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In vitro isolation and molecular characterization of an Ehrlichia canis strain from São Paulo, Brazil

Isolamento e caracterização molecular de um isolado de Ehrlichia canis

Abstracts

An Ehrlichia canis isolate was obtained from an naturally infected dog exhibiting clinical signs of ehrlichiosis in São Paulo Municipality, state of São Paulo, Brazil. The isolate was characterized by PCR and DNA sequencing of portions of the ehrlichial genes dsb, 16SrRNA, and p28. Partial dsb and 16S rRNA sequences were identical to three and five other E. canis strains, respectively, from different countries and continents (including North America, Africa, Asia and Europe). Conversely, the p28 partial sequence for this E. canis (São Paulo) differed by 1, 2, and 2 nucleotides from the corresponding sequences of the E. canis strains Jake (from USA), Oklahoma (USA), and VHE (Venezuela), respectively. The results in this study indicate that E. canis is the only recognized Ehrlichia species infecting dogs in Brazil.

Ehrlichia canis; Dog; Molecular Characterization; Ehrlichiosis


Foi obtido um isolado de Ehrlichia canis a partir de um cão naturalmente infectado com sinais clínicos de erliquiose, oriundo do município de São Paulo, SP, Brasil. O isolado foi caracterizado molecularmente pela PCR e seqüenciamento de porções dos genes dsb,16S rRNA, e p28. A seqüência parcial dos genes dsb e 16Sr RNA apresentaram-se idênticas a três e cinco seqüências respectivamente, de E. canis provenientes de diferentes países e continentes (América do Norte, África, Ásia e Europa). Contrariamente, a seqüência parcial do gene p28 do isolado São Paulo diferiu em um nucleotídeo do isolado Jake (EUA) e dois nucleotídeos dos isolados Oklahoma (EUA) e VHE (Venezuelan Human Ehrlichia Venezuela). Atualmente, a E. canis é a única espécie de Ehrlichia que acomete cães no Brasil.

Ehrlichia canis; Cão; Caracterização molecular; Erliquiose


VETERINARY MICROBIOLOGY

In vitro isolation and molecular characterization of an Ehrlichia canis strain from São Paulo, Brazil

Isolamento e caracterização molecular de um isolado de Ehrlichia canis

Daniel M. AguiarI,III,* * Corresponding Author. Mailing address: (D.M.A.) Departamento de Clínica Médica Veterinária, Universidade Federal de Mato Grosso, Avenida Fernando Correa da Costa s/n, Bairro Coxipó, Cuiabá, MT, Brasil, CEP 78060-900. Fone: (65) 3615-8625. E-mail: danmoura@ufmt.br ; Mitika K. HagiwaraII; Marcelo B. LabrunaIII

IDepartamento de Clínica Médica Veterinária, Faculdade de Agronomia e Medicina Veterinária, Universidade Federal de Mato Grosso, Cuiabá, MT, Brasil

IIDepartamento de Clinica Médica Veterinária, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, São Paulo, SP, Brasil

IIIDepartamento de Medicina Veterinária Preventiva e Saúde Animal, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, São Paulo, SP, Brasil

ABSTRACT

An Ehrlichia canis isolate was obtained from an naturally infected dog exhibiting clinical signs of ehrlichiosis in São Paulo Municipality, state of São Paulo, Brazil. The isolate was characterized by PCR and DNA sequencing of portions of the ehrlichial genes dsb, 16SrRNA, and p28. Partial dsb and 16S rRNA sequences were identical to three and five other E. canis strains, respectively, from different countries and continents (including North America, Africa, Asia and Europe). Conversely, the p28 partial sequence for this E. canis (São Paulo) differed by 1, 2, and 2 nucleotides from the corresponding sequences of the E. canis strains Jake (from USA), Oklahoma (USA), and VHE (Venezuela), respectively. The results in this study indicate that E. canis is the only recognized Ehrlichia species infecting dogs in Brazil.

Key-words:Ehrlichia canis, Dog, Molecular Characterization, Ehrlichiosis.

