A new focus of spotted fever caused by <i>Rickettsia parkeri</i> in Brazil

Martiniano, Nicole Oliveira de Moura; Sato, Tayra Pereira; Vizzoni, Vinicius Figueiredo; Ventura, Sheila de Figueiredo; Oliveira, Stefan Vilges de; Amorim, Marinete; Gazêta, Gilberto Salles

doi:10.1590/S1678-9946202264022

ABSTRACT

Spotted fever (SF) is a tick-borne zoonosis caused by bacteria of the genus Rickettsia . The disease varies in severity from mild clinical forms to severe cases. In Brazil, Rickettsia rickettsii SF is the most serious rickettsiosis and can result in death if not diagnosed and treated at the onset of symptoms. The SF mild form is caused by Rickettsia parkeri strain Atlantic Rainforest, and this etiological agent has been reported in the South, Southeast and Northeast regions of the country, in areas of preserved or little antropized Atlantic Rainforest. Amblyomma ovale is the proven vector and dogs are the hosts associated with the bioagent cycle. During a SF case investigation in Paraty municipality, Rio de Janeiro State, an Atlantic Rainforest biome area in Southeastern Brazil, the human pathogen R. parkeri strain Atlantic Rainforest was detected by PCR in a sample of human skin inoculation eschar and in a female A. ovale tick collected from a dog. These results expand the known area of occurrence of this mild form rickettsiosis in Brazil. In addition, the results of the present study indicate the importance of implementing programs to control canine ectoparasites and to raise awareness of the risks of infection, signs and symptoms of SF caused by R. parkeri strain Atlantic Rainforest.

KEYWORDS:
Mild Rickettsiosis; Endemic focus; Inoculation Eschar; Amblyomma ovale; Atlantic rainforest biome; Rickettsia parkeri; strain Atlantic Rainforest

INTRODUCTION

Rickettsioses are a complex of zoonosis caused by Gram-negative, obligate intracellular, bacteria of the genus Rickettsia , occurring worldwide, transmitted by hematophagous ectoparasites, such as ticks, fleas, mites and lice. Among them, Spotted Fever (SF) is one of the oldest known and most important vector-borne disease with severe and mild clinical forms described: while the SF caused by Rickettsia rickettsii is the most lethal tick-borne rickettsiosis, occurring throughout the Americas with high case-fatality rates recorded¹1 Parola P, Paddock CD, Socolovschi C, Labruna MB, Mediannikov O, Kernif T, et al. Update on tick-borne rickettsioses around the world: a geographic approach. Clin Microbiol Rev. 2013;26:657-702. – ³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. , Rickettsia parkeri SF has no severe systemic manifestations or recorded deaths¹1 Parola P, Paddock CD, Socolovschi C, Labruna MB, Mediannikov O, Kernif T, et al. Update on tick-borne rickettsioses around the world: a geographic approach. Clin Microbiol Rev. 2013;26:657-702. , ³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. .

