Literature DB >> 24031351

Molecular analysis of the rRNA genes of Babesia spp and Ehrlichia canis detected in dogs from RibeirÃo Preto, Brazil.

L P Oliveira1, G P Cardozo, E V Santos, M A B Mansur, I A N Donini, V G Zissou, P G Roberto, M Marins.   

Abstract

The partial DNA sequences of the 18S rRNA gene of Babesia canis and the 16S rRNA gene of Ehrlichia canis detected in dogs from Ribeirão Preto, Brazil, were compared to sequences from other strains deposited in GenBank. The E. canis strain circulating in Ribeirão Preto is identical to other strains previously detected in the region, whereas the subspecies Babesia canis vogeli is the main Babesia strain circulating in dogs from Ribeirão Preto.

Entities:  

Keywords:  Babesia canis vogeli; Ehrlichia canis; PCR; rRNA gene; ticks

Year:  2009        PMID: 24031351      PMCID: PMC3769722          DOI: 10.1590/S1517-83822009000200006

Source DB:  PubMed          Journal:  Braz J Microbiol        ISSN: 1517-8382            Impact factor:   2.476


Canine monocytic ehrlichiosis (CME) and canine babesiosis (CB) are endemic diseases of great veterinary importance in Brazil. CME is caused by the Gram-negative endobacterium E. canis which multiplies inside monocytes of dogs, whereas CB is mainly caused by the intraerythrocytic protozoan B. canis. In Brazil, both parasites are transmitted to dogs by the brown tick Rhipicephalus sanguineus, a fact probably facilitating coinfection (1,5). Thrombocytopenia is a common finding in E. canis-infected dogs and many clinicians tend to use it as an indication for antibiotic treatment. However, thrombocytopenia can also be a manifestation of other diseases, as well as of infections with other parasites such as B. canis itself (6). Therefore, many clinicians tend to use combinations of antibiotics for treatment of the two parasites. Indeed, in the region of Ribeirão Preto we found thrombocytopenic dogs co-infected with E. canis and Babesia sp or Anaplasma platys, a Gram-negative bacterium which multiplies inside dog platelets and causes canine infectious cyclic thrombocytopenia (4,11). This fact emphasizes the need for more precise exams to permit a correct diagnosis by veterinary clinicians. In this respect, PCR-based methods can be designed to specifically detect and identify each of these parasites with high accuracy (7). DNA sequences obtained by PCR can also be used for the characterization and comparison of Brazilian strains to strains from other regions around the world. This approach helps complement studies to determine the occurrence of strains with specific regional genetic traits, such as susceptibility to antibiotics. In this report we present such analysis using partial DNA sequences from the 16S and 18S ribosomal RNA genes of E. canis and B. canis detected in dogs from Ribeirão Preto, Brazil. The rRNA gene sequences were generated by sequencing PCR products obtained during a previous study on the prevalence of blood parasites in dogs from Ribeirão Preto, Brazil (11). Briefly, nested PCR was used to detect the 16S rRNA gene of E. canis using the following set of primers: Apla-sense 5’CTCAGAACGAACGCTGGCGGCAAGC-3’ and ECB 5’CGTATTA CCGCGGCTGCTGGC-3’ were used in the first reaction; in the second reaction, 1 μL of the first reaction was used with primers ECA 5’-CAATTATTTATAGCCTCTGGCTA TAGGAA-3’ and HE-3 5’-TATAGGTACCGTCATTATCTT CCCTAT-3’, which generated a 389-bp fragment, encompassing position 49 to 437 of the GenBank reference sequence (AF162860). A single PCR was used to detect B. canis with primers BabgenF 5’- GAAACTGCGAATGGCTCATTA-3’ and Babesiarev1 5’- CCATGCTGAAGTATTC AAGAC-3’, which target the 18S rRNA gene of a wide range of Babesia species and generate a 642-bp fragment, encompassing position 81 to 722 of the GenBank reference sequence (AY072926). The amplified PCR products were purified and sequenced in an automated DNA sequencer (model 377, Applied Biosystems). Sequence analysis was performed using the ClustalX (12) and BLAST programs (2). The E. canis nested PCR nucleotide sequences of 10 out of 86 positive dogs were analyzed and showed 100% similarity. No polymorphisms to sequences from other Brazilian strains deposited in GenBank were observed. Considering the 347-bp fragment analyzed, 100% similarity to the 16S rRNA gene of the reference sequence was observed. Moreover, the sequences showed 100% similarity to strains from Venezuela, where human cases of infection with E. canis have been reported (10). In Brazil, despite the high incidence of the bacterium, no human cases have so far been reported. A more complete characterization is necessary to determine the molecular basis of these differences in pathogenicity, which might be related to host-parasite interactions influenced by geographical factors (3,8,11). B. canis and B. gibsoni are the two species associated with CB in Brazil (5). The PCR nucleotide sequences of 12 out of 18 dogs positive for the presence of Babesia spp were analyzed and were identical, indicating that the strains detected in Ribeirão Preto are classified as the subspecies B. canis vogeli. The sequences showed high similarity to sequences of B. canis vogeli previously detected in a study on dogs from the states of Minas Gerais and São Paulo, Brazil (9). In addition, these sequences also showed high similarity to strains from other parts of the world. A few polymorphisms were found among these sequences and are summarized in Table 1 for a fragment of 600 bp.
Table 1

Nucleotide sequence identities of the 18S rRNA sequences of B. canis vogeli with available B. canis sequences.

