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Rickettsia felis (Rickettsiales: Rickettsiaceae) in Ctenocephalides felis felis (Siphonaptera: Pulicidae) in the State of São Paulo, Brazil

Rickettsia felis (Rickettsiales: Rickettsiaceae) em Ctenocephalides felis felis (Siphonaptera: Pulicidae) no estado de São Paulo

Abstracts

Samples of 10 and 14 Ctenocephalides felis felis fleas were collected on dogs from Pedreira and Mogi das Cruzes municipalities, respectively, in the State of São Paulo, Brazil, for detection of Rickettsia spp. Individual fleas were submitted to Polymerase Chain Reaction targeting the 17-kDa and the 190-kDa (OmpA) genes of Rickettsiae. This later gene is specific for spotted fever group. Nine fleas from Pedreira (90%) and four fleas from Mogi das Cruzes (28%) were positive for the 17-kDa gene, and eight fleas from Pedreira (80%) and four from Mogi das Cruzes (28%) were positive for 190-kDa gene. The nucleotide sequence of the 190-kDa products of one flea from Pedreira and one flea from Mogi das Cruzes were 100% identical to each other, and when compared to the GenBank Data, they were 100% identical to the 190-kDa sequence of R. felis. This was the first report of its occurrence in the State of São Paulo.

Rickettsia felis; Ctenocephalides felis felis; dog; 190-kDa gene; Brazil


Amostras de 10 e 14 pulgas Ctenocephalides felis felis foram coletadas de cães nos municípios de Pedreira e Mogi das Cruzes, respectivamente, no estado de São Paulo, para pesquisa de Rickettsia spp. As pulgas foram individualmente submetidas à reação em cadeia pela polimerase, tendo como alvo os genes 17-kDa e 190-kDa (OmpA) de Rickettsia, sendo esse último específico para o GFM. Nove pulgas de Pedreira (90%) e quatro pulgas de Mogi das Cruzes (28%) foram positivas para o gene 17-kDa, e oito pulgas de Pedreira (80%) e quatro de Mogi das Cruzes (28%) foram positivas para o gene 190-kDa. As seqüências de nucleotídeos do gene 190-kDa de uma pulga de Pedreira e de uma pulga de Mogi das Cruzes foram 100% idênticas; quando comparadas com dados existentes no GenBank, foram 100% idênticas com a seqüência parcial do gene 190-kDa de Rickettsia felis. Esse foi o primeiro relato de sua ocorrência no estado de São Paulo.

cão; Rickettsia felis; Ctenocephalides felis felis; gene 190-kDa


VETERINARY MEDICINE

Rickettsia felis (Rickettsiales: Rickettsiaceae) in Ctenocephalides felis felis (Siphonaptera: Pulicidae) in the State of São Paulo, Brazil

Rickettsia felis (Rickettsiales: Rickettsiaceae) em Ctenocephalides felis felis (Siphonaptera: Pulicidae) no estado de São Paulo

M.C. HortaI; A. PinterI; A. CortezI; R.M. SoaresI; S.M. GennariI; T.T.S. SchumakerII; M.B. LabrunaI

IFaculdade de Medicina Veterinária e Zootecnia - Universidade de São Paulo Av. Prof. Orlando Marques de Paiva 87 05508-000 - São Paulo, SP

IIInstituto de Ciências Biomédicas - Universidade de São Paulo

ABSTRACT

Samples of 10 and 14 Ctenocephalides felis felis fleas were collected on dogs from Pedreira and Mogi das Cruzes municipalities, respectively, in the State of São Paulo, Brazil, for detection of Rickettsia spp. Individual fleas were submitted to Polymerase Chain Reaction targeting the 17-kDa and the 190-kDa (OmpA) genes of Rickettsiae. This later gene is specific for spotted fever group. Nine fleas from Pedreira (90%) and four fleas from Mogi das Cruzes (28%) were positive for the 17-kDa gene, and eight fleas from Pedreira (80%) and four from Mogi das Cruzes (28%) were positive for 190-kDa gene. The nucleotide sequence of the 190-kDa products of one flea from Pedreira and one flea from Mogi das Cruzes were 100% identical to each other, and when compared to the GenBank Data, they were 100% identical to the 190-kDa sequence of R. felis. This was the first report of its occurrence in the State of São Paulo.

