Population structure and genetic typing of Trypanosoma cruzi, the agent of Chagas disease: a multilocus enzyme electrophoresis approach

C. BARNABÉ; S. BRISSE; M. TIBAYRENC

doi:10.1017/S0031182099005661

Abstract

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A set of 434 Trypanosoma cruzi stocks from a wide ecogeographical range was analysed by Multilocus Enzyme Electrophoresis for 22 genetic loci. Strong linkage disequilibrium, not associated with geographical distance, and 2 main genetic clusters each considerably heterogeneous, was observed. These results support the hypotheses previously proposed that T. cruzi natural populations are composed of highly diversified genetic clones distributed into 2 main phylogenetic lineages: lineage 1, the most ubiquitous in the endemic area, was more frequently observed in sylvatic cycles, whereas lineage 2, predominant in humans and domestic cycles, in the southern part of the area surveyed, was further partitioned into 5 lesser genetic subdivisions. T. cruzi appears therefore subdivided into at least 6 ‘discrete typing units’ or DTUs (Tibayrenc, 1998a–c). We have identified various specific isoenzyme markers (‘tags’; Tibayrenc, op. cit.) suitable for the routine identification of these DTUs for epidemiological tracking purposes. We discuss the correspondence with previous classifications and with the recent recommendations of the 90th anniversary of the discovery of Chagas disease symposium, as well as the impact of T. cruzi genetic variability on this parasite's biomedical diversity.

Crossref Citations

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da Silveira Pinto, Artur de Lana, Marta Britto, Constança Bastrenta, Brigitte and Tibayrenc, Michel 2000. Experimental Trypanosoma cruzi biclonal infection in Triatoma infestans: detection of distinct clonal genotypes using kinetoplast DNA probes. International Journal for Parasitology, Vol. 30, Issue. 7, p. 843.

Brisse, Sylvain Dujardin, Jean-Claude and Tibayrenc, Michel 2000. Identification of six Trypanosoma cruzi lineages by sequence-characterised amplified region markers. Molecular and Biochemical Parasitology, Vol. 111, Issue. 1, p. 95.

Brisse, Sylvain Verhoef, Jan and Tibayrenc, Michel 2001. Characterisation of large and small subunit rRNA and mini-exon genes further supports the distinction of six Trypanosoma cruzi lineages. International Journal for Parasitology, Vol. 31, Issue. 11, p. 1218.

Barnabé, Christian Neubauer, Katja Solari, Aldo and Tibayrenc, Michel 2001. Trypanosoma cruzi: presence of the two major phylogenetic lineages and of several lesser discrete typing units (DTUs) in Chile and Paraguay. Acta Tropica, Vol. 78, Issue. 2, p. 127.

Barnabé, Christian Yaeger, Robert Pung, Oscar and Tibayrenc, Michel 2001. Trypanosoma cruzi: A Considerable Phylogenetic Divergence Indicates That the Agent of Chagas Disease Is Indigenous to the Native Fauna of the United States. Experimental Parasitology, Vol. 99, Issue. 2, p. 73.

Thomaz Soccol, V. Barnabe, C. Castro, E. Luz, E. and Tibayrenc, M. 2002. Trypanosoma cruzi: isoenzyme analysis suggests the presence of an active Chagas sylvatic cycle of recent origin in Paraná State, Brazil. Experimental Parasitology, Vol. 100, Issue. 2, p. 81.

Bosseno, Marie-France Barnabé, Christian Magallón Gastélum, Ezequiel Lozano Kasten, Felipe Ramsey, Janine Espinoza, Bertha and Brenière, Simone Frédérique 2002. Predominance of Trypanosoma cruzi Lineage I in Mexico . Journal of Clinical Microbiology, Vol. 40, Issue. 2, p. 627.

Tibayrenc, Michel and Ayala, Francisco J. 2002. The clonal theory of parasitic protozoa: 12 years on. Trends in Parasitology, Vol. 18, Issue. 9, p. 405.

Toledo, M.J.de O de Lana, M Carneiro, C.M Bahia, M.T Machado-Coelho, G.L.L Veloso, V.M Barnabé, C Tibayrenc, M and Tafuri, W.L 2002. Impact of Trypanosoma cruzi clonal evolution on its biological properties in mice. Experimental Parasitology, Vol. 100, Issue. 3, p. 161.

