[Emerging Infectious Diseases * Volume 3 * Number 3 * July-September 1997]

[Dispatches]

Reevaluating the Molecular Taxonomy: Is Human-Associated Cyclospora a
Mammalian Eimeria Species?

Norman J. Pieniazek and Barbara L. Herwaldt
Centers for Disease Control and Prevention, Atlanta, Georgia, USA
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      Human-associated Cyclospora is a coccidian parasite that causes
      diarrheal disease. A reevaluation of the parasite's molecular
      taxonomy that takes into account newly published data for seven
      Eimeria species shows that Cyclospora belongs to the Eimeria
      clade (Eimeriidae family). The Cyclospora branch on the
      phylogenetic tree is between the branches of the eight avian
      and two mammalian Eimeria species that have been evaluated to
      date. Furthermore, preliminary results indicate that Cyclospora
      and Isospora belli, another coccidian parasite that causes
      diarrheal disease in humans, belong to different families. To
      improve our understanding of the taxonomy of human-associated
      Cyclospora, molecular evaluation of isolates of additional
      Cyclospora and Eimeria species is needed.

In 1996 and 1997, human-associated Cyclospora, a protozoan apicomplexan
parasite, caused outbreaks of diarrheal disease in the United States and
Canada that were associated with consumption of various types of fresh
produce (1,2). Human-associated Cyclospora was previously referred to as
"cyanobacteriumlike body" or "coccidialike body" and "big (or large)
Cryptosporidium" (3). In 1993, Ortega et al. (3) proposed, on the basis of
morphologic and sporulation characteristics, that this parasite be placed
in the genus Cyclospora (Schneider, 1881) in the coccidian family
Eimeriidae (Minchin, 1903). Although the species designation Cyclospora
cayetanensis was given in 1994 to Peruvian isolates of human-associated
Cyclospora (4), it is not yet known whether all human Cyclospora isolates
belong to the same species.

Phylogenetic analyses by Relman et al., which included human-associated
Cyclospora and three Eimeria species (two avian and one mammalian),
supported the conclusion that Cyclospora and Eimeria belong to the same
family of coccidian parasites (5). However, the authors noted that this
apparent relatedness should be reevaluated when molecular data became
available for additional Eimeria species and for Isospora belli, another
coccidian parasite that causes diarrheal disease in humans.

Recently, the complete sequences of the small subunit ribosomal RNA
(SSU-rRNA) gene of isolates of seven additional Eimeria species (six avian
and one mammalian) were submitted to GenBank (6). We used these sequences,
in addition to those previously available for human-associated Cyclospora
and several Eimeria species (5), to reevaluate the phylogenetic relatedness
of Cyclospora and Eimeria. Both of the previous phylogenetic analyses
included sequences for E. tenella and E. mitis isolates; thus, we used two
sequences for each of these species.

The structurally aligned sequences were retrieved from the Antwerp rRNA
database (7); Mitchell L. Sogin kindly provided the alignment of the
sequences used for the original molecular classification of Cyclospora (5).
In addition to these two alignments, sequences were aligned with the
ClustalW program (8). The aligned sequences were subjected to phylogenetic
analysis with DNAPARS, NEIGHBOR, and DNAML programs from the PHYLIP package
(9), using Cryptosporidium parvum (a coccidian parasite) or Oxytricha
granulifera (a ciliate) as outgroups (all alignments are available from the
authors upon request).

The topology of the phylogenetic tree obtained with all three methods was
equivalent for all alignments. The maximum likelihood tree generated by the
DNAML program from an alignment based on Sogin's approach is shown in the
Figure. The topology of this tree, which includes human-associated
Cyclospora and 12 isolates of 10 Eimeria species, is similar to that of the
trees reported previously for Cyclospora and three species of Eimeria (5)
and for nine species of Eimeria (6). The Cyclospora branch on the tree is
between the branches of the eight avian and two mammalian Eimeria species
that have been evaluated to date.
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 [Image]
Figures Not Available in Ascii
 Figure. Phylogenetic tree for small subunit ribosomal RNA
 (SSU-rRNA) sequences of Cyclospora (marked by an arrow) and 12
 isolates of 10 Eimeria species. Maximum likelihood analysis results
 using Cryptosporidium parvum as an outgroup are shown (ln
 likelihood = -5,421.96594). After analysis, the outgroup branch was
 removed to improve the readability of the tree. GenBank accession
 numbers for the sequences: human-associated Cyclospora sp. U40261,
 C. parvum L16996, E. acervulina U67115, E. bovis U77084, E.
 brunetti U67116, E. maxima U67117, E. mitis 1 U67118, E. mitis 2
 U40262, E. mivati U76748, E. necatrix U67119, E. nieschulzi U40263,
 E. praecox U67120, E. tenella 1 U67121, E. tenella 2 U40264. Scale
 bar indicates an evolutionary distance position in the sequence.

