Leprosy is still a worldwide public health problem. Brazil and India show the highest prevalence rates of the disease. Natural infection of armadillos Dasypus novemcinctus with Mycobacterium leprae has been reported in some regions of the United States. Identification of bacilli is difficult, particularly due to its inability to grow in vitro. The use of molecular tools represents a fast and sensitive alternative method for diagnosis of mycobacteriosis. In the present study, the diagnostic methods used were bacilloscopy, histopathology, microbiology, and PCR using specific primers for M. leprae repetitive sequences. PCR were performed using genomic DNA extracted from 138 samples of liver, spleen, lymph nodes, and skin of 44 D. novemcinctus, Euphractus sexcinctus, Cabassous unicinctus, and C. tatouay armadillos from the Middle Western region of the state of São Paulo and from the experimental station of Embrapa Pantanal, located in Pantanal da Nhecolândia of Mato Grosso do Sul state. Also, the molecular analysis of 19 samples from internal organs of other road killed species of wild animals, such as Nasua nasua (ring-tailed coati), Procyon cancrivoros (hand-skinned), Cerdocyon thous (dog-pity-bush), Cavia aperea (restless cavy), Didelphis albiventris (skunk), Sphigurrus spinosus (hedgehog), and Gallictis vittata (ferret) showed PCR negative data. None of the 157 analyzed samples had shown natural mycobacterial infection. Only the armadillo inoculated with material collected from untreated multibacillary leprosy patient presented PCR positive and its genomic sequencing revealed 100% identity with M. leprae. According to these preliminary studies, based on the used methodology, it is possible to conclude that wild mammals seem not to play an important role in the epidemiology of leprosy in the Middle Western region of the São Paulo state and in the Pantanal of Mato Grosso do Sul state.
Journal Information
Vol. 14. Issue 1.
Pages 47-53 (January - February 2010)
Vol. 14. Issue 1.
Pages 47-53 (January - February 2010)
Original article
Open Access
Search for Mycobacterium leprae in wild mammals
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Sílvia Cristina Barboza Pedrini1,
, Patrícia Sammarco Rosa1, Ísis Meri Medri2, Guilherme Mourão2, Eduardo Bagagli3, Carlos Alberto de Magalhães Lopes3
Corresponding author
silviapedrini@yahoo.com.br
Correspondence to: Sílvia Cristina Barboza Pedrini Rodovia Comandante, João Ribeiro de Barros, km 225/226 PO Box 3021 Bauru, SP, Brasil CEP: 17034-971.
Correspondence to: Sílvia Cristina Barboza Pedrini Rodovia Comandante, João Ribeiro de Barros, km 225/226 PO Box 3021 Bauru, SP, Brasil CEP: 17034-971.
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Article information
Abstract
Keywords:
Dasypus novemcinctus
Euphractus sexcinctus
Cabassous tatouay
Mycobacterium leprae
eco-epidemiology
wild mammals
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References
[1.]
S.G. Browne.
Leprosy, pp. 394-395
[2.]
S.K. Noordeen.
The epidemiology.
Leprosy, 2.ed., pp. 29-34
[3.]
D.L. Williams, T.P. Gillis, P. Fiallo, et al.
Detection of Mycobacterium leprae and the potential for monitoring antileprosy drug therapy directly from skin biopsies by PCR.
Molec and Cell Probes, 6 (1992), pp. 401-410
[4.]
A. Telenti, F. Marchesi, M. Balz, F. Bally, E.C. Böttger, T. Bodmer.
Rapid Identification of Mycobacteria to the species level by Polymerase Chain Reaction and restriction enzyme analysis.
J Clin Microbiol, 31 (1993), pp. 175-178
[5.]
N. Rastogi, K.S. Goh, M. Berchel.
Species-specific identification of Mycobacterium leprae by PCR-Restriction Fragment Length Polymorphism Analysis of the hsp65 gene.
J Clin Microbiol, 37 (1999), pp. 2016-2019
[6.]
S.A. Woods, S.T. Cole.
A rapid method for the detection of potentially viable Mycobacterium leprae in human biopsies: a novel application of PCR.
FEMS Microbiol Lett, 65 (1989), pp. 305-310
[7.]
A.R. Santos, A.B. De Miranda, E.N. Sano, P.N. Suffys, W.M. Degrave.
Use of PCR-mediated amplification of Mycobacterium leprae DNA in different types of clinical samples for the diagnosis of leprosy.
J Med Microbiol, 39 (1993), pp. 298-304
[8.]