In Brazil, even though SF has been known since 1929, only in 2001 it was included in the list of compulsory notifiable diseases by the Brazilian Ministry of Health and, currently, it is considered an emerging disease due to the increased number of confirmed cases in all regions of the country³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. . The severe form of SF is characterized by high fever and severe hemorrhagic manifestations, leading to death in approximately 33% of cases. It occurs mainly in Southeast region and Northern part of the Southern region, in anthropized areas of the Cerrado and Atlantic Rainforest biomes. The ticks Amblyomma sculptum and Amblyomma aureolatum are the known vectors of R. rickettsii for humans, while capybaras, horses and dogs are the vertebrate hosts involved in the cycle of the bioagent cycle³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. , ⁴4 Montenegro DC, Bitencourth K, Oliveira SV, Borsoi AP, Cardoso KM, Sousa MS, et al. Spotted fever: epidemiology and vector-Rickettsia-host relationship in Rio de Janeiro State. Front Microbiol. 2017;8:505. . However, the most recent SF mild form, characterized by fever, skin rash, necrotic inoculation eschar at the site of the tick bite, lymphadenopathy, headache, myalgia, arthralgia, but no deaths³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. – ⁵5 Faccini-Martínez AA, Oliveira SV, Cerutti Junior C, Labruna MB. Febre maculosa por Rickettsia parkeri no Brasil: condutas de vigilância epidemiológica, diagnóstico e tratamento. J Health Biol Sci. 2018;6:299-312. , has been recorded in the South, Southeast and Northeast regions of Brazil, in preserved or little anthropized Atlantic Rainforest biome areas⁵5 Faccini-Martínez AA, Oliveira SV, Cerutti Junior C, Labruna MB. Febre maculosa por Rickettsia parkeri no Brasil: condutas de vigilância epidemiológica, diagnóstico e tratamento. J Health Biol Sci. 2018;6:299-312. – ⁹9 Paixão Sevá A, Martins TF, Muñoz-Leal S, Rodrigues AC, Pinter A, Luz HR, et al. A human case of spotted fever caused by Rickettsia parkeri strain Atlantic rainforest and its association to the tick Amblyomma ovale. Parasit Vectors. 2019;12:471. . The known epidemiological scenario involves the tick Amblyomma ovale as the proven vector of the causal agent R. parkeri strain Atlantic Rainforest, and dogs as the hosts⁵5 Faccini-Martínez AA, Oliveira SV, Cerutti Junior C, Labruna MB. Febre maculosa por Rickettsia parkeri no Brasil: condutas de vigilância epidemiológica, diagnóstico e tratamento. J Health Biol Sci. 2018;6:299-312. – ⁹9 Paixão Sevá A, Martins TF, Muñoz-Leal S, Rodrigues AC, Pinter A, Luz HR, et al. A human case of spotted fever caused by Rickettsia parkeri strain Atlantic rainforest and its association to the tick Amblyomma ovale. Parasit Vectors. 2019;12:471. . This strain is considered a genetic variant of R. parkeri sensu stricto¹⁰10 Nieri-Bastos FA, Marcili A, Sousa R, Paddock CD, Labruna MB. Phylogenetic evidence for the existence of multiple strains of Rickettsia parkeri in the New World. Appl Environ Microbiol. 2018;84:e02872-17. , which is closely related to Rickettsia africae and Rickettsia sibirica .

The Atlantic Rainforest biome extends over 15% of the Brazilian territory, including Rio de Janeiro State, located in the Southeast region, which has one of the highest and largest urban, human population densities nationally, with rural and preserved areas in different ecoregions, in addition to the highest numbers of confirmed SF cases and deaths in the country. Accordingly, here, we report the infection by R. parkeri strain Atlantic Rainforest in vectors and samples of human tissue collected during field expeditions performed to investigate SF cases in the Paraty municipality, located in the region of Costa Verde, in Rio de Janeiro State.

MATERIALS AND METHODS

In November 2016, a suspected case of SF in the Paraty municipality (23°04’19.9”S 44°42’06.5”W) was reported to the Brazilian Notifiable Diseases Information System (SINAN)¹²12 Brasil. Ministério da Saúde. SINAN: Sistema de Informação de Agravos de Notificação. [cited 2021 Sep 23]. Availabe from: http://portalsinan.saude.gov.br
http://portalsinan.saude.gov.br... , involving a 53-year-old male patient, resident of a rural area of Sao Roque's neighborhood, who sought the health care unit with fever, myalgia, lymphadenopathy, but without a laboratory diagnosis. The patient described having frequent contact with a forest area and with ticks, dogs and cats. Following the investigation procedures for human cases of SF, the National Network for Environment Surveillance of Spotted Fever and other Rickettsial Diseases, from the Brazilian Ministry of Health, conducted a survey for potential SF vectors in the identified neighborhood in the Paraty municipality. A total of 24 ectoparasites were collected from one human and dogs at the probable infection site (a forest area in Sao Roque's neighborhood), morphologically identified according to group-specific dichotomous keys, as previously described¹¹11 Moerbeck L, Vizzoni VF, Machado-Ferreira E, Cavalcante RC, Oliveira SV, Soares CA, et al. Rickettsia (Rickettsiales: Rickettsiaceae) vector biodiversity in high altitude Atlantic Forest fragments within a semiarid climate: a new endemic area of spotted-fever in Brazil. J Med Entomol. 2016;53:1458-66. , and individually submitted to DNA extraction using the NaCl method, as described elsewhere⁴4 Montenegro DC, Bitencourth K, Oliveira SV, Borsoi AP, Cardoso KM, Sousa MS, et al. Spotted fever: epidemiology and vector-Rickettsia-host relationship in Rio de Janeiro State. Front Microbiol. 2017;8:505. , ¹¹11 Moerbeck L, Vizzoni VF, Machado-Ferreira E, Cavalcante RC, Oliveira SV, Soares CA, et al. Rickettsia (Rickettsiales: Rickettsiaceae) vector biodiversity in high altitude Atlantic Forest fragments within a semiarid climate: a new endemic area of spotted-fever in Brazil. J Med Entomol. 2016;53:1458-66. . Total DNA was quantified by spectrophotometry and stored at -20 ºC until they were used as template DNA in PCR amplifications.

