The Use of the Antigenically Variable Major Surface Protein 2 in the Establishment of Superinfection during Natural Tick Transmission of Anaplasma marginale in Southern Ghana.

Many vector-borne pathogens, including Anaplasma spp., Borrelia spp., Trypanosoma spp., and Plasmodium spp., establish persistent infection in the mammalian host by using antigenic variation. These pathogens are also able to establish strain superinfection, defined as infection of an infected host with additional strains of the same pathogen despite an adaptive immune response. The ability to establish superinfection results in a population of susceptible hosts even with high pathogen prevalence. It is likely that antigenic variation, responsible for persistent infection, also plays a role in the establishment of superinfection. Anaplasma marginale, an antigenically variable, obligate intracellular, tickborne bacterial pathogen of cattle, is well suited for the study of the role of antigenically variant surface proteins in the establishment of superinfection. Anaplasma marginale establishes persistent infection by variation in major surface protein 2 (msp2), which is encoded by approximately six donor alleles that recombine into a single expression site to produce immune escape variants. Nearly all cattle in regions of high prevalence are superinfected. By tracking the acquisition of strains in calves through time, the complement of donor alleles, and how those donor alleles are expressed, we determined that simple variants derived from a single donor allele, rather than multiple donor alleles, were predominant. Additionally, superinfection is associated with the introduction of new donor alleles, but these new donor alleles are not predominantly used to establish superinfection. These findings highlight the potential for competition among multiple strains of a pathogen for resources within the host and the balance between pathogen fitness and antigenic variation.