Garzón, E.A. Barnabé, C. Córdova, X. Bowen, C. Paredes, W. Gómez, E. Ouaissi, A. Tibayrenc, M. and Guevara, A.G. 2002. Trypanosoma cruzi isoenzyme variability in Ecuador: first observation of zymodeme III genotypes in chronic chagasic patients. Transactions of the Royal Society of Tropical Medicine and Hygiene, Vol. 96, Issue. 4, p. 378.

Tibayrenc, Michel 2003. Genetic subdivisions within Trypanosoma cruzi(Discrete Typing Units) and their relevance for molecular epidemiology and experimental evolution. Kinetoplastid Biology and Disease, Vol. 2, Issue. 1,

BRENIERE, S. F. BARNABE, C. BOSSENO, M. F. and TIBAYRENC, M. 2003. Impact of number of isoenzyme loci on the robustness of intraspecific phylogenies using multilocus enzyme electrophoresis: consequences for typing of Trypanosoma cruzi. Parasitology, Vol. 127, Issue. 3, p. 273.

Tran, Anh-Nhi Andersson, Björn Pettersson, Ulf and Åslund, Lena 2003. Trypanothione synthetase locus in Trypanosoma cruzi CL Brener strain shows an extensive allelic divergence. Acta Tropica, Vol. 87, Issue. 2, p. 269.

Diosque, Patricio Barnabé, Christian Padilla, Angel M Marco, Jorge D Cardozo, Rubén M Cimino, Rubén O Nasser, Julio R Tibayrenc, Michel and Basombrı́o, Miguel A 2003. Multilocus enzyme electrophoresis analysis of Trypanosoma cruzi isolates from a geographically restricted endemic area for Chagas’ disease in Argentina. International Journal for Parasitology, Vol. 33, Issue. 10, p. 997.

Hagar, James M. and Rahimtoola, Shahbudin H. 2003. Myocarditis. p. 455.

Brisse, Sylvain Henriksson, Jan Barnabé, Christian Douzery, Emmanuel J.P. Berkvens, Dirk Serrano, Myrna De Carvalho, Maria Ruth C. Buck, Gregory A. Dujardin, Jean-Claude and Tibayrenc, Michel 2003. Evidence for genetic exchange and hybridization in Trypanosoma cruzi based on nucleotide sequences and molecular karyotype. Infection, Genetics and Evolution, Vol. 2, Issue. 3, p. 173.

Barnabe, C. Brisse, S. and Tibayrenc, M. 2003. Phylogenetic diversity of bat trypanosomes of subgenus Schizotrypanum based on multilocus enzyme electrophoresis, random amplified polymorphic DNA, and cytochrome b nucleotide sequence analyses. Infection, Genetics and Evolution, Vol. 2, Issue. 3, p. 201.

Sturm, Nancy R Vargas, Nancy S Westenberger, Scott J Zingales, Bianca and Campbell, David A 2003. Evidence for multiple hybrid groups in Trypanosoma cruzi. International Journal for Parasitology, Vol. 33, Issue. 3, p. 269.

Villarreal, Diana Barnabé, Christian Sereno, Denis and Tibayrenc, Michel 2004. Lack of correlation between in vitro susceptibility to Benznidazole and phylogenetic diversity of Trypanosoma cruzi, the agent of Chagas disease. Experimental Parasitology, Vol. 108, Issue. 1-2, p. 24.

NJIOKOU, F. NKININ, S. W. GRÉBAUT, P. PENCHENIER, L. BARNABÉ, C. TIBAYRENC, M. and HERDER, S. 2004. An isoenzyme survey ofTrypanosoma bruceis.l. from the Central African subregion: population structure, taxonomic and epidemiological considerations. Parasitology, Vol. 128, Issue. 6, p. 645.

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Population structure and genetic typing of Trypanosoma cruzi, the agent of Chagas disease: a multilocus enzyme electrophoresis approach

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Population structure and genetic typing of Trypanosoma cruzi, the agent of Chagas disease: a multilocus enzyme electrophoresis approach

Abstract

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