Furthermore, in May 2017, another human case was reported to SINAN¹²12 Brasil. Ministério da Saúde. SINAN: Sistema de Informação de Agravos de Notificação. [cited 2021 Sep 23]. Availabe from: http://portalsinan.saude.gov.br
http://portalsinan.saude.gov.br... , involving a 35-year-old woman resident of the same rural area in Paraty (as in the previous investigation), who reported continuous fever associated with headache, myalgia, abdominal pain and inoculation eschar. The patient mentioned having visited environments of forest, river and waterfalls as well as having contact with ticks, dogs, cats and horses. In the medical unit, the crust covering the tick bite wound site was removed by a healthcare professional and stored in a sterile microtube with 70% ethanol. Then, the skin sample underwent DNA extraction using the DNeasy Blood and Tissue Kit (Qiagen, Hilden, Germany) according to the manufacturer's instructions, and the DNA sample was submitted to a PCR for Rickettsiae screening.

PCR amplifications of the rickettsial genes gltA (CS-78/CS-323 and CS-239/CS-1069)¹³13 Labruna MB, Whitworth T, Horta MC, Bouyer DH, Mcbride JW, Pinter A, et al. Rickettsia species infecting Amblyomma cooperi ticks from an area in the state of São Paulo, Brazil, where Brazilian spotted fever is endemic. J Clin Microbiol. 2004;42:90-8. , ¹⁴14 Labruna MB, Mcbride JW, Bouyer DH, Camargo LM, Camargo EP, Walker DH. Molecular evidence for a spotted fever group Rickettsia species in the tick Amblyomma longirostre in Brazil. J Med Entomol. 2004;41:533-7. , ompA ( Rr l90.70p/ Rr l90.602n)¹⁵15 Regnery RL, Spruill CL, Plikaytis BD. Genotypic identification of Rickettsiae and estimation of intraspecies sequence divergence for portions of two rickettsial genes. J Bacteriol. 1991;173:1576-89. and sca4 (D1738F/D2482R)¹⁶16 Sekeyova Z, Roux V, Raoult D. Phylogeny of Rickettsia spp. inferred by comparing sequences of ‘gene D’, which encodes an intracytoplasmic protein. Int J Syst Evol Microbiol. 2001;51:1353-60. were performed on the vector and human tissue samples, using molecular grade sterile water as the negative control and 300 ng of R. rickettsii genomic DNA as the positive control. Amplifications of mitochondrial D-loop region (D-loop3-1x/D-loop4-1x) and 12S rRNA (T1B/T2A) were also performed, as already described¹⁷17 Bitencourth K, Amorim M, Oliveira SV, Voloch CM, Gazêta GS. Genetic diversity, population structure and rickettsias in Amblyomma ovale in areas of epidemiological interest for spotted fever in Brazil. Med Vet Entomol. 2019;33:256-68. , to confirm the tick identification. The amplified DNA products were fractionated by horizontal electrophoresis on 2% agarose gels, stained with ethidium bromide and examined under UV transillumination.

