Literature DB >> 24025128

Molecular prevalence of Trypanosoma spp. in wild rodents of Southeast Asia: influence of human settlement habitat.

P Pumhom1, D Pognon2, S Yangtara2, N Thaprathorn3, C Milocco2, B Douangboupha4, S Herder2, Y Chaval5, S Morand2, S Jittapalapong2, M Desquesnes2.   

Abstract

SUMMARY: This study investigated the molecular prevalence of Trypanosoma lewisi and T. evansi in wild rodents from Cambodia, Lao PDR and Thailand. Between 2008 and 2012, rodents (and shrews) were trapped in nine locations and 616 of these were tested using three sets of primers: TRYP1 (amplifying ITS1 of ribosomal DNA of all trypanosomes), TBR (amplifying satellite genomic DNA of Trypanozoon parasites) and LEW1 (amplifying ITS1 of ribosomal DNA of T. lewisi). Based on the size of the PCR products using TRYP1, 17% were positive for T. lewisi and 1·0% positive for Trypanozoon. Results were confirmed by sequencing PCR products and by using more specific primers (LEW1 and TBR). The specificity of TRYP1 primers, however, failed as rodent DNA was amplified in some instances, giving unexpected product sizes. Using LEW1 primers, 13·3% of the samples were confirmed positive for T. lewisi, both by PCR and sequencing. In Thailand, T. lewisi was found in Rattus tanezumi, R. exulans and Berylmys; in Lao PDR, in R. tanezumi and R. exulans, and in Cambodia in R. tanezumi, R. exulans and R. norvegicus. Using TBR, 1·3% of the samples tested positive for Trypanozoon by PCR and sequencing; T. evansi is the only species of the Trypanozoon subgenus possibly present in wild Asian rodents. These results confirmed its presence in rodents from Thailand (R. tanezumi), Lao PDR (R. tanezumi, R. nitidus) and Cambodia (R. tanezumi, Niviventer fulvescens, Maxomys surifer). Based on the information related to rodent trapping, it was found that rodent species trapped in and around human dwellings had a higher prevalence of T. lewisi infection. R. tanezumi and R. exulans, two synanthropic species, were mainly found infected in this habitat suggesting a role as a reservoir and thus a potential source of T. lewisi for human infection.

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Year:  2013        PMID: 24025128      PMCID: PMC9167665          DOI: 10.1017/S0950268813002161

Source DB:  PubMed          Journal:  Epidemiol Infect        ISSN: 0950-2688            Impact factor:   4.434


  25 in total

Review 1.  Applications of PCR-based tools for detection and identification of animal trypanosomes: a review and perspectives.

Authors:  M Desquesnes; A M R Dávila
Journal:  Vet Parasitol       Date:  2002-11-11       Impact factor: 2.738

2.  The use of ITS1 rDNA PCR in detecting pathogenic African trypanosomes.

Authors:  Z K Njiru; C C Constantine; S Guya; J Crowther; J M Kiragu; R C A Thompson; A M R Dávila
Journal:  Parasitol Res       Date:  2004-12-24       Impact factor: 2.289

3.  Specific primers for PCR amplification of the ITS1 (ribosomal DNA) of Trypanosoma lewisi.

Authors:  Marc Desquesnes; Desquesnes Marc; Ketsarin Kamyingkird; Kamyingkird Ketsarin; Sarawut Yangtara; Yangtara Sarawut; Cristina Milocco; Milocco Cristina; Sophie Ravel; Ravel Sophie; Ming-Hui Wang; Wang Ming-Hui; Zhao-Rong Lun; Lun Zhao-Rong; Serge Morand; Morand Serge; Sathaporn Jittapalapong; Jittapalapong Sathaporn
Journal:  Infect Genet Evol       Date:  2011-05-05       Impact factor: 3.342

4.  Cytonuclear discordance among Southeast Asian black rats (Rattus rattus complex).

Authors:  Marie Pagès; Eric Bazin; Maxime Galan; Yannick Chaval; Julien Claude; Vincent Herbreteau; Johan Michaux; Sylvain Piry; Serge Morand; Jean-François Cosson
Journal:  Mol Ecol       Date:  2012-12-24       Impact factor: 6.185

5.  Detection and identification of Trypanosoma of African livestock through a single PCR based on internal transcribed spacer 1 of rDNA.

Authors:  M Desquesnes; G McLaughlin; A Zoungrana; A M Dávila
Journal:  Int J Parasitol       Date:  2001-05-01       Impact factor: 3.981

6.  Short report: Human trypanosomiasis caused by Trypanosoma evansi in a village in India: preliminary serologic survey of the local population.

