Ceres Luciana Alves scite author profile

Benznidazole (BZ) is the most commonly used drug for the treatment of Chagas disease. Although BZ is known to induce the formation of free radicals and electrophilic metabolites within the parasite Trypanosoma cruzi, its precise mechanisms of action are still elusive. Here, we analyzed the survival of T. cruzi exposed to BZ using genetically modified parasites overexpressing different DNA repair proteins. Our results indicate that BZ induces oxidation mainly in the nucleotide pool, as heterologous expression of the nucleotide pyrophosphohydrolase MutT (but not overexpression of the glycosylase TcOgg1) increased drug resistance in the parasite. In addition, electron microscopy indicated that BZ catalyzes the formation of double-stranded breaks in the parasite, as its genomic DNA undergoes extensive heterochromatin unpacking following exposure to the drug. Furthermore, the overexpression of proteins involved in the recombination-mediated DNA repair increased resistance to BZ, reinforcing the idea that the drug causes double-stranded breaks. Our results also show that the overexpression of mitochondrial DNA repair proteins increase parasite survival upon BZ exposure, indicating that the drug induces lesions in the mitochondrial DNA as well. These findings suggest that BZ preferentially oxidizes the nucleotide pool, and the extensive incorporation of oxidized nucleotides during DNA replication leads to potentially lethal double-stranded DNA breaks in T. cruzi DNA.

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The recombinase Rad51 plays a key role in events of genetic exchange in Trypanosoma cruzi

Alves

Repolês

Silva

et al. 2018

Sci Rep

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Detection of genetic exchange has been a limiting factor to deepen the knowledge on the mechanisms by which Trypanosoma cruzi is able to generate progeny and genetic diversity. Here we show that incorporation of halogenated thymidine analogues, followed by immunostaining, is a reliable method not only to detect T. cruzi fused-cell hybrids, but also to quantify their percentage in populations of this parasite. Through this approach, we were able to detect and quantify fused-cell hybrids of T. cruzi clones CL Brener and Y. Given the increased detection of fused-cell hybrids in naturally-occurring hybrid CL Brener strain, which displays increased levels of RAD51 and BRCA2 transcripts, we further investigated the role of Rad51 – a recombinase involved in homologous recombination – in the process of genetic exchange. We also verified that the detection of fused-cell hybrids in T. cruzi overexpressing RAD51 is increased when compared to wild-type cells, suggesting a key role for Rad51 either in the formation or in the stabilization of fused-cell hybrids in this organism.

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Distinct Phenotypes Caused by Mutation of MSH2 in Trypanosome Insect and Mammalian Life Cycle Forms Are Associated with Parasite Adaptation to Oxidative Stress

et al. 2015

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BackgroundDNA repair mechanisms are crucial for maintenance of the genome in all organisms, including parasites where successful infection is dependent both on genomic stability and sequence variation. MSH2 is an early acting, central component of the Mismatch Repair (MMR) pathway, which is responsible for the recognition and correction of base mismatches that occur during DNA replication and recombination. In addition, recent evidence suggests that MSH2 might also play an important, but poorly understood, role in responding to oxidative damage in both African and American trypanosomes.Methodology/Principal FindingsTo investigate the involvement of MMR in the oxidative stress response, null mutants of MSH2 were generated in Trypanosoma brucei procyclic forms and in Trypanosoma cruzi epimastigote forms. Unexpectedly, the MSH2 null mutants showed increased resistance to H2O2 exposure when compared with wild type cells, a phenotype distinct from the previously observed increased sensitivity of T. brucei bloodstream forms MSH2 mutants. Complementation studies indicated that the increased oxidative resistance of procyclic T. brucei was due to adaptation to MSH2 loss. In both parasites, loss of MSH2 was shown to result in increased tolerance to alkylation by MNNG and increased accumulation of 8-oxo-guanine in the nuclear and mitochondrial genomes, indicating impaired MMR. In T. cruzi, loss of MSH2 also increases the parasite capacity to survive within host macrophages.Conclusions/SignificanceTaken together, these results indicate MSH2 displays conserved, dual roles in MMR and in the response to oxidative stress. Loss of the latter function results in life cycle dependent differences in phenotypic outcomes in T. brucei MSH2 mutants, most likely because of the greater burden of oxidative stress in the insect stage of the parasite.

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Importance and Physiological Effects of Hemolymphagy in Triatomines (Hemiptera: Reduviidae)

Alves¹,

Araújo²,

Gontijo³

et al. 2011

jnl. med. entom.

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Triatomines are hematophagous insects and the vectors for Trypanosoma cruzi in the Americas. Although their preferred meal is blood from vertebrate hosts, unfed triatomine nymphs are often seen feeding on different arthropod species. Triatomine saliva has a wide range of activities that aid the hematophagic process. However, nothing is known about its role during hemolymphagy. In the current study, we reproduced hemolymphagy under laboratory conditions and evaluated the influence of hemolymphagy on the survival of Triatoma infestans nymphs. The effects of saliva on the activation of the prophenoloxidase cascade in the invertebrate host and the influence of the saliva on the motility of the bugs and contractions of the dorsal vessels were assessed. Hemolymphagy prolonged the survival rate of T. infestans first instars from 60 to >120 d compared with unfed nymphs. The saliva from T. infestans caused a 50% reduction in the amplitude and frequency of the dorsal vessel contractions of adult Rhodnius prolixus and induced paralysis for >10 min when the saliva was injected into second instars. T. infestans saliva was able to inhibit the activation of the prophenoloxidase cascade from a R. prolixus hemolymph, but had no effect on the phenoloxidase activity after the cascade was activated. The paralyzing molecule in the saliva was <5 kDa and probably had no proteic or lipidic characteristics. These results suggest that triatomine saliva may play an important role during hemolymphagy by inducing paralysis and suppressing immune responses in the invertebrate host. The importance of hemolymphagy for the survival of nymphs in periods when vertebrate blood is scarce is also discussed.

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Comparação entre métodos de estocagem de DNA extraído de amostras de sangue, sêmen e pêlos e entre técnicas de extração

Coelho

Oliveira

Teixeira

et al. 2004

Arq. Bras. Med. Vet. Zootec.

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