Amplicons of the expected sizes were purified using the HiYield™ Gel/PCR DNA Mini Kit (RBC-Real Biotech Corporation, Taiwan) and sequenced in an automated ABI 3730xl DNA analyzer (Applied BioSystems, Carlsbad, CA, USA) by using the BigDye Terminator v3.1 Cycle Sequencing Kit (Applied Biosystems). DNA sequences were edited with SeqMan software (Lasergene DNASTAR package, DNASTAR Inc. Madison, WI, USA) and identity values obtained with the BLAST analysis of sequences published in GenBank. The Maximum-Likelihood tree was inferred using the PhyML 3.0 online software¹⁸18 Guindon S, Dufayard JF, Lefort V, Anisimova M, Hordijk W, Gascuel O. New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0. Syst Biol. 2010;59:307-21. and a GTR+G correction model, selected by the Smart Model Selection¹⁹19 Lefort V, Longueville JE, Gascuel O. SMS: Smart Model Selection in PhyML. Mol Biol Evol. 2017;34:2422-4. . Tree topology reliability was evaluated using bootstrap support (1,000 repeats).

RESULTS

A total of 21 adult ticks ( A. ovale n=5, and Rhipicephalus sanguineus n=16) and two fleas ( Ctenocephalides felis ) were collected when they were feeding on dogs, and one tick ( A. ovale ) was removed from a human. No rickettsial organisms were detected in the two flea samples. Among these, one A. ovale female (sample code: LIC 8272A) collected from a dog was infected with a Rickettsia genus bacterium, identified as Rickettsia parkeri str. Atlantic Rainforest, and the partial sequences of gltA, ompA and sca4 genes (GenBank accession MH160728-30) showed identity values of 100% (1098/1098), 100% (491/491) and 100% (684/684) respectively, with R. parkeri strain Atlantic Rainforest sequences (CP040325).

Similarly, the human tissue DNA analysis also detected a Rickettsiae infection, with the partial sequences of gltA, ompA and sca4 genes (GenBank accession MK690469-71), showing identity values of 100% (1066/1066), 100% (350/350) and 100% (573/573) respectively, with R. parkeri strain Atlantic Rainforest sequences (CP040325).

The phylogenetic analysis of a concatenated sequence with 2,249 nucleotides, generated from the genes gltA (1,051 bp), ompA (514 bp) and sca4 (684 bp), showed the samples from Paraty to be closely related to R. parkeri strain Atlantic Rainforest, and grouped in the R. parkeri cluster ( Figure 1 ).

Figure 1
Phylogenetic inferences by the Maximum-Likelihood method from 1,000 replicated trees based on concatenated nucleotide sequence of Spotted Fever Group Rickettsiae gltA, ompA and sca4 genes. Evolutionary distances were estimated by the GTR+G model. Bootstrap values > 70% are shown. Sequences obtained are highlighted in dark grey (total DNA from A. ovale ) and light grey (DNA from an eschar sample). GenBank accession numbers precede the sequence names. The scale bar indicates nucleotide substitutions per site.

To confirm the tick identification, we analyzed 12S rRNA gene sequences (GenBank accession MH160731) and the D-loop region (GenBank accession MH160732), amplified from A. ovale LIC 8272A mitochondrial DNA. The BLAST analysis of the 12S rRNA gene revealed high sequence identity values (98%, 307/312) with sequences of A. ovale (MF004423 and AY342273). The D-loop sequence obtained here was the firs t a vailable in GenBank for this tick species.

