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Journal of Clinical Microbiology, May 1999, p. 1548-1553, Vol. 37, No. 5
Regional Primate Research
Center1 and the Departments of
Laboratory Medicine5 and
Pediatrics,3 University of Washington
School of Medicine, Seattle, Washington 98195; Clinical
Research Division, Fred Hutchinson Cancer Research Center, Seattle,
Washington 981094; and the Department of
Laboratory Medicine and Pathology, Mayo Clinic, Rochester,
Minnesota 559012
Received 10 August 1998/Returned for modification 12 October
1998/Accepted 8 February 1999
Blood smear evaluation of two baboons (Papio
cynocephalus) experiencing acute hemolytic crises following
experimental stem cell transplantation revealed numerous
intraerythrocytic organisms typical of the genus Babesia.
Both animals had received whole-blood transfusions from two baboon
donors, one of which was subsequently found to display rare
trophozoites of Entopolypoides macaci. An investigation was
then undertaken to determine the prevalence of hematozoa in baboons
held in our primate colony and to determine the relationship,
if any, between the involved species. Analysis of thick and thin blood
films from 65 healthy baboons (23 originating from our breeding
facility, 26 originating from an out-of-state breeding facility, and 16 imported from Africa) for hematozoa revealed rare E. macaci
parasites in 31%, with respective prevalences of 39, 35, and 12%.
Phylogenetic analysis of nuclear small-subunit rRNA gene sequences
amplified from peripheral blood of a baboon chronically infected with
E. macaci demonstrated this parasite to be most closely
related to Babesia microti (97.9% sequence similarity);
sera from infected animals did not react in indirect fluorescent-antibody tests with Babesia microti antigen,
however, suggesting that they represent different species. These
results support an emerging view that the genus
Entopolypoides Mayer 1933 is synonymous with that of the
genus Babesia Starcovici 1893 and that the morphological
variation noted among intracellular forms is a function of
alteration in host immune status. The presence of an underrecognized,
but highly enzootic, Babesia sp. in baboons may result in
substantial, unanticipated impact on research programs. The similarity
of this parasite to the known human pathogen B. microti may
also pose risks to humans undergoing xenotransplantation, mandating
effective screening of donor animals.
0095-1137/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
Detection of Enzootic Babesiosis in Baboons (Papio
cynocephalus) and Phylogenetic Evidence Supporting Synonymy
of the Genera Entopolypoides and
Babesia
*
Corresponding author. Mailing address: Department of
Laboratory Medicine, University of Washington Medical Center, 1959 N.E. Pacific, Seattle, WA 98195-7110. Phone: (206) 598-6131. Fax:
(206) 598-6189. E-mail: fritsche{at}u.washington.edu.
Present address: Centers for Disease Control and Prevention,
Atlanta, GA 30333.
Present address: NASA Ames Research Center, Moffett Field, CA 94035.
§
Present address: Wisconsin Regional Primate Research Center,
Madison, WI 53715.
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