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2013 | 58 | 2 |

Tytuł artykułu

Microsatellite loci-based distribution of Trypanosoma cruzi genotypes from Chilean chronic Chagas disease patients and Triatoma infestans is concordant with a specific host-parasite association hypothesis

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The objective of this study was to investigate if there is specific host-parasite association in Chilean populations of Trypanosoma cruzi. For this purpose, two groups of parasites were analyzed, one from chronic chagasic patients, and the other from Triatoma infestans triatomines in three regions of the country. The first group consisted of four types of samples: parasites from peripheral blood of non-cardiopathic T. cruzi infected patients (NB); parasites from their corresponding xenodiagnosis (NX); parasites from peripheral blood of T. cruzi infected cardiopathic patients (CB) and parasites from their xenodiagnostics (CX). The T. infestans sample in turn was from three regions: III, V and M (Metropolitan). The genetic differentiation by the Fisher exact method, the lineage distribution of the samples, the molecular phylogeny and the frequency of multiclonality were analysed. The results show that not only are the groups of T. cruzi clones from Chagas disease patients and vectors genetically differentiated, but also all the sub-groups (NB, NX, CB and CX) from the III, V and M regions. The analysis of lineage distribution was concordant with the above results, because significant differences among the percentages of TcI, TcIII and hybrids (TcV or TcVI) were observed. The phylogenetic reconstruction with these Chilean T. cruzi samples was coherent with the above results because the four chagasic samples clustered together in a node with high bootstrap support, whereas the three triatomine samples (III, V and M) were located apart from that node. The topology of the tree including published T. cruzi clones and isolates was concordant with the known topology, which confirmed that the results presented here are correct and are not biased by experimental error. Taken together the results presented here are concordant with a specific host-parasite association between some Chilean T. cruzi populations.

Wydawca

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Czasopismo

Rocznik

Tom

58

Numer

2

Opis fizyczny

p.139-148,fig.,ref.

Twórcy

autor
  • Programa de Biologia Celular y Molecular, Instituto de Ciencias Biomedicas, Facultad de Medicina, correo 70086, Santiago, Chile
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Bibliografia

