Both Coinfection and Superinfection Drive Complex Anaplasma marginale Strain Structure in a Natural Transmission Setting

Roberta Koku, David R. Herndon, Johannetsy Avillan, Jillian Morrison, James E. Futse, Guy H. Palmer, Kelly A. Brayton, Susan M. Noh

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)

Abstract

Vector-borne pathogens commonly establish multistrain infections, also called complex infections. How complex infections are established, either before or after the development of an adaptive immune response, termed coinfection or superinfection, respectively, has broad implications for the maintenance of genetic diversity, pathogen phenotype, epidemiology, and disease control strategies. Anaplasma marginale, a genetically diverse, obligate, intracellular, tick-borne bacterial pathogen of cattle, commonly establishes complex infections, particularly in regions with high transmission rates. Both coinfection and superinfection can be established experimentally; however, it is unknown how complex infections develop in a natural transmission setting. To address this question, we introduced naive animals into a herd in southern Ghana with a high infection prevalence and high transmission pressure and tracked the strain acquisition of A. marginale through time using multilocus sequence typing. As expected, the genetic diversity among strains was high, and 97% of animals in the herd harbored multiple strains. All the introduced naive animals became infected, and three to four strains were typically detected in an individual animal prior to seroconversion, while one to two new strains were detected in an individual animal following seroconversion. On average, the number of strains acquired via superinfection was 16% lower than the number acquired via coinfection. Thus, while complex infections develop via both coinfection and superinfection, coinfection predominates in this setting. These findings have broad implications for the development of control strategies in high-transmission settings.

Original languageEnglish
Article numbere00166-21
JournalInfection and Immunity
Volume89
Issue number11
DOIs
Publication statusPublished - Nov 2021

Keywords

  • Anaplasma marginale
  • Bovine anaplasmosis
  • Multistrain infections
  • Superinfection
  • Tick-borne disease

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