Keywords:Rickettsia felis, Ctenocephalides felis felis, dog, 190-kDa gene, Brazil

RESUMO

Amostras de 10 e 14 pulgas Ctenocephalides felis felis foram coletadas de cães nos municípios de Pedreira e Mogi das Cruzes, respectivamente, no estado de São Paulo, para pesquisa de Rickettsia spp. As pulgas foram individualmente submetidas à reação em cadeia pela polimerase, tendo como alvo os genes 17-kDa e 190-kDa (OmpA) de Rickettsia, sendo esse último específico para o GFM. Nove pulgas de Pedreira (90%) e quatro pulgas de Mogi das Cruzes (28%) foram positivas para o gene 17-kDa, e oito pulgas de Pedreira (80%) e quatro de Mogi das Cruzes (28%) foram positivas para o gene 190-kDa. As seqüências de nucleotídeos do gene 190-kDa de uma pulga de Pedreira e de uma pulga de Mogi das Cruzes foram 100% idênticas; quando comparadas com dados existentes no GenBank, foram 100% idênticas com a seqüência parcial do gene 190-kDa de Rickettsia felis. Esse foi o primeiro relato de sua ocorrência no estado de São Paulo.

Palavras-chave: cão, Rickettsia felis, Ctenocephalides felis felis, gene 190-kDa

INTRODUCTION

The genus Rickettsia is currently composed by few more than 20 recognized species, which have mostly been associated with hematophagous arthropods, such as ticks, mites, lice and fleas (Stenos and Walker, 2000). Some of these species cause disease in humans and/or animals, to which they are transmitted via the arthropod vectors. In humans, rickettsiosis are generally acute diseases characterized classically by fever, headache, and in some cases, rash. Many other Rickettsia species are considered non-pathogenic or of unknown pathogenicity to humans.

Currently, genotypic identification by molecular techniques is much more used and has also allowed the characterization of previously uncultured species, such as Rickettsia felis (Bouyer et al., 2001). R. felis was first observed by Adams et al. (1990) in the midgut of cat fleas Ctenocephalides felis felis, and confirmed later as a new species by the use of genotypic characterization (Bouyer et al., 2001). Only recently, this species could be first cultured in laboratory (Raoult et al., 2001). By today, R. felis-infected fleas have been reported in some localities in the United States (Boostrom et al., 2002), Spain (Márquez et al., 2002), France (Rolain et al., 2003), United Kingdon (Kenny et al., 2003), Ethiopia (Raoult et al., 2001), Thailand (Parola et al., 2003), New Zealand (Kelly et al., 2004), Mexico (Zavala-Velázquez et al., 2002), Peru (Pachas et al., 2001) and in the state of Minas Gerais, Brazil (Oliveira et al., 2002). Moreover, human cases of a rickettsioses caused by R. felis have been reported in United States, France, Brazil; Germany; Mexico and Thailand (Schriefer et al., 1994; Raoult et al., 2001; Richter et al., 2002; Parola et al., 2003).

This study aimed to determine the Rickettsia felis occurrence in fleas collected on dogs from two Brazilian Spotted Fever endemic municipalities in the State of São Paulo.

MATERIAL AND METHODS

A sample of 10 adult fleas were collected on a resident dog from a farm near the Jaguari River, in Pedreira municipality (22°47'S, 46°54'W), and another sample of 14 adult fleas was collected on a dog from a farm in the district of Taiaçupeba, Mogi das Cruzes municipality (23º38'S, 46º11'W), both in the State of São Paulo. These two farms are located within the known endemic areas for human Brazilian spotted fever in the State of São Paulo (Melles et al., 1999; Lemos et al., 2001).

Fleas were collected alive and placed in dry plastic vials covered by a cork, containing few minute holes. Fleas from each locality were put together in a single vial. The vials were held under conditions of high humidity (>80%) and temperature around 24ºC during transportation to the laboratory, where fleas were taxonomically identified (Linardi and Guimarães, 2000) and placed in a freezer at -80°C until molecular analysis.

Individual fleas were immersed in iodine alcohol for 10min followed by two washes in distilled water. Each flea was triturated in 40µl of TE buffer (10mM Tris HCl; 1mM ethylenediaminetetracetic acid (EDTA) pH 8.0) in a sterile mortar with the aid of a sterile alundum, which were previously washed in cloridric acid (HCl 0.1N) followed by heating at 250ºC for 120 minutes to prevent any cross contamination. The resultant flea suspension was boiled at 100ºC for 20 minutes and held at -20°C until testing by polymerase chain reaction (PCR).