RESUMO

Foi obtido um isolado de Ehrlichia canis a partir de um cão naturalmente infectado com sinais clínicos de erliquiose, oriundo do município de São Paulo, SP, Brasil. O isolado foi caracterizado molecularmente pela PCR e seqüenciamento de porções dos genes dsb,16S rRNA, e p28. A seqüência parcial dos genes dsb e 16Sr RNA apresentaram-se idênticas a três e cinco seqüências respectivamente, de E. canis provenientes de diferentes países e continentes (América do Norte, África, Ásia e Europa). Contrariamente, a seqüência parcial do gene p28 do isolado São Paulo diferiu em um nucleotídeo do isolado Jake (EUA) e dois nucleotídeos dos isolados Oklahoma (EUA) e VHE (Venezuelan Human Ehrlichia Venezuela). Atualmente, a E. canis é a única espécie de Ehrlichia que acomete cães no Brasil.

Palavras-chave: Ehrlichia canis, Cão, Caracterização molecular, Erliquiose.

INTRODUCTION

Ehrlichia canis is the primary etiologic agent of canine monocytic ehrlichiosis (CME), which is recognized as the most prevalent tick-borne disease affecting dogs in Brazil (1). The widespread distribution of the tick vector (Rhipicephalus sanguineus) in most urban areas of Brazil, combined with a persistent infection of E. canis in dogs, and lack of effective immunity to E. canis, contribute to the high prevalence of CME in the country (1,2,7,14).

CME in Brazil was first described in 1973 by Costa et al. (8). Recent local data suggest that 20-30% of dogs admitted to veterinary hospitals from various areas had antibodies reacting with E. canis antigens and/or had detectable E. canis DNA (6,9,13,21). Despite the widespread distribution of E. canis in Brazil, only two isolates have been propagated in the laboratory: one from Rio de Janeiro city (22) and another from Jaboticabal County, state of São Paulo (2,15). Both isolates were established in a canine monocyte cell line (DH82 cells); however, only one isolate (Jaboticabal) has been molecularly characterized.

E. canis appears to be highly conserved among geographically dispersed isolates. Aguirre et al. (3) described a high identity of 16S rRNA gene sequences in isolates from the United States, Israel, Japan and Venezuela. McBride et al. (17) revealed that a p28 gene from seven different North-American isolates was identical. In addition, partial sequences of the dsb gene of isolates from Cameroon, Brazil, and United States were identical (2,19). In the present study, we report a new isolate of E. canis from a dog in Brazil, which has been established in cell culture. Additionally, we performed a partial molecular characterization of the isolate.

MATERIAL AND METHODS

Case report

A 7-year old male Labrador retriever was admitted to the São Paulo University Veterinary Hospital with recurrent history of anorexia, apathy, bloody diarrhea and tick infestation. Based on a previous clinical diagnosis of CME, the dog had been treated with doxycycline (10mg/Kg daily for 3 weeks) and imidorcarb dipropionate (5 mg/Kg,two doses with 15 days interval) 20 days before the appearance of clinical symptoms. The dog was normal upon physical examination. Hematological abnormalities were anemia [hematocrit: 33% (reference values: 37 - 55%); low erythrocytes: 4.7 x 106/mm3 (reference values: 5.5 - 8.5 x 106/mm3)], leucopenia [leukocytes: 4,700/mm3 (reference values: 5,000 - 10,000/mm3)], and thrombocytopenia [platelet: 19,000/mm3 (reference values: 200,000 - 500,000/mm3)]. Blood was collected in EDTA for PCR, and in heparin for cell culture isolation.

Isolation and cultivation of Ehrlichia spp.

Heparin-anticoagulated whole-blood was collected aseptically from the jugular vein and processed according to Paddock et al. (20). Briefly, leukocytes were isolated by overlaying the buffy coat on Histopaque 1083 (Sigma Diagnostic, St Louis, Mo.), and the interface containing the leukocyte fraction was collected and resuspended in 5 ml of Dulbecco's Modified Eagle's medium (Sigma Aldrich, St Louis, Mo.) supplemented with 10% heat-inactivated bovine calf serum (Hyclone Laboratories, Logan, Utah). The leukocyte suspension was transferred to a 25 cm2 flask culture and incubated at 37ºC in a 5% CO2 atmosphere. After 24 hrs, 2 ml of fresh culture medium was added and the cells harvested 24 hrs later and added to a monolayer of uninfected DH82 cells (provided by Jere W. McBride, University of Texas Medical Branch) in a 25 cm2 flask. The culture was maintained under the same conditions as above, except that the bovine calf serum was reduced to 2.5%, and the culture medium was partially (20%) replaced every 2-3 days. Cell cultures were monitored twice a week for presence of morulae by both Diff-Quik staining (Laborclin, Pinhais, PR, Brazil) and presence of ehrlichial DNA using PCR.