  • Apt W., Aguilera X., Arribada A., Gomez L., et al. 1987. Characterization of Trypanosoma cruzi sylvatic transmission cycles and their association with cardiopathy populations by zymodemes: correlation with clinical picture. American Journal of Tropical Medicine and Hygiene, 37, 302–307.
  • Bowcock A.M., Ruíz-Linares A., Tomfohrde J., Minch E., Kidd J.R., Cavalli-Sforza L.L. 1994. High resolution human evolutionary trees with polymorphic microsatellites. Nature, 368, 455–457. DOI: 10.1038/368455a0.
  • Brenière, S.T., Carlier Y., Tibayrenc M. 1992. Direct identification of Trypanosoma cruzi natural clones in vectors and mammalian hosts by polymerase chain reaction amplification. American Journal of Tropical Medicine and Hygiene, 46, 335–341.
  • Breniere S.F., Bosseno M.F., Telleria J. et al. 1998. Diferent behaviour of two Trypanosoma cruzi major clones: transmission and circulation in young Bolivian children. Experimental Parasitology, 98, 285–295. DOI: 10.1006/expr.1998.4295.
  • Brisse S., Barnabé C., Tibayrenc M. 2000. Identification of six Trypanosoma cruzi phylogenetic lineages by random amplified polymorphic DNA and multilocus enzyme electrophoresis. International Journal for Parasitology, 30, 35–44. DOI:10.1016/S0020-7519(99)00168-X.
  • Burgos J.M., Altcheh J., Bisio M., Duffy T., Valadares H.M.S., Seidenstein M.E., Piccinali R., Freitas J.M., Levin M.J., Macchi L., Macedo A.M., Freilij H., Schijman A.G. 2007. Direct molecular profiling of minicircle signatures and lineages of Trypanosoma cruzi bloodstream populations causing congenital Chagas disease. International Journal for Parasitology, 37, 1319–1327. DOI: 10.1016/j.ijpara.2007.04.015
  • Coronado X., Zulantay, I., Albrecht H., Rosas M., Apt W., Ortiz S., Rodriguez J., Sanchez G., Solari A. 2006. Variation in Trypanosoma cruzi clonal composition detected in blood patients and xenodiagnosis triatomines: implications in the molecular epidemiology of Chile. American Journal of Tropical Medicine and Hygiene, 74, 1008–1012.
  • Deane M.P., Mangia R.H.R., Pereira N.M., Momen H., Gonçalves A.M., Morel C.M. 1984. Trypanosoma cruzi: strain selection by different schedules of mouse passage of an initially mixed infection. Memorias do Instituto Oswaldo Cruz, 79, 495–497. DOI: 10.1590/S0074-02761984000400016.
  • Devera R., Fernandes O., Coura J.R. 2003. Should Trypanosoma cruzi be Called. T. cruzi. Complex? A review of the Parasite Diversity and the Potential of Selecting Population after in Vitro Culturing and Mice Infection. Memorias do Instituto Oswaldo Cruz, 98, 1–12.
  • De Freitas J.M., Augusto-Pinto L., Pimenta J.R., Bastos-Rodrigues L., Gonçalves, V.F., Teixeira S.M.R., Chiari E., Junqueira A.C.V., Fernandes O., Macedo A.M., Machado C.R., Pena S.D.J. 2006. Ancestral genomes, sex, and the population structure of Trypanosoma cruzi. PLOS Pathogens, 2, 226–235. DOI: 10.1371/journal.ppat.0020024.
  • Del Puerto R., Nishizawa J.E., Kikuchi M., Iihoshi N., Roca Y., Avilas C., Gianella A., Lora J., Velarde F.U., Renjel L.A., Miura S., Higo H., Komiya N., Maemura K., Hirayama K. 2010. Lineage analysis of circulating Trypanosoma cruzi parasites and their association with clinical forms of Chagas disease in Bolivia. PLoS Neglected Tropical Disease, 4, e687.
  • Dorn P.L., Engelke D., Rods A., Rosales R., Melgar S., Braney B., Flores J., Monroy C. 1999. Utility of the polymerase chain reaction in detection of Trypanosoma cruzi in Guatemalan Chagas’ disease vectors. American Journal of Tropical Medicine and Hygiene, 60, 740–745.
  • Felsenstein J. 1989. PHYLIP — Phylogeny Inference Package (Version 3.2). Cladistics, 5, 164–166.
  • Gaunt M.W., Yeo M., Frame I.A., Stothard J.R., Carrasco H.J., Taylor M.C., Mena S.S., Veazey P., Miles G.A.J., Acosta N., De Arias A.R., Miles M.A. 2003. Mechanism of genetic exchange in american trypanosomes. Nature, 421, 936–939. DOI: 10.1038/nature01438.
