Article
The multiple and complex and changeable scenarios of the Trypanosoma cruzi transmission cycle in the sylvatic environment
Registration in:
JANSEN, Ana Maria; XAVIER, Samanta C. C.; ROQUE, André Luiz R. The multiple and complex and changeable scenarios of the Trypanosoma cruzi transmission cycle in the sylvatic environment. Acta Tropica, v.151, p.1-15, Nov. 2015.
0001-706X
10.1016/j.actatropica.2015.07.018
1873-6254
Author
Jansen, Ana Maria
Xavier, Samanta C. C.
Roque, André Luiz R.
Abstract
In this study, we report and discuss the results generated from over 20 years of studies of the Trypanosoma
cruzi sylvatic transmission cycle. Our results have uncovered new aspects and reviewed old
concepts on issues including reservoirs, true generalist species, association of mammalian species with
distinct discrete typing units – DTUs, distribution of T. cruzi genotypes in the wild, mixed infections, and
T. cruzi transmission ecology. Using parasitological and serological tests, we examined T. cruzi infection
in 7,285 mammalian specimens from nine mammalian orders dispersed all over the Brazilian biomes.
The obtained T. cruzi isolates were characterized by mini-exon gene sequence polymorphism and PCR
RFLP to identify DTUs. Infection by T. cruzi was detected by serological methods in 20% of the examined
animals and isolated from 41% of those infected, corresponding to 8% of all the examined mammals. Each
mammal taxon responded uniquely to T. cruzi infection. Didelphis spp. are able to maintain high and longlasting
parasitemias (positive hemocultures) caused by TcI but maintain and rapidly control parasitemias
caused by TcII to almost undetectable levels. In contrast, the tamarin species Leontopithecus rosalia and
L. chrysomelas maintain long-lasting and high parasitemias caused by TcII similarly to Philander sp. The
coati Nasua nasua maintains high parasitemias by both parental T. cruzi DTUs TcI or TcII and by TcII/TcIV
(formerly Z3) at detectable levels. Wild and domestic canidae seem to display only a short period of
reservoir competence. T. cruzi infection was demonstrated in the wild canid species Cerdocyon thous and
Chrysocyon brachyurus, and positive hemoculture was obtained in one hyper carnivore species (Leopardus
pardalis), demonstrating that T. cruzi transmission is deeply immersed in the trophic net. T. cruzi DTU
distribution in nature did not exhibit any association with a particular biome or habitat. TcI predominates
throughout (58% of the T. cruzi isolates); however, in spite of being significantly less frequent (17%),
TcII is also widely distributed. Concomitant DTU infection occurred in 16% of infected mammals of all
biomes and included arboreal and terrestrial species, as well as bats. TcI/TcII concomitant infection was
the most common and widely dispersed, with mixed TcI/TcII infections especially common in coatis and
in Didelphimorphia. The second most common pattern of concomitant infection was TcI/TcIV, observed
in Chiroptera, Didelphimorphia and Primates. Taken together, our results demonstrate the complexity of
T. cruzi reservoir system and its transmission strategies, indicating that there is considerably more to be
learned regarding ecology of T. cruzi.