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The results of the phylogenetic analysis strongly suggest that Cyclospora
should be considered a member of the genus Eimeria, which is particularly
noteworthy, since no organism currently classified as an Eimeria species is
known to be pathogenic for humans. Eimeria is the largest genus of
coccidian parasites and reportedly includes more than 1,500 named species
(10). However, the current criteria (11) for naming "new" species of
Eimeria (e.g., host specificity, morphologic characteristics of oocysts,
duration of prepatent and patent periods, location of the infection in the
host, and pathogenicity) are suboptimal, and the available data for some
Eimeria species named in the past are incomplete. Thus, some Eimeria
species may be synonymous, and some organisms thought to belong to the same
species may not. The possibility even exists that human-associated
Cyclospora is synonymous with a previously named Eimeria species. No
molecular data are available for the type species of the Cyclospora genus
or for the Cyclospora species that are not known to be human-associated.
Reclassification, on the basis of phylogenetic analysis, of
human-associated Cyclospora as an Eimeria species may stimulate productive
research by suggesting possible animal reservoirs of human-associated
Cyclospora (which may or may not infect other animals). In addition, animal
models and cell culture systems that have been developed for Eimeria may
prove useful for Cyclospora. However, it remains to be seen whether the
biologic characteristics of Cyclospora are similar to those of the Eimeria
species to which Cyclospora is closely related on the basis of phylogenetic
criteria.

We also have preliminary data indicating that I. belli and human-associated
Cyclospora do not belong to the same genus or family. I. belli oocysts
(kindly provided by Alison Grant of Project RETRO-CI in Abidjan, Côte
d'Ivoire) were gradient-purified, I. belli-specific DNA was extracted, and
the SSU-rRNA gene was polymerase chain reaction-amplified and sequenced
(Pieniazek et al., unpub. data). Sequence similarity searches of GenBank
and preliminary phylogenetic analysis indicate that I. belli shares a more
inclusive clade with members of the family Sarcocystidae than with the
Eimeriidae (data not shown).

Molecular methods are arguably the best techniques available for studying
the relatedness among organisms (11). To avoid confusion, reports of
identification of Cyclospora (Eimeria) in animal hosts or in the
environment should be supported by molecular data. Reports based on
morphologic features alone (12-14) may suffer from poor resolution of
features needed for classification of closely related organisms. To improve
our understanding of the taxonomy of human-associated Cyclospora, molecular
evaluation of isolates of additional Cyclospora and Eimeria species,
especially other mammalian species, is needed.

References

  1. Herwaldt BL, Ackers M-L, and the Cyclospora Working Group. An outbreak
     in 1996 of cyclosporiasis associated with imported raspberries. N Engl
     J Med 1997;336:1548-56.
  2. Centers for Disease Control and Prevention. Update: outbreaks of
     cyclosporiasis - United States and Canada, 1997. MMWR Morb Mortal Wkly
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  3. Ortega YR, Sterling CR, Gilman RH, Cama VA, Diaz F. Cyclospora species
     - a new protozoan pathogen of humans. N Engl J Med 1993;328:1308-12.
  4. Ortega YR, Gilman RH, Sterling CR. A new coccidian parasite
     (Apicomplexa: Eimeriidae) from humans. J Parasitol 1994;80:625-9.
  5. Relman DA, Schmidt TM, Gajadhar A, Sogin M, Cross J, Yoder K, et al.
     Molecular phylogenetic analysis of Cyclospora, the human intestinal
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  7. Van der Peer Y, Jansen J, De Rijk P, De Wachter R. Database on the
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  8. Thompson JD, Higgins DG, Gibson TJ. CLUSTAL W: improving the
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  9. Felsenstein J. PHYLIP - Phylogeny inference package. Cladistics
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 10. Levine ND. Phylum II. Apicomplexa Levine, 1970. In: Lee JJ, Hutner SH,
     Bovee EC, editors. An illustrated guide to the protozoa. Lawrence
     (KS): Society of Protozoologists; 1985. p. 322-74.
 11. Sogin ML. Evolution of eukaryotic microorganisms and their small
     subunit ribosomal RNA. American Zoologist 1989;29:487-99.
 12. Zerpa R, Uchima N, Huicho L. Cyclospora cayetanensis associated with
     watery diarrhoea in Peruvian patients. J Trop Med Hyg 1995;98:325-9.
 13. García-López HL, Rodríguez-Tovar LE, Medina de la Garza CE.
     Identification of Cyclospora in poultry. Emerg Infect Dis
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     primates. Vet Rec 1996;138:528.

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Emerging Infectious Diseases
National Center for Infectious Diseases
Centers for Disease Control and Prevention
Atlanta, GA

URL: ftp://ftp.cdc.gov/pub/EID/vol3no3/ascii/pienz.txt