DISCUSSION

Although the main hosts of A. ovale are small wild rodents for the immature stages and wild carnivores (such as jaguar and tapir) for adults¹1 Parola P, Paddock CD, Socolovschi C, Labruna MB, Mediannikov O, Kernif T, et al. Update on tick-borne rickettsioses around the world: a geographic approach. Clin Microbiol Rev. 2013;26:657-702. , ¹⁷17 Bitencourth K, Amorim M, Oliveira SV, Voloch CM, Gazêta GS. Genetic diversity, population structure and rickettsias in Amblyomma ovale in areas of epidemiological interest for spotted fever in Brazil. Med Vet Entomol. 2019;33:256-68. , this tick is commonly found in domestic dogs, which transits between preserved and peridomiciliary areas. Furthermore, this species is also important as a neotropical tick, considering that it is widely distributed throughout Brazil and other Latin American countries¹1 Parola P, Paddock CD, Socolovschi C, Labruna MB, Mediannikov O, Kernif T, et al. Update on tick-borne rickettsioses around the world: a geographic approach. Clin Microbiol Rev. 2013;26:657-702. , ¹⁷17 Bitencourth K, Amorim M, Oliveira SV, Voloch CM, Gazêta GS. Genetic diversity, population structure and rickettsias in Amblyomma ovale in areas of epidemiological interest for spotted fever in Brazil. Med Vet Entomol. 2019;33:256-68. . Besides some recent studies that have increased the medical-veterinary importance of A. ovale and have shown this tick species as the main vector of R. parkeri strain Atlantic Rainforest, as specimens naturally infected by this bacterium¹⁰10 Nieri-Bastos FA, Marcili A, Sousa R, Paddock CD, Labruna MB. Phylogenetic evidence for the existence of multiple strains of Rickettsia parkeri in the New World. Appl Environ Microbiol. 2018;84:e02872-17. , ²⁰20 Luz HR, Faccini JL, McIntosh D. Molecular analyses reveal an abundant diversity of ticks and rickettsial agents associated with wild birds in two regions of primary Brazilian Atlantic Rainforest. Ticks Tick Borne Dis. 2017;8:657-65. have been described, especially in SF focus areas, due to the capacity of A. ovale to transmit and act as reservoir of this strain²¹21 Krawczak FS, Agostinho WC, Polo G, Moraes-Filho J, Labruna MB. Comparative evaluation of Amblyomma ovale ticks infected and noninfected by Rickettsia sp. strain Atlantic rainforest, the agent of an emerging rickettsiosis in Brazil. Ticks Tick-borne Dis. 2016;7:502-7. .

To date, a single larva of A. ovale was reported as being infected with R. parkeri strain Atlantic Rainforest in Rio de Janeiro State²⁰20 Luz HR, Faccini JL, McIntosh D. Molecular analyses reveal an abundant diversity of ticks and rickettsial agents associated with wild birds in two regions of primary Brazilian Atlantic Rainforest. Ticks Tick Borne Dis. 2017;8:657-65. and this tick was collected while parasitizing a bird ( Turdus rufiventris ) from the Itatiaia National Park, located in Resende municipality, a conservation unit on the borders of Rio de Janeiro and Minas Gerais States, in Southeastern Brazil. However, in the present study we analyzed ectoparasites collected in a SF focus area, indicating this tick species as the presumable vector of the detected pathogen.

In terms of the epidemic cycle, four clinical R. parkeri SF cases have been reported from widely-spread different Brazilian regions: Southeast, Sao Paulo State⁶6 Spolidorio MG, Labruna MB, Mantovani E, Brandão PE, Richtzenhain LJ, Yoshinari NH. Novel spotted fever group rickettsiosis, Brazil. Emerg Infect Dis. 2010;16:521-3. , Northeast, Bahia State⁷7 Silva N, Eremeeva M, Rozental T, Ribeiro GS, Paddock CD, Ramos EA, et al. Eschar-associated spotted fever rickettsiosis, Bahia, Brazil. Emerg Infect Dis. 2011;17:275-8. , ⁹9 Paixão Sevá A, Martins TF, Muñoz-Leal S, Rodrigues AC, Pinter A, Luz HR, et al. A human case of spotted fever caused by Rickettsia parkeri strain Atlantic rainforest and its association to the tick Amblyomma ovale. Parasit Vectors. 2019;12:471. and South, Santa Catarina State⁸8 Krawczak FS, Muñoz-Leal S, Guztzazky AC, Oliveira SV, Santos FC, Angerami RN, et al. Rickettsia sp. strain Atlantic Rainforest infection in a patient from a spotted fever-endemic area in Southern Brazil. Am J Trop Med Hyg. 2016;95:551-3. . However, the present study provides the first report of human infection by R. parkeri in a focus area in Rio de Janeiro State, Atlantic Rainforest biome, therefore expanding the occurrence area of the mild form of SF in Brazil.

