P. B. Da Silva scite author profile

The current treatment of Chagas disease (CD), based on nifurtimox and benznidazole (Bz), is unsatisfactory. In this context, we performed the phenotypic in vitro screening of novel mono-and diamidines and drug interaction assays with selected compounds. Ten novel amidines were tested for their activities against bloodstream trypomastigote (BT) and amastigote forms of Trypanosoma cruzi (Y and Tulahuen strains) and their toxicities for mammalian host cells (L929 cells and cardiac cells). Seven of 10 molecules were more active than Bz against BT, with the most active compound being the diamidine DB2267 (50% effective concentration [EC 50 ] ‫؍‬ 0.23 M; selectivity index ‫؍‬ 417), which was 28-fold more active and about 3 times more selective than the standard drug. Five of the six monoamidines were also more active than Bz. The combination of DB2267 and DB2236 in fixed-ratio proportions showed an additive effect (sum of fractional inhibitory concentrations < 4) on BT. Interestingly, when intracellular forms were exposed to DB2267, its activity was dependent on the parasite strain, being effective (EC 50 ‫؍‬ 0.87 ؎ 0.05 M) against a discrete typing unit (DTU) II strain (strain Y) but not against a representative DTU VI strain (strain Tulahuen) even when different vehicles (␤-cyclodextrin and dimethyl sulfoxide) were used. The intrinsic fluorescence of several diamidines allowed their uptake to be studied. Testing of the uptake of DB2236 (inactive) and DB2267 (active) by amastigotes of the Y strain showed that the two compounds were localized intracellularly in different compartments: DB2236 in the cytoplasm and DB2267 in the nucleus. Our present data encourage further studies regarding the activities of amidines and provide information which will help with the identification of novel agents for the treatment of CD.

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In Vitro and In Vivo Studies of the Biological Activity of Novel Arylimidamides against Trypanosoma cruzi

Araújo

Silva

Batista

et al. 2014

Antimicrob Agents Chemother

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f Fifteen novel arylimidamides (AIAs) (6 bis-amidino and 9 mono-amidino analogues) were assayed against Trypanosoma cruzi in vitro and in vivo. All the bis-AIAs were more effective than the mono-AIAs, and two analogues, DB1967 and DB1989, were further evaluated in vivo. Although both of them reduced parasitemia, protection against mortality was not achieved. Our results show that the number of amidino-terminal units affects the efficacy of arylimidamides against T. cruzi.

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In Vitro and In Vivo Studies of the Trypanocidal Effect of Novel Quinolines

Nefertiti

Batista

Silva

et al. 2018

Antimicrob Agents Chemother

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Therapies for human African trypanosomiasis and Chagas disease, caused by and, respectively, are limited, providing minimal therapeutic options for the millions of individuals living in very poor communities. Here the effects of 10 novel quinolines are evaluated and by phenotypic studies using and models. Absorption, distribution, metabolism, excretion, and toxicity (ADMET) properties revealed that most molecules did not infringe on Lipinski's rules, which is a prediction of good oral absorption. These quinolines showed high probabilities of Caco2 permeability and human intestinal absorption and low probabilities of mutagenicity and of hERG1 inhibition. screens against bloodstream forms of demonstrated that all quinolines were more active than the reference drug (benznidazole [Bz]), except for DB2171 and DB2192, with five (DB2187, DB2131, DB2186, DB2191, and DB2217) displaying 50% effective concentrations (ECs) of <3 μM (4-fold lower than that of Bz). Nine quinolines were more effective than Bz (2.7 μM) against amastigotes, showing ECs ranging from 0.6 to 0.1 μM. All quinolines were also highly active against African trypanosomes, showing ECs of ≤0.25 μM. The most potent and highly selective candidates for each parasite species were tested in models. Results for DB2186 were promising in mice with and infections, reaching a 70% reduction of the parasitemia load for, and it cured 2 out of 4 mice infected with DB2217 was also active and cured all 4 mice (100% cure rate) with infection.

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In vitroinvestigation of the efficacy of novel diamidines againstTrypanosoma cruzi

et al. 2014

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Chagas' disease is a neglected tropical disease caused by Trypanosoma cruzi and constitutes a serious public health problem for Latin America. Its unsatisfactory chemotherapy stimulates the search for novel antiparasitic compounds. Amidines and related compounds exhibit well-known activity towards different microbes including T. cruzi. In this vein, our present aim was to evaluate the biological effect of 10 novel structurally related amidines in vitro against bloodstream and intracellular forms of the parasite as well as their potential toxicity on cardiac cell cultures. Our results show that although active against the extracellular forms, with some of them like DB2247 being 6-fold more effective than benznidazole and displaying very low toxicity (>96 μm), none presented superior trypanocidal effect against intracellular forms as compared with the reference drug. These results may be due to differences in susceptibility profiles related to distinct uptake/extrusion mechanisms and cellular targets between bloodstream and amastigote forms. The present study adds to the knowledge base for the future design of novel amidines that may provide promising activity against T. cruzi.

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P. B. Da Silva

In Vitro and In Vivo Trypanosomicidal Action of Novel Arylimidamides against Trypanosoma cruzi

Phenotypic Screening In Vitro of Novel Aromatic Amidines against Trypanosoma cruzi

In Vitro and In Vivo Studies of the Biological Activity of Novel Arylimidamides against Trypanosoma cruzi

In Vitro and In Vivo Studies of the Trypanocidal Effect of Novel Quinolines

In vitroinvestigation of the efficacy of novel diamidines againstTrypanosoma cruzi

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