DNA extraction from blood and cultured cells

DNA was extracted from either 200 µl of canine blood or from inoculated DH82 cells by the DNA easy Tissue Kit (Qiagen Incorporation, Valencia, Calif) according to the manufacturer's protocol. Each DNA sample was eluted in 100 µl of TE buffer and stored at -20ºC until use for PCR.

PCR analyses

Extracted DNA (5 µl containing 100-200 ng of DNA) from infected cell cultures was used as a template to amplify fragments of ehrlichial dsb, 16S rRNA, and p28 genes. DNA obtained from infected dog blood was used to amplify a fragment of the ehrlichial dsb. For the dsb gene, a 409-bp fragment was amplified with primers DSB-330 (5'-GAT GAT GTC TGA AGA TAT GAA ACA AAT-3') and DSB- 728 (5'-CTG CTC GTC TAT TTT ACT TCT TAA AGT-3'), as previously described (10) with some modifications (1). Primers GE2'F2' (5'- GTT AGT GGC AGA CGG GTG AGT-3') and HE3 (5'-TAT AGG TAC CGT CAT TAT CTT CCC TAT-3') were used to amplify a 360-bp fragment of the 16S rRNA gene (4, 5). Primers 793'(5'-GCA GGA GCT GTT GGT TAC TC-3') and 1330 (5'-CCT TCC TCC AAG TTC TAT GCC-3') were used to amplify a 518-bp portion of the p28 gene (17). PCR products were analyzed by 1.5% agarose gel electrophoresis stained with ethidium bromide and examined by UV transillumination. To minimize the potential risks for contamination, DNA extraction, PCR, and agarose gel eletrophoresis were performed in physically separate rooms. Positive (DNA extracted from tissue cultured-E. chaffeensis) and negative controls (water) were included in all PCR assays.

Sequence analyses

PCR amplicons were purified using ExoSAP-IT® (USB, Cleveland, USA) and sequenced directly with both forward and reverse primers of each gene (dsb, 16S rRNA and p28) with an automated ABI Prism 310 Genetic Analyser (Applied Biosystens/Perkin Elmer). The BLAST program (National Center for Biotechnology Information, Bethasda, MD) was used to compare dsb, 16S rRNA and p28 sequences in order to determine sequence similarities. Deduced amino acid sequences of DSB and 28-kDa proteins were analyzed by using the BLAST program.

RESULTS

Isolation and culture from dog blood

PCR amplification of the ehrlichial dsb gene fragment yielded expected amplicon size in DNA extracted from the dog blood and from the DH82 monolayer 14 days after inoculation with the primary leukocyte culture. On day 21, ehrlichial morulae were observed within the cytoplasm of cells (1-5% of infected cells). On day 28,5% of the cells were infected by visualization of ehrlichial morulae (Fig. 1) and E. canis DNA was detected in the culture. The isolate replicated relatively slowly, reaching 90-100% of infected DH82 cells only after three months. Subsequently, infected cells were sub cultured to uninfected DH82 cells, and the infection reached 90-100% in 10 to14 days. Thereafter, the infected cells were sub cultured several times, reaching 90-100% infection rates in 7 to10 days after inoculation. Frozen stocks of infected DH82 cells (left at -80ºC for several months) maintained a high infectivity when thawed and added to uninfected DH82 monolayers.


The E. canis isolate, designated São Paulo strain, has been deposited in the Rickettsial Collection of the Laboratory of Parasitic Diseases of the Faculty of Veterinary Medicine, in the University of São Paulo (under M.B.L.), and in the reference collection of the UTMB Rickettsial and Ehrlichial Diseases Research Laboratories (maintained by Jere W. McBride) where they are available upon request.

Molecular characterization of the ehrlichial isolate

DNA extracted from infected DH82 cells was used as template for PCR targeting portions of the ehrlichial genes dsb, 16S rRNA, and p28. Expected amplicons were visualized in all reactions. After DNA sequencing, generated sequences (excluding corresponding primer regions) contained 355, 339, and 484-bp for dsb, 16S rRNA, and p28 genes, respectively. Sequences showing highest identity to the Sao Paulo isolate generated sequences were determined by BLAST analyses (Table 1). The isolate exhibited high identity with corresponding sequences of E. canis in GenBank, confirming that the isolate was E. canis. Deduced amino acid sequence from partial dsb sequence was 100% (118/118) identical to E. canis strain Jake, 83.8% (99/118) to E.chaffeensis, 79.6% (94/118) to E. muris, 78.8% (93/118) to Ehrlichia sp strain IOE, 74.5% (88/118) to E. ewingii, and 72.8% (86/118) to E. ruminantium. Deduced amino acid sequence from partial p28 sequence was 99.3% (160/161) identical to E. canis strain Jake, 98.7% (159/161) to E. canis strains Oklahoma and VHE, 81.9% (132/161) to E. chaffeensis, 72.6% (117/161) to E. muris, 63.7% (65/102) to E. ewingii, and 58.3% (91/156) to E. ruminantium. Partial sequences (dsb, 16S rRNA and p28) from E. canis strain São Paulo generated in this study were deposited into GenBank and assigned the nucleotide accession numbers DQ460713, DQ460714, and DQ460715.

