Ítem
Solo Metadatos
Murine models susceptibility to distinct Trypanosoma cruzi i genotypes infection
Título de la revista
Autores
León C.M.
Montilla M.
Vanegas R.
Castillo, María
Parra E.
Ramírez, Juan David
Fecha
2017
Directores
ISSN de la revista
Título del volumen
Editor
Cambridge University Press
Citations
Métricas alternativas
Resumen
Abstract
Chagas disease is a complex zoonosis that affects around 8 million people worldwide. This pathology is caused by Trypanosoma cruzi, a kinetoplastid parasite that shows tremendous genetic diversity evinced in six distinct Discrete Typing Units (TcI-TcVI) including a recent genotype named as TcBat and associated with anthropogenic bats. TcI presents a broad geographical distribution and has been associated with chronic cardiomyopathy. Recent phylogenetic studies suggest the existence of two genotypes (Domestic (TcIDom) and sylvatic TcI) within TcI. The understanding of the course of the infection in different mouse models by these two genotypes is not yet known. Therefore, we infected 126 animals (ICR-CD1, National Institute of Health (NIH) and Balb/c) with two TcIDom strains and one sylvatic strain for a follow-up period of 60 days. We quantified the parasitaemia, immune response and histopathology observing that the maximum day of parasitaemia was achieved at day 21 post-infection. Domestic strains showed higher parasitaemia than the sylvatic strain in the three mouse models; however in the survival curves Balb/c mice were less susceptible to infection compared with NIH and ICR-CD1. Our results suggest that the genetic background plays a fundamental role in the natural history of the infection and the sympatric TcI genotypes have relevant implications in disease pathogenesis. © 2016 Cambridge University Press.
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Keywords
Immunoglobulin G antibody , T6 antigen , Animal experiment , Animal model , Article , Cardiomyopathy , Chagas disease , Controlled study , Female , Follow up , Genetic predisposition , Genetic variability , Genotype , Histopathology , Immune response , Immunofluorescence test , Inbred strain , Inoculation , Male , Mouse , Murine model , Nonhuman , Parasitemia , Phylogeny , Survival rate , Trypanosoma cruzi , Animal , Chagas disease , Disease predisposition , Genetics , Parasitology , Animals , Chagas Disease , Disease Susceptibility , Genotype , Mice , Trypanosoma cruzi , Inbred line , Mice , Trypanosoma cruzi