Both SF eco-epidemiological scenarios occur in Rio de Janeiro State. However, in some localities, the circulating Rickettsiae, and the tick involved in the cycle remain unknown, thus enhancing the importance of the public awareness programs and continuous training processes conducted by the National Network for Environment Surveillance of Spotted Fever and other Rickettsial Diseases throughout the full range of Brazilian biomes³3 Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22. . In this context, our results highlight the medical-veterinary importance of Costa Verde region, since Paraty is one of the five municipalities with the highest numbers of SF cases in Rio de Janeiro State⁴4 Montenegro DC, Bitencourth K, Oliveira SV, Borsoi AP, Cardoso KM, Sousa MS, et al. Spotted fever: epidemiology and vector-Rickettsia-host relationship in Rio de Janeiro State. Front Microbiol. 2017;8:505. , with 57 human cases reported in the last 11 years¹²12 Brasil. Ministério da Saúde. SINAN: Sistema de Informação de Agravos de Notificação. [cited 2021 Sep 23]. Availabe from: http://portalsinan.saude.gov.br
http://portalsinan.saude.gov.br... (of these, six cases were confirmed by laboratory diagnosis). In addition, the area includes both urban and conserved Atlantic Rainforest areas, and is subjected to intense human transit due to a variety of purposes ( e.g. tourism, livestock, agriculture, fishing). In addition, the geographic characteristics of the site allow dogs to freely access the forest, stimulating canine parasitism by A. ovale and the emergence of an epidemic cycle of R. parkeri strain Atlantic Rainforest, the only pathogenic Rickettsiae found in the region. Therefore, Paraty is considered to be a new focus for R. parkeri SF in Brazil.

CONCLUSION

Due to the new site, there is an epidemiological scenario of mild cases of SF similar to other Brazilian areas. Similarities include: (i) report of the presence of inoculation eschar and lymphadenopathy symptoms in human cases (Municipal Health Department, unpublished data), with a patient tissue positive for R. parkeri infection; (ii) the preserved characteristics of the environment; and (iii) the discovery of A. ovale parasitizing dogs and humans. The detection, for the first time, of a strain phylogenetically related to R. parkeri in SF focus area of Rio de Janeiro State highlights the importance of implementing an orientation program for the control of canine ectoparasites, as well as a campaign of public awareness of the risks of infection and the signs and symptoms of SF caused by R. parkeri strain Atlantic Rainforest.

FUNDING

Brazil, Ministério da Saúde (process Nº TC 149/2011).

ACKNOWLEDGMENTS

The authors would like to thank Dr. Adrian Paul Ashton Barnett (Universidade Federal de Pernambuco, Brazil) for the English review and comments; to the Municipal Health Department of Paraty for the sampling support; and to the Genomic Platform DNA Sequencing (PDTIS/ Fundação Oswaldo Cruz , Rio de Janeiro, Brazil) for the sequencing support.

