Abstract

Multiple bacterial and protozoal pathogens utilize gene conversion to generate rapid intrahost antigenic variation. Both large- and small-genome pathogens expand the size of the variant pool via a combinatorial process in which oligonucleotide segments from distinct donor loci are recombined in various combinations into expression sites. Although the potential combinatorial diversity generated by this segmental gene conversion mechanism is quite large, the functional variant pool depends on whether immune responses against the recombined segments are generated and maintained, regardless of their specific combinatorial context. This question was addressed by tracking the Anaplasma marginale variant population and corresponding segment-specific immunoglobulin G (IgG) antibody responses during long-term infection. Antibody was induced early in A. marginale infection, predominately against the surface-exposed hypervariable region (HVR) rather than against the invariant conserved flanking domains, and these HVR oligopeptides were most immunogenic at the time of acute bacteremia, when the variant population is derived via recombination from a single donor locus. However antibody to HVR oligopeptides was not consistently maintained during persistent infection, despite reexpression of the same segment, although in a different combinatorial context. This dynamic antibody recognition over time was not attributable to the major histocompatibility complex haplotype of individual animals or use of specific msp2 donor alleles. In contrast, the position and context of an individual oligopeptide segment within the HVR were significant determinants of antibody recognition. The results unify the genetic potential of segmental gene conversion with escape from antibody recognition and identify immunological effects of variant mosaic structure.

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