StrainNucleotide positiona
557172100348410480521554571574586588589591598599600
Brazil (AY371194)CTACAACTTTGTCTTATT
RP1 (EF052623)ººººººººººººººººGG
RP2 (EF052624)ºººººººººººººººººº
RP3 (EF052625)ºººººººººººººººGG
RP4 (EF052626)NNNNººººººººGGºººº
RP5 (EF052627)ºººººººººººººººººº
RP7 (EF052628)ºººººººººººººººººº
RP8 (EF052629)ººººººººººººººººº
RP9 (EF052630)TCNººººººººººººººº
RP10 (EF052631)ºººººººººººººººººº
RP11 (EF052632)ººººººººººººººººº
RP12 (EF052633)ººººººººººAAoooºº
Japan (AB083374)ºººººººººººººººººº
Australia (AY102163)NNNNºººººººººººººº
USA (AY371198)ºººººCºººººººººººº
France (AY072925)ºººººCºººººººººººº
Egypt1 (AY371197)ºººººººCCººººººººº
Spain (AY150061)ºººººCººººººººAººº
Egypt2 (AJ009796)NNNNºººCCººººººººº

B. canis vogeli Brazil, accession number AY371194, was used as a reference sequence for nucleotide positions. (—) deletion; ( º ) identical base to reference strain; ( N ) not determined.

The tick R. sanguineus is assumed to be the common vector of the two parasites described in this study. The occurrence of other species of tick-transmitted pathogens might be too low to be detected in the tick or in the vertebrate host in which clinical signs may not manifest. One example is the detection of A. platys DNA in dogs (4). This parasite is also believed to be transmitted by R. sanguineus, although there are no molecular data to confirm it. Since tick borne diseases affecting humans and animals are considered to be emerging diseases, the present molecular data are important for the surveillance of strains with different degrees of pathogenicity or even of the emergence of new species. In addition, the data contribute to the development of methods permitting sensitive detection and precise identification of these strains. Nucleotide sequence identities of the 18S rRNA sequences of B. canis vogeli with available B. canis sequences. B. canis vogeli Brazil, accession number AY371194, was used as a reference sequence for nucleotide positions. (—) deletion; ( º ) identical base to reference strain; ( N ) not determined.
  10 in total

1.  Basic local alignment search tool.

Authors:  S F Altschul; W Gish; W Miller; E W Myers; D J Lipman
Journal:  J Mol Biol       Date:  1990-10-05       Impact factor: 5.469

2.  First molecular detection of Babesia vogeli in dogs from Brazil.

Authors:  Lygia Maria Friche Passos; Stefan M Geiger; Múcio Flávio Barbosa Ribeiro; Kurt Pfister; Monika Zahler-Rinder
Journal:  Vet Parasitol       Date:  2005-01-04       Impact factor: 2.738

3.  The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools.

Authors:  J D Thompson; T J Gibson; F Plewniak; F Jeanmougin; D G Higgins
Journal:  Nucleic Acids Res       Date:  1997-12-15       Impact factor: 16.971

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Authors:  Daniel de Barros Macieira; Joanne Belle Messick; Aloysio de Mello Figueiredo Cerqueira; Isabel Maria Alexandre Freire; Guido Fontgalland Coelho Linhares; Núbia Karla de Oliveira Almeida; Nádia Regina Pereira Almosny
Journal:  Vet Clin Pathol       Date:  2005       Impact factor: 1.180

Review 5.  Canine babesiosis: a Brazilian perspective.

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Journal:  Vet Parasitol       Date:  2006-09-08       Impact factor: 2.738

6.  Coinfection with multiple tick-borne pathogens in a Walker Hound kennel in North Carolina.

Authors:  S K Kordick; E B Breitschwerdt; B C Hegarty; K L Southwick; C M Colitz; S I Hancock; J M Bradley; R Rumbough; J T Mcpherson; J N MacCormack
Journal:  J Clin Microbiol       Date:  1999-08       Impact factor: 5.948

7.  Ehrlichia canis-like agent isolated from a man in Venezuela: antigenic and genetic characterization.

Authors:  M Perez; Y Rikihisa; B Wen
Journal:  J Clin Microbiol       Date:  1996-09       Impact factor: 5.948

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Authors:  Daniel M Aguiar; Guacyara T Cavalcante; Adriano Pinter; Solange M Gennari; Luis Marcelo A Camargo; Marcelo B Labruna
Journal:  J Med Entomol       Date:  2007-01       Impact factor: 2.278

9.  Molecular evaluation of the incidence of Ehrlichia canis, Anaplasma platys and Babesia spp. in dogs from Ribeirão Preto, Brazil.

Authors:  Flávia Santos; Juliana S Coppede; André L A Pereira; Letícia P Oliveira; Patrícia G Roberto; Roberta B R Benedetti; Lenise B Zucoloto; Flávia Lucas; Lúcia Sobreira; Mozart Marins
Journal:  Vet J       Date:  2007-10-24       Impact factor: 2.688

10.  The relationship between the degree of thrombocytopenia and infection with Ehrlichia canis in an endemic area.

Authors:  Camilo Bulla; Regina Kiomi Takahira; João Pessoa Araújo; Luzia AparecidaTrinca; Raimundo Souza Lopes; Charles Edward Wiedmeyer
Journal:  Vet Res       Date:  2004 Jan-Feb       Impact factor: 3.683
  10 in total
  1 in total

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Journal:  Parasit Vectors       Date:  2014-01-14       Impact factor: 3.876
  1 in total

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