REFERENCES

¹
Parola P, Paddock CD, Socolovschi C, Labruna MB, Mediannikov O, Kernif T, et al. Update on tick-borne rickettsioses around the world: a geographic approach. Clin Microbiol Rev. 2013;26:657-702.
²
Alvarez-Hernández G. La Fiebre Manchada de las Montañas Rocosas, una epidemia olvidada. Salud Publica Mex. 2010;52:1-3.
³
Oliveira SV, Guimarães JN, Reckziegel GC, Neves BM, Araújo-Vilges KM, Fonseca LX, et al. An update on the epidemiological situation of spotted fever in Brazil. J Venom Anim Toxins Incl Trop Dis. 2016;22:22.
⁴
Montenegro DC, Bitencourth K, Oliveira SV, Borsoi AP, Cardoso KM, Sousa MS, et al. Spotted fever: epidemiology and vector-Rickettsia-host relationship in Rio de Janeiro State. Front Microbiol. 2017;8:505.
⁵
Faccini-Martínez AA, Oliveira SV, Cerutti Junior C, Labruna MB. Febre maculosa por Rickettsia parkeri no Brasil: condutas de vigilância epidemiológica, diagnóstico e tratamento. J Health Biol Sci. 2018;6:299-312.
⁶
Spolidorio MG, Labruna MB, Mantovani E, Brandão PE, Richtzenhain LJ, Yoshinari NH. Novel spotted fever group rickettsiosis, Brazil. Emerg Infect Dis. 2010;16:521-3.
⁷
Silva N, Eremeeva M, Rozental T, Ribeiro GS, Paddock CD, Ramos EA, et al. Eschar-associated spotted fever rickettsiosis, Bahia, Brazil. Emerg Infect Dis. 2011;17:275-8.
⁸
Krawczak FS, Muñoz-Leal S, Guztzazky AC, Oliveira SV, Santos FC, Angerami RN, et al. Rickettsia sp. strain Atlantic Rainforest infection in a patient from a spotted fever-endemic area in Southern Brazil. Am J Trop Med Hyg. 2016;95:551-3.
⁹
Paixão Sevá A, Martins TF, Muñoz-Leal S, Rodrigues AC, Pinter A, Luz HR, et al. A human case of spotted fever caused by Rickettsia parkeri strain Atlantic rainforest and its association to the tick Amblyomma ovale. Parasit Vectors. 2019;12:471.
¹⁰
Nieri-Bastos FA, Marcili A, Sousa R, Paddock CD, Labruna MB. Phylogenetic evidence for the existence of multiple strains of Rickettsia parkeri in the New World. Appl Environ Microbiol. 2018;84:e02872-17.
¹¹
Moerbeck L, Vizzoni VF, Machado-Ferreira E, Cavalcante RC, Oliveira SV, Soares CA, et al. Rickettsia (Rickettsiales: Rickettsiaceae) vector biodiversity in high altitude Atlantic Forest fragments within a semiarid climate: a new endemic area of spotted-fever in Brazil. J Med Entomol. 2016;53:1458-66.
¹²
Brasil. Ministério da Saúde. SINAN: Sistema de Informação de Agravos de Notificação. [cited 2021 Sep 23]. Availabe from: http://portalsinan.saude.gov.br
» http://portalsinan.saude.gov.br
¹³
Labruna MB, Whitworth T, Horta MC, Bouyer DH, Mcbride JW, Pinter A, et al. Rickettsia species infecting Amblyomma cooperi ticks from an area in the state of São Paulo, Brazil, where Brazilian spotted fever is endemic. J Clin Microbiol. 2004;42:90-8.
¹⁴
Labruna MB, Mcbride JW, Bouyer DH, Camargo LM, Camargo EP, Walker DH. Molecular evidence for a spotted fever group Rickettsia species in the tick Amblyomma longirostre in Brazil. J Med Entomol. 2004;41:533-7.
¹⁵
Regnery RL, Spruill CL, Plikaytis BD. Genotypic identification of Rickettsiae and estimation of intraspecies sequence divergence for portions of two rickettsial genes. J Bacteriol. 1991;173:1576-89.
¹⁶
Sekeyova Z, Roux V, Raoult D. Phylogeny of Rickettsia spp. inferred by comparing sequences of ‘gene D’, which encodes an intracytoplasmic protein. Int J Syst Evol Microbiol. 2001;51:1353-60.
¹⁷
Bitencourth K, Amorim M, Oliveira SV, Voloch CM, Gazêta GS. Genetic diversity, population structure and rickettsias in Amblyomma ovale in areas of epidemiological interest for spotted fever in Brazil. Med Vet Entomol. 2019;33:256-68.
¹⁸
Guindon S, Dufayard JF, Lefort V, Anisimova M, Hordijk W, Gascuel O. New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0. Syst Biol. 2010;59:307-21.
¹⁹
Lefort V, Longueville JE, Gascuel O. SMS: Smart Model Selection in PhyML. Mol Biol Evol. 2017;34:2422-4.
²⁰
Luz HR, Faccini JL, McIntosh D. Molecular analyses reveal an abundant diversity of ticks and rickettsial agents associated with wild birds in two regions of primary Brazilian Atlantic Rainforest. Ticks Tick Borne Dis. 2017;8:657-65.
²¹
Krawczak FS, Agostinho WC, Polo G, Moraes-Filho J, Labruna MB. Comparative evaluation of Amblyomma ovale ticks infected and noninfected by Rickettsia sp. strain Atlantic rainforest, the agent of an emerging rickettsiosis in Brazil. Ticks Tick-borne Dis. 2016;7:502-7.

Publication Dates

Publication in this collection
11 Mar 2022
Date of issue
2022

History

Received
18 May 2021
Accepted
23 Sept 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] FUNDING

Brazil, Ministério da Saúde (process Nº TC 149/2011).

Brasil