  • Goldstein D.B., Ruiz-Linares A., Cavalli-Sforza L.L., Feldman M.W. 1995. Genetic absolute dating based on microsatellites and the origin of modern humans. Proceeding of National Academic of Science USA, 92, 6723–6727.
  • Machado C.A., Ayala F.J. 2001. Nucleotide sequences provide evidence of genetic exchange among distantly related lineages of Trypanosoma cruzi. Proceeding of National Academic of Science USA, 98, 7396–7401. DOI: 10.1073/pnas.12118719.
  • Marcili A., Lima L., Valente V.C., Valente S.A., Batista J.S., Junqueira A.C.V., Souza A.I., Rosa J.A., Campaner M., Lewis M.D., Llewellyn M.S., Miles M.A., Teixeira M.M.G. 2009. Comparative phylogeography of Trypanosoma cruzi TCIIc: new host, association with terrestrial ecotopes, and spacial clustering. Infection Genetics and Evolution, 9, 1265–1274. DOI: 10.1016/j.meegid.2009.07.003.
  • Miles M.A., Llewellyn M.S., Lewis M.D., Yeo M., Baleela R., Fitzpatrick S., Gaunt M.W., Mauricio I.L. 2009. The molecular epidemiology and phylogeography of Trypanosoma cruzi and parallel research on Leishmania: looking back and to the future. Parasitology, 136, 1509–1528.
  • Momen H. 1999, Taxonomy of Trypanosoma cruzi: a Commentary on Characterization and Nomenclature. Memorias do Instituto Oswaldo Cruz, 94 (Suppl. I): 181–184.
  • Oliveira R.P., Broude N.E., Macedo A.M., Cantor C.R., Smith C.L., Pena S.D.J. 1998. Probing the genetic population structure of Trypanosoma cruzi with polymorphic microsatellites. Proceeding of National Academic of Science USA, 95, 3776–3780.
  • Paetkau D., Calver W., Stirling I., Strobeck C. 1995. Microsatellite analysis of population structure in Canadian polar bears. Molecular Ecology, 4, 347–354.
  • Ramos-Ligonio A., Torres-Montero J., López-Monteon A., Dumonteil E. 2012. Extensive diversity of Trypanosoma cruzi discrete typing units circulating in Triatoma dimidiata from central Veracruz, México. Infection, Genetics and Evolution, 12, 1341–1343.
  • Rannala B., Mountain J.L. 1997. Detecting immigration by using multilocus genotypes. Proceeding of National Academic of Science USA, 94, 9197–9201.
  • Raymond M., Rousset F. 1995a. An exact test for population differentiation. Evolution, 49, 1283–1286.
  • Raymond M., Rousset F. 1995b. GENEPOP Version 1.2: population genetics software for exact tests and ecumenicism. Journal of Heredity, 86, 248–249.
  • Rodrigues J., Borges-Pereira J. 2010. Chagas disease: 100 years after its discovery. A systemic review. Acta Tropica, 115, 5–13. DOI: 10.1016/j.actatropica.2010.03.008.
  • Saitou N., Nei M. 1987. The neighbor-joining method: A new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4, 406–425.
  • Sanchez G., Wallace A., Muñoz S., Venegas J., Ortiz S., Solari A. 1993. Characterization of Trypanosoma cruzi populations by several molecular markers support a clonal mode of reproduction. Biological Research, 26, 167–176.
  • Schmidt J., Kleffmann T., Schaub G.A. 1998. Hydrophobic attachment of Trypanosoma cruzi to a superficial layer of the rectal cuticle in the bug Triatoma infestans. Parasitology Research, 84, 527–536. DOI: 10.1007/s004360050443.
  • Solari A., Campillay R., Ortiz S., Wallace A. 2001. Identification of Trypanosoma cruzi genotypes circulating in Chilean chagasic patients. Experimental Parasitology 97, 226–233.
  • Souto R-P., Fernandes O., Macedo A.M., Campbell D.A., Zingales B. 1996. DNA markers define two major phylogenetic lineages of Trypanosoma cruzi. Molecular Biochemistry Parasitology 83, 141–152.
  • Telleria J., Lafay B., Virreira M., Barnabé C., Tibayrenc M., Svoboda M. 2006. Trypanosoma cruzi: Sequence analysis of the variable region of kinetoplast minicircles. Experimental Parasitology, 114, 279–288. DOI: 10.1016/j.exppara.2006.04.005.
  • Tibayrenc M. 2003. Genetic subdivisions within Trypanosoma cruzi (Discrete Typing Units) and their relevance for molecular epidemiology and experimental evolution. Kinetoplastid Biology and Disease, 3, 2–12. DOI: 10.1186/1475-9292-2-12.