Extraction of flea DNA, PCR reaction set up and gel analysis of PCR products occurred in physically separated areas using different sets of pipetting devices and cotton-plugged pipette tips. For PCR, the boiled suspension from each triturated flea was used as DNA template to attempt the amplification of the rickettsial gene of the 17-kDa and 190-kDa proteins. For the 17-kDa gene, it was used the primers1 1 Invitrogen-California, USA PK-1 GCTCTTGCAACTTCTATGTT and PK-2 CATTGTTCGTCAGGTTGGCG, which amplify a 434-bp fragment of most of the Rickettsia species (Webb et al., 1990). For the 190-kDa (OmpA) gene, it was used the primers Rr-190.70P – ATGGCGAATATTTCTCCAAAA and Rr-190.602n – AGTGCAGCATTCGCTCCCCCT, which amplifies a 532-bp fragment of the 190-kDa protein gene (OmpA) of all Rickettsia species of the spotted fever group (SFG) (Regnery et al., 1991). For each reaction, 5µl of an individual flea DNA template were added to the follow PCR reagents1 1 Invitrogen-California, USA : 5µl of PCR buffer (10X), 8µl of deoxynucleotide triphosphates mixture (1.25mM), 1.5µl MgCl2 (50mM), 25pmol of each primer, (0.25µl of Taq polymerase (5000 U/ml), and bi-distilled water to a final volume of 50µl. Aliquots of this same water were used as template for the PCR negative controls. Reactions were performed in an automated DNA thermocycler2 2 PTC-200 - MJ Research - Massachusetts, USA . For the 17-kDa PCR, the following thermal conditions were employed: an initial denaturation at 94ºC for 5min, followed by 35 cycles of 94ºC for 45sec, 56ºC for 30sec and 72ºC for 2min, and finally 72ºC for 10min. For the 190-kDa PCR, the following thermal conditions were employed: 94ºC for 5min, followed by 35 cycles of 95ºC for 40sec, 58ºC for 30sec and 65ºC for 45sec, and finally 72ºC for 10min. PCR products were visualized by electrophoresis in 1.5% agarose gels1 1 Invitrogen-California, USA with a 100-bp molecular weight ladder1 1 Invitrogen-California, USA stained by ethidium bromide (0.5µg/ml10).

PCR products showing a band of the expected size for the 190-kDa PCR, obtained from an individual flea from Pedreira and another flea from Mogi das Cruzes were purified and their forward and reverse nucleotide sequences were determined in a DNA sequencer analyzer3 3 ABI Prism 310 Genetic - Applied Biosystens/Perkin Elmer, California, USA using the same PCR conditions described above. The resultant sequences were compared to other rickettsial sequences available in the GenBank/EMBL Databases.

RESULTS

All 24 fleas collected in this study were identified as Ctenocephalides felis felis. Nine of the 10 fleas from Pedreira (90%) and four of the 14 fleas from Mogi das Cruzes (28%) were positive for the 17-kDa gene, showing expected bands compatible with the 434-bp size (Fig. 1). When these same fleas were tested for the 190-kDa gene, eight fleas from Pedreira (80%) and four from Mogi das Cruzes (28%) were positive, showing expected bands compatible with the 532-bp size. All fleas positive for the 190-kDa gene were also positive for the 17-kDa (i.e. only one flea from Pedreira was positive for the 17-kDa gene and negative for the 190-kDa gene). Amplification was unsuccessfully in all negative controls.


The nucleotide sequence of the 190-kDa products of one flea from Pedreira and one flea from Mogi das Cruzes were 100% identical to each other, and when compared to the GenBank Data, they were 100% identical to the 190-kDa available sequence of R. felis [AF191026].

DISCUSSION

Due to the several reports of R. felis among different countries, it was suggested that it might have a worldwide distribution (Zavala-Velázquez et al., 2002). As a contribution for the life history of this new Rickettsia species, this study comprises the second report of R. felis from fleas in Brazil, and the first from the State of São Paulo. A previous study reported the presence of R. felis in Ctenocephalides sp fleas from Coronel Fabriciano Municipality, State of Minas Gerais (Oliveira et al., 2002). The presence of R. felis was confirmed in two C. felis felis fleas, from two different areas, by sequencing the PCR product corresponding to the 190-kDa gene. The two fleas were also positive for the 17-kDa gene, PCR. This latter gene has been found in different Rickettsia species from both typhus group (TG) and spotted fever group (SFG), but the 190-kDa gene is restricted to SFG species, which includes R. felis (Bouyer et al., 2001). It is noteworthy that no previous work with fleas or R. felis had been conducted in the laboratory. This minimizes any possibility of external contamination of these samples.

Currently, the only Rickettsia species reported in Ctenocephalides fleas are R. felis and Rickettsia typhi (Azad et al., 1997; Bouyer et al., 2001). R. typhi is the etiologic agent of murine typhus and has also been reported in Brazil (Linardi and Guimarães, 2000). Although only two PCR products out of 12 positive fleas for the 190-kDa gene were sequenced in the present study, the remaining 10 fleas were probably also infected by R. felis, as R. typhi can not be detected by the 190-kDa gene primers used in the present study (Regnery et al., 1991). At least one flea from Pedreira was positive for the 17-kDa gene but negative for the 190-kDa gene, suggesting a TG Rickettsiae. Unfortunately, no extra DNA of this particular flea was available, and then the sequence of its PCR product could not be determined. DNA of R. felis and R. typhi have been detected in C. felis felis from common areas of the United States. Generally, infection rates for R. felis are higher than those for R. typhi (Azad et al., 1997; Boostrom et al., 2002).

