Genotypic diversity of merozoite surface antigen 1 of Babesia bovis within an endemic population

Investigation of the population dynamics of pathogens contributes to a better understanding of disease transmission. Herein, the extent of Babesia bovis genotypic strain diversity within a defined cohort is reported. Multiple genetically distinct strains of a pathogen circulate and compete for domin...

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Published in:Molecular and biochemical parasitology Vol. 172; no. 2; pp. 107 - 112
Main Authors: Lau, Audrey O.T., Cereceres, Karla, Palmer, Guy H., Fretwell, Debbie L., Pedroni, Monica J., Mosqueda, Juan, McElwain, Terry F.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-08-2010
Amsterdam: Elsevier
Elsevier/North-Holland Biomedical Press
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Summary:Investigation of the population dynamics of pathogens contributes to a better understanding of disease transmission. Herein, the extent of Babesia bovis genotypic strain diversity within a defined cohort is reported. Multiple genetically distinct strains of a pathogen circulate and compete for dominance within populations of animal reservoir hosts. Understanding the basis for genotypic strain structure is critical for predicting how pathogens respond to selective pressures and how shifts in pathogen population structure can lead to disease outbreaks. Evidence from related Apicomplexans such as Plasmodium, Toxoplasma, Cryptosporidium and Theileria suggests that various patterns of population dynamics exist, including but not limited to clonal, oligoclonal, panmictic and epidemic genotypic strain structures. In Babesia bovis, genetic diversity of variable merozoite surface antigen (VMSA) genes has been associated with disease outbreaks, including in previously vaccinated animals. However, the extent of VMSA diversity within a defined population in an endemic area has not been examined. We analyzed genotypic diversity and temporal change of MSA-1, a member of the VMSA family, in individual infected animals within a reservoir host population. Twenty-eight distinct MSA-1 genotypes were identified within the herd. All genotypically distinct MSA-1 sequences clustered into three groups based on sequence similarity. Two thirds of the animals tested changed their dominant MSA-1 genotypes during a 6-month period. Five animals within the population contained multiple genotypes. Interestingly, the predominant genotypes within those five animals also changed over the 6-month sampling period, suggesting ongoing transmission or emergence of variant MSA-1 genotypes within the herd. This study demonstrated an unexpected level of diversity for a single copy gene in a haploid genome, and illustrates the dynamic genotype structure of B. bovis within an individual animal in an endemic region. Co-infection with multiple diverse MSA-1 genotypes provides a basis for more extensive genotypic shifts that characterizes outbreak strains.
Bibliography:http://dx.doi.org/10.1016/j.molbiopara.2010.03.017
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Current address: Universidad Autónoma de Querétaro, Campus Juriquilla, Mexico.
Current address: University of Colorado, Division of Endocrinology, Aurora, CO 80045, USA.
Current address: Universidad Nacional Autónoma de México, Mexico City, Mexico.
ISSN:0166-6851
1872-9428
DOI:10.1016/j.molbiopara.2010.03.017