  • Tibayrenc M., Ayala F.J. 1988. Isozyme variability in Trypanosoma cruzi, the agent of Chagas’ disease: genetical, taxonomical, and epidemiological significance. Evolution, 42, 277–292.
  • Torres J.P., Ortiz S., Munoz S., Solari A. 2004. Trypanosoma cruzi isolates from Chile are heterogeneous and composed of mixed populations when characterized by schizodeme and Southern analyses. Parasitology, 128, 161–168. DOI: 10.1017/S0031182003004475.
  • Veas F., Cuny G., Brenière S.F., Tibayrenc M. 1990. SubspeciWc kDNA probes for major clones of Trypanosoma cruzi. Acta Tropica, 48, 79–82.
  • Venegas J., Coñepan W., Pichuantes S., Miranda S., Jercic M.I., Gajardo M., Sánchez G. 2009a. Phylogenetic analysis of microsatellite markers further supports the two hybridization events hypothesis as the origin of the Trypanosoma cruzi lineages. Parasitology Research, 105, 191–199. DOI: 10.1007/s00436-009-1386-0.
  • Venegas J., Coñepan W., Pichuantes S., Miranda S., Apt W., Arribada A., Zulantay I., Coronado X., Rodriguez J., Reyes E., Solari A., Sánchez G. 2009b. Differential distribution of Trypanosama cruzi clones in human chronic cardiopathic and noncardiopathic individuals. Acta Tropica, 109, 187–193. DOI: 10.1016/j.actatropica.2008.11.007.
  • Venegas J., Miranda S., Coñepan W., Pichuantes S., Jercic M.I., González C., Gajardo M., Apt W., Arribada A., Sánchez G. 2010. Microsatellite marker analysis shows differentiation among Trypanosoma cruzi populations of peripheral blood and dejections of Triatoma infestans fed on the same chronic chagasic patients. Parasitology Research, 107, 855–863. DOI: 10.1007/s00436-010-1939-2.
  • Venegas J., Rojas T., Díaz F., Miranda S., Jercic M.I., González C., Coñoepán W., Pichuantes S., Rodríguez J., Gajardo M., Sánchez G. 2011. Geographical structuring of Trypanosoma cruz populations from Chilean Triatoma infestans triatomines and their genetic relationship with other Latino American counterparts. Annals of Tropical Medicine and Parasitology, 105, 625–646. DOI: 10.1179/2047773211Y.0000000002.
  • World Health Organization. 2000. Chagas Disease interrupted in Chile. TDR News 61: 10.
  • World Health Organization. 2002. Control of chagas disease: second report of the WHO expert committee Strategic Direction for Research, pp. 1–159. WHO Geneva Switzerland.
  • Yeo M., Acosta N., Llewellyn M., Sanchez H., Adamson S., Miles G.A.J., Lopez E., Gonzalez N., Patterson J.S., Gaunt M.W. 2005. Origins of Chagas disease: Didelphis species are natural hosts of Trypanosoma cruzi I and armadillos hosts of Trypanosoma cruzi II, including hybrids. International Journal for Parasitology, 35, 225–233. DOI: 10.1016/j.ijpara.2004.10.024.
  • Zingales B., Souto R.P., Mangia R.H., Lisboa C.V., Campbell D.A., Coura J.R., Jansen A., Fernandes O. 1998. Molecular epidemiology of American trypanosomiasis in Brazil based on dimorphisms of rRNA and mini-exon gene sequences. International Journal for Parasitology, 28, 105–112. DOI: 10.1016/ S0020-7519(97)00178-1.
  • Zingales B., Andrade S.G., Briones M.R.S., Campbell D.A., Chiari E., Fernandes O., Guhl F., Lages-Silva E., Macedo A.M., Machado C.R., Miles M.A., Romanha A.J., Sturm N.R., Tibayrenc M., Schijman A.G. 2009. A new consensus for Trypanosoma cruzi intraspecific nomenclature: second revision meeting recommends TcI to TcVI. Memorias do Instituto Oswaldo Cruz, 104, 1051–1054. DOI: 10.1590/S0074-02762009000700021.
  • Zingales B., Miles M., Campbell D.A., c, Tibayrenc M., Macedo A.M.,e, Teixeira M.M.G., Schijman A.G., Llewellyn M.S., Lages-Silva E., Machado C.R., Andrade S.G., Sturm N.R. 2012. The revised Trypanosoma cruzi subspecific nomenclature: Rationale, epidemiological relevance and research applications. Infection, Genetics and Evolution, 12, 240–253. DOI: 10.1016/j.meegid.2012.04.024.

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