) fromBorrelia burgdorferisensu stricto strain B31, in combination with the canine vaccine RECOMBITEK®Lyme containing lipidated OspA. The phage library was subjected to two rounds of affinity enrichment (“panning”) against recombinant OspA, yielding 21 unique VHHs within two epitope bins, as determined through competition ELISAs with a panel of OspA-specific human monoclonal antibodies. Epitope refinement was conducted by hydrogen exchange-mass spectrometry (HX-MS). Six of the monovalent VHHs were expressed as human IgG1-Fc fusion proteins and shown to have functional properties associated with protective human monoclonal antibodies, includingB. burgdorferiagglutination, outer membrane damage, and complement-dependent borreliacidal activity. The VHHs displayed unique reactivity profiles with the seven OspA serotypes associated withB. burgdorferigenospecies in the United States and Europe consistent with there being conserved epitopes across OspA serotypes that should be considered when designing and evaluating multivalent Lyme disease vaccines.