Authors:  Vijay R Shegokar; Rajaram M Powar; Prashant P Joshi; Aradhana Bhargava; Vibhawari S Dani; Ravindra Katti; Vasant R Zare; Vithhalrao D Khanande; Jean Jannin; Philippe Truc
Journal:  Am J Trop Med Hyg       Date:  2006-11       Impact factor: 2.345

7.  Revisiting the taxonomy of the Rattini tribe: a phylogeny-based delimitation of species boundaries.

Authors:  Marie Pagès; Yannick Chaval; Vincent Herbreteau; Surachit Waengsothorn; Jean-François Cosson; Jean-Pierre Hugot; Serge Morand; Johan Michaux
Journal:  BMC Evol Biol       Date:  2010-06-18       Impact factor: 3.260

8.  Molecular detection of divergent trypanosomes among rodents of Thailand.

Authors:  S Jittapalapong; T Inpankaew; N Sarataphan; V Herbreteau; J P Hugot; S Morand; R W Stich
Journal:  Infect Genet Evol       Date:  2007-08-25       Impact factor: 3.342

9.  The diversity of microparasites of rodents: a comparative analysis that helps in identifying rodent-borne rich habitats in Southeast Asia.

Authors:  Frédéric Bordes; Vincent Herbreteau; Stéphane Dupuy; Yannick Chaval; Annelise Tran; Serge Morand
Journal:  Infect Ecol Epidemiol       Date:  2013-04-08

10.  PCR identification of Trypanosoma lewisi, a common parasite of laboratory rats.

Authors:  Marc Desquesnes; Sophie Ravel; Gérard Cuny
Journal:  Kinetoplastid Biol Dis       Date:  2002-05-29
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  7 in total

1.  Integrative taxonomic approach of trypanosomes in the blood of rodents and soricids in Asian countries, with the description of three new species.

Authors:  Eliakunda Mafie; Atsuko Saito-Ito; Masatoshi Kasai; Mochammad Hatta; Pilarita T Rivera; Xiao-Hang Ma; Eng-Rin Chen; Hiroshi Sato; Nobuhiro Takada
Journal:  Parasitol Res       Date:  2018-10-23       Impact factor: 2.289

2.  Helminth parasite species richness in rodents from Southeast Asia: role of host species and habitat.

Authors:  Marta Palmeirim; Frédéric Bordes; Kittipong Chaisiri; Praphaiphat Siribat; Alexis Ribas; Serge Morand
Journal:  Parasitol Res       Date:  2014-08-02       Impact factor: 2.289

3.  Zoonotic Trypanosomes in Rats and Fleas of Venezuelan Slums.

Authors:  Herakles A Garcia; Carlos J Rangel; Paola A Ortíz; Carlos O Calzadilla; Raul A Coronado; Arturo J Silva; Arlett M Pérez; Jesmil C Lecuna; Maria E García; Aixa M Aguirre; Marta M G Teixeira
Journal:  Ecohealth       Date:  2019-10-03       Impact factor: 3.184

4.  First Report of Anuran Trypanosoma DNA in Flat-Tailed House Geckos (Reptilia: Gekkonidae) Collected from Southern Thailand: No Evidence as a Reservoir for Human Trypanosomatids.

Authors:  Prapimporn Toontong; Sakone Sunantaraporn; Sonthaya Tiawsirisup; Theerakamol Pengsakul; Rungfar Boonserm; Atchara Phumee; Padet Siriyasatien; Kanok Preativatanyou
Journal:  Pathogens       Date:  2022-02-14

5.  Phlebotomine Sand Flies in Southern Thailand: Entomological Survey, Identification of Blood Meals and Molecular Detection of Trypanosoma spp.

Authors:  Jirayu Buatong; Vit Dvorak; Arunrat Thepparat; Kanaphot Thongkhao; Surachart Koyadun; Padet Siriyasatien; Theerakamol Pengsakul
Journal:  Insects       Date:  2022-02-14       Impact factor: 2.769

6.  Impact of Anthropogenic Disturbance on Native and Invasive Trypanosomes of Rodents in Forested Uganda.

Authors:  Johanna S Salzer; C Miguel Pinto; Dylan C Grippi; Amanda Jo Williams-Newkirk; Julian Kerbis Peterhans; Innocent B Rwego; Darin S Carroll; Thomas R Gillespie
Journal:  Ecohealth       Date:  2016-09-21       Impact factor: 4.464

7.  Systematic review and meta-analysis on the global distribution, host range, and prevalence of Trypanosoma evansi.

Authors:  Weldegebrial G Aregawi; Getahun E Agga; Reta D Abdi; Philippe Büscher
Journal:  Parasit Vectors       Date:  2019-01-31       Impact factor: 3.876
  7 in total

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