W.M. Meyers, B.J. Gormus, G.P. Walsh, G.B. Baskim, G.B. Hubbard.
Naturally-acquired and experimental leprosy in nonhuman primates.
Am J Trop Med and Hyg, 44 (1991), pp. 24-27
[9.]
O. Rojas-Espinosa, M. Lovik.
Mycobacterium leprae and Mycobacterium lepramurium infections in domestic and wild animals.
Rev Sci Tech Off Int Epiz, 20 (2001), pp. 219-251
[10.]
E.E. Storrs.
The nine-banded armadillo: a model for leprosy and other biomedical research.
Int J Lepr Other Mycobact Dis, 39 (1971), pp. 703-714
[11.]
W.F. Kirchheimer, E.E. Storrs.
Atttempts to establish the armadillo (Dasypus novemcinctus linn.) as a model for the study of leprosy. Report of lepromatous leprosy in an experimentally infected armadillo.
Int J Lepr Other Mycobact Dis, 39 (1971), pp. 692
[12.]
P.S. Rosa, A.F.F. Belone, E.A. Silva.
Mitsuda reaction in armadillos Dasypus novemcinctus using human and armadillo derived antigens.
Hansen Int, 30 (2005), pp. 174-179
[13.]
A.L. Gardner.
Order Cingulata. v.
3rd edition, pp. 2141
[14.]
A.F. Laguna.
El cachicamo sabanero: aspectos de su biologia y ecologia.
Fondo Edit Acta Cient Venezol, (1984), pp. 15-17
[15.]
R.M. Nowak.
Walker's Mammals of the World.
6th Ed., Johns Hopkins University Press, (1999),
[16.]
R.M. Wetzel.
The identification and distribution of recent xenarthra (Edentata) and taxonomy and distribuiton of armadillo, Dasypodidae.
The Evolution and Ecology of Armadillos, Sloths and Vermilingua, pp. 279-292
[17.]
W.M. Meyers, G.P. Walsh, H.L. Brown, R.J.W. Rees, J. Convit.
Naturally acquired leprosy-like disease in the nine-banded armadillo (Dasypus novemcinctus): Reactions in leprosy patients to lepromins prepared from naturally infected armadillos.
J Reticuloendothel Soc, 22 (1977), pp. 369
[18.]
R.W. Truman, C.K. Job, R.C. Hastings.
Antibodies to the phenolic glycolipid-1 antigen for epidemiologic investigations of enzootic leprosy in armadillo (Dasypus novemcinctus).
Lepr Rev, 61 (1990), pp. 19-24
[19.]
M. Monot, N. Honoré, T. Garnier, et al.
On the Origin of Leprosy.
Science, 308 (2005), pp. 1040-1042
[20.]
Rosa PS, Belone AFF, Silva EA, Pedrini SCB, Pinke CAE. Inoculação experimental de tatus com o M. leprae: resultados preliminares. 10ọ Congresso Brasileiro de Hansenologia, Recife, Brasil. 2005b; 19-22.
[21.]
Rosa PS, Silva EA, Pedrini SCB, Pinke CAE. The Effect of Iron Supplementation in the Diet of Dasypus novemcinctus Armadillos in Captivity. Braz J Biol 2009; 69:1 (in press).
[22.]
Brasil, Ministério da Saúde – FNS/CENEPI/CNPS/CRPHF. 1994. Manual de bacteriologia da tuberculose. 20ạ ed.
[23.]
N.C. Leal, A.M.P. Almeida.
Diagnosis of plague and identification of virulence markers in Yersinia pestis by multiplex-PCR.
Rev Inst Med Trop de São Paulo, 41 (1999), pp. 339-342
[24.]
Mahbubani MH, Bej AK. Applications of polimerase chain reaction methodology in clinical diagnostics. In: Griffin, L.C., Griffin, A.M. (Eds). PCR Technology: Current innovations. Boca Raton: 307-326. 1994.
[25.]
C.M. Grosskinsky, Jacobs W.R. Jr, Clark-Curtiss J.E., Bloom B.R..
Genetic Relationships among Mycobacterium leprae, Mycobacterium tuberculosis, and Candidate leprosy Vaccine Strains Determined by DNA Hybridization: Identification of an M. leprae-Specific Repetitive Sequence.
Infect Immun, 57 (1989), pp. 1535-1541
[26.]
Mammals of the Neotropics,
[27.]
Medri, IM. Ecologia e História Natural do Tatu-peba, Euphractus sexcinctus (Linnaeus, 1758), no Pantanal da Nhecolândia, Mato Grosso do Sul. (Thesis) University of Brasília, 2008.