DISCUSSION

CME is a very important infectious disease of dogs in Brazil. Anecdotal observations suggest that this agent is widely distributed all over the country, especially in the urban areas, where the tick vector R. sanguineus is highly prevalent (14). Isolation and molecular characterization of E. canis strain São Paulo demonstrated a high degree of conservation with other E. canis strains that are globally distributed. Partial gene sequences of the E. canis São Paulo showed it to be nearly identical to other characterized E. canis strains. In fact, partial dsb and 16S rRNA sequences were identical to three and five other E. canis strains, respectively, from different countries and continents, including North America, Africa, Asia and Europe. However, the p28 partial sequence for E. canis São Paulo differed by 1, 2, and 2 nucleotides from the corresponding sequences of the E. canis strains Jake (from USA), Oklahoma (USA), and VHE (Venezuela), respectively. This result is expected since both dsb and 16S rRNA genes are highly conserved genes, while p28, which encodes for an immunodominat protein, may be under immune pressure of different hosts and thus exhibit some variation (10,11,18,23).

Our E. canis isolate derived from a dog that had been treated with doxycycline and imidorcarb for three weeks prior to the recurrence of the clinical CME symptoms. Ineffectiveness of doxycycline for complete elimination of the E. canis infection has been reported in dogs (12). On the other hand, the dog's owner reported tick infestation on the dog during and after the course of antibiotic therapy, what might have favored the recurrence of the disease. Laboratory findings demonstrated low hematological values for all cellular series, resulting in pancytopenia. Notably, platelet count value (19,000/mm3) was much lower than the minimal reference value (200,000/mm3) indicating a severe thrombocytopenia. Based on this clinical and epidemiological history, it is not possible to determine whether recurrence of clinical CME was due to a new infection acquired through infected ticks or the dog harbored chronic form of CME.

The results in this study point out that, currently, E. canis is the only recognized Ehrlichia species infecting dogs in Brazil. Further studies are required to evaluate other E. canis isolates from different geographic areas of Brazil, and verify the presence of different Ehrlichia species infecting dogs. For instance, E. chaffeensis DNA was recently reported in wild marsh deer (Blastocerus dichotomus) from the eastern part of the state of São Paulo (16).

ACKNOWLEDGEMENTS

We thank J. W. McBride and D. H. Walker (University of Texas Medical Branch) and T. Bronhall for their technical support and thoughtful review of the manuscript. This work was supported by the Fundação de Amparo à Pesquisa do Estado de São Paulo FAPESP (grants to D.M.A. and M.B.L.) and Conselho Nacional de Desenvolvimento Científico e Tecnológico CNPq (grants to M.B.L. and M.K.H.).

Submitted: June 18, 2007; Returned to authors for corrections: February 22, 2008; Approved: July 05, 2008.

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  • *
    Corresponding Author. Mailing address: (D.M.A.) Departamento de Clínica Médica Veterinária, Universidade Federal de Mato Grosso, Avenida Fernando Correa da Costa s/n, Bairro Coxipó, Cuiabá, MT, Brasil, CEP 78060-900. Fone: (65) 3615-8625. E-mail:
  • Publication Dates

    • Publication in this collection
      02 Oct 2008
    • Date of issue
      Sept 2008

    History

    • Accepted
      05 July 2008
    • Received
      18 June 2007
    Sociedade Brasileira de Microbiologia USP - ICB III - Dep. de Microbiologia, Sociedade Brasileira de Microbiologia, Av. Prof. Lineu Prestes, 2415, Cidade Universitária, 05508-900 São Paulo, SP - Brasil, Ramal USP 7979, Tel. / Fax: (55 11) 3813-9647 ou 3037-7095 - São Paulo - SP - Brazil
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