Although small flea samples (10 fleas from Pedreira and 14 fleas from Mogi das Cruzes) were tested, the proportions of positive fleas for the 190-kDa gene (presumably R. felis) were high, especially in the Pedreira sample, where 80% were positive. In another study with C. felis felis collected on dogs and cats from Spain, seven out of 14 pools of fleas were positive for R. felis (Márquez et al., 2002). Although the proportion of infection by R. felis among C. felis felis from United States has been reported to be higher than 80% among commercial and laboratory flea colonies, the proportions among wild–caught fleas have been less than 5% (Boostrom et al., 2002; Wedincamp and Foil 2002). Thus, the present study reports the highest proportion of R. felis-positive fleas among wild-caught fleas. Although transovarial transmission and transstadial survival of R. felis in C. felis felis has been well documented, either the mechanism by which naïve fleas acquire new infections and the mechanism of transmission of the pathogen by an infected flea are not clarified (Wedincamp and Foil, 2002). Even though these results could be affected by a potential transient rickettsemia in the dogs when the fleas where collected, it is also unknown if dogs can be infected by R. felis. Even if they were, an efficient reservoir must develop a rickettsemia above the threshold sufficient to infect fleas feeding on them. In regard to R. rickettsii, Norment and Burgdorfer (1984) proved that dogs experimentally inoculated with R. rickettsii became infected and ill but were not an efficient source of infection for feeding ticks. Another possible way that could have potentially contributed to our high proportion of positive fleas was the fact that fleas collected on each dog were held and transported to laboratory, together in a single vial. However, horizontal transmission of R. felis between fleas has never been proved, even when infected fleas were held in direct contact with uninfected fleas (Wedincamp and Foil, 2002). In addition, our fleas were individually surface-sterilized and washed twice in distilled water prior to analysis.

The high proportion of R. felis-infected C. felis felis reported in this study appoint for the circulating of the agent in both areas (Pedreira and Mogi das Cruzes). In the two areas, the dogs were reared unrestrained, with free access to forests and bushes, sharing the same habitats with domestic and wild animals. The role of dogs in the life history of R. felis (other than being a primary host for C. felis felis) is unknown. Opossums (Didelphis virginiana) have been reported as competent reservoirs of both R. felis and R. typhi in the United States (Azad at al., 1997; Boostrom et al., 2002). South American opossums (Didelphis albiventris and Didelphis aurita) were abundant in both areas of the present study (data not shown).

Both findings of R. felis in Brazil (Oliveira et al., 2002 and the present study) were conducted in areas where recent human cases of Brazilian spotted fever (BSF) have been reported. These BSF cases were clinically (high case fatality rates) and epidemiologically (recent historic of tick bite) compatible with infection due to R. rickettsii, and were diagnosed by serologic-based techniques, such as immunofluorescence assay (IFA) and immunohistochemical of tissue samples, or by isolation of the agent in cell culture (Melles et al., 1999; Lemos et al., 2001; Oliveira et al., 2002). Although the disease caused by R. felis in humans seems to be less severe than the disease caused by R. rickettsii (i.e. no lethal cases due to R. felis has been reported), a differential diagnosis of both agents should be provided in these areas where both agents seem to coexist. Moreover, R. felis is a novel agent and many clinical and ecological features of its life history are yet to be explored.

ACKNOWLEDMENTS

To the Health Municipal Office of Mogi das Cruzes and Pedreira, and to the farm residents in both localities of the present study for their valuable support during the present study. This work was supported by FAPESP (processes No. 00/02711-1, No. 00/02710-5 and 01/01218-2).

Recebido para publicação em 6 de novembro de 2003

Recebido para publicação, após modificações, em 30 de junho de 2004

Suporte financeiro: FAPESP

E-mail: maurivet@yahoo.com

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  • 1
    Invitrogen-California, USA
  • 2
    PTC-200 - MJ Research - Massachusetts, USA
  • 3
    ABI Prism 310 Genetic - Applied Biosystens/Perkin Elmer, California, USA
  • Publication Dates

    • Publication in this collection
      30 Aug 2005
    • Date of issue
      June 2005

    History

    • Accepted
      30 June 2004
    • Received
      06 Nov 2003
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