[28.]
S.T. Cole, K. Eigimeier, J. Parkhii, et al.
Massive gene decay in the leprosy bacillus.
Nature, 409 (2001), pp. 1007-1011
[29.]
T. Stinear, D.R. Johnson.
From Marinum to Ulcerans: a mycobacterial human pathogen emerges.
Microbe, 2 (2007), pp. 187-194
[30.]
T.P. Stinear, T. Seemann, S. Pidot, et al.
Reductive evolution and niche adaptation inferred from the genome of Mycobacterium ulcerans, the causative agent of Burulli ulcer.
Gen Res, 17 (2007), pp. 192-200
[31.]
P.D. Deps, A.R. Santos, J. Yamashita-Tomimori.
Detection of Mycobacterium leprae DNA by PCR in blood sample from nine-banded armadillo: Preliminary results.
Int J Lepr other mycobact Dis, 70 (2002), pp. 34-35
[32.]
P.D. Deps, J.M.A.P. Antunes, J. Tomimori-Yamashita.
Detection of Mycobacterium leprae infection in wild nine-banded armadillos (Dasypus novemcinctus) using the rapid ML Flow test.
Rev Soc Bras Med Trop, 40 (2007), pp. 86-87
[33.]
W.F. Kirchheimer, R.M. Sanches.
Examination of North American armadillos for mycobacteriosis.
Lepr India, 50 (1978), pp. 156-160
[34.]
W.F. Kirchheimer.
Examination of north american armadillos for mycobacteriosis – a further report.
Lepr India, 51 (1979), pp. 60-66
[35.]
E.W. Howerth, D.E. Stallknecht, W.R. Davidson, E.J. Wentworth.
Survey for leprosy in nine-banded armadillos (Dasypus novemcinctus) from the Southeastern United States.
J Wildlife Dis, 26 (1990), pp. 112-115
[36.]
G.P. Walsh, E.E. Storrs, W.M. Meyers, C.H. Binford.
Naturally acquired leprosy-like disease in the nine-banded armadillo (Dasypus novemcinctus): recent epizootiologic findings.
J Reticuloendothel Soc, 22 (1977), pp. 363-367
[37.]
M.P. Barreto.
Reservatórios e vetores de Trypanosoma cruzi no Brasil.
Arq Hig Saúde Pub, 28 (1963), pp. 43-66
[38.]
R. Lainson, J.J. Shaw, H. Fraha, M.A. Miles, C.C. Draper.
Chagas's disease in the Amazon basin: I. Trypanossoma cruzi infections in silvatic mammals, triatomine gugs and man in state of Pará, north Brazil.
Trans Royal Trop Med Hyg, 73 (1979), pp. 193-204
[39.]
J.R. Arias, R.D. Naiff, M.F. Naiff, W.Y. Mok, M.M.R. Almeida.
Isolation of Histoplasma capsulatum from an armadillo (Dasypus novemcinctus) in the eastern Amazon of Brazil.
Trans Royal Soc Trop Med Hyg, 76 (1982), pp. 705-706
[40.]
R.D. Naiff, R.A. Freitas, M.F. Naiff, et al.
Epidemiological and nosological aspects of Leishmania naiffi.
Mem Inst Oswaldo Cruz, 86 (1991), pp. 317-321
[41.]
F. Sogorb, L.F. Jamira, E.C. Guimarães.
Toxoplasmose em animais de São Paulo, Brasil.
Rev Inst Med Trop São Paulo, 19 (1977), pp. 91-94
[42.]
R.D. Naiff, L.C.P. Ferreira, T.V. Barrete, M.F. Naiff, J.R. Arias.
Paracoccidioidomicose enzoótica em tatus (Dasypus novemcinctus) no estado do Pará.
Rev Inst Med Trop São Paulo, 53 (1986), pp. 19-27
[43.]
E. Bagagli, A. Sano, K.I.L. Coelho, et al.
Isolation of Paracoccidioides brasiliensis from armadillos (Dasypus novemcinctus) captured in an endemic area of paracoccidioidomycosis.
Am J Trop Med Hyg, 58 (1998), pp. 505-512
[44.]
E. Bagagli, S.M.G. Bosco, R.C. Theodoro, M. Franco.
Phylogenetic and evolutionary aspects of Paracoccidioides brasiliensis reveal a long coexistence with animal hosts that explain several biological features of the pathogen.
Infect Genet and Evol, 6 (2006), pp. 344-351
[45.]
R.E. Leakey.
Human Origins.
Lodestar Books, (1982),
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