Abstract
Trypanosoma cruzi is a hemoflagellated parasite causing Chagas disease, which affects 6–8 million people in the Americas. More than one hundred years after the description of this disease, the available drugs for treating the T. cruzi infection remain largely unsatisfactory. Chloroquinoline and arylamidine moieties are separately found in various compounds reported for their anti-trypanosoma activities. In this work we evaluate the anti-T. cruzi activity of a collection of 26 “chimeric” molecules combining choroquinoline and amidine structures. In a first screening using epimastigote forms of the parasite as a proxy for the clinically relevant stages, we selected the compound 7-chloro-4-[4-(4,5-dihydro-1H-imidazol-2-yl)phenoxy]quinoline (named here as A6) that performed better as an anti-T. cruzi compound (IC50 of 2.2 ± 0.3 μM) and showed a low toxicity for the mammalian cell CHO-K1 (CC50 of 137.9 ± 17.3 μM). We initially investigated the mechanism of death associated to the selected compound. The A6 did not trigger phosphatidylserine exposure or plasma membrane permeabilization. Further investigation led us to observe that under short-term incubations (until 6 hours), no alterations of mitochondrial function were observed. However, at longer incubation times (4 days), A6 was able to decrease the intracellular Ca2+, to diminish the intracellular ATP levels, and to collapse mitochondrial inner membrane potential. After analysing the cell cycle, we found as well that A6 produced an arrest in the S phase that impairs the parasite proliferation. Finally, A6 was effective against the infective forms of the parasite during the infection of the mammalian host cells at a nanomolar concentration (IC50(tryps) = 26.7 ± 3.7 nM), exhibiting a selectivity index (SI) of 5,170. Our data suggest that A6 is a promising hit against T. cruzi.
Highlights
We study in more detail the mode of action of A6, an aromatic imizoline derivative that showed a potent effect on the intracellular forms of the parasite (IC50(tryps) = 26.7 ± 3.7 nM) and a high selectivity index (SI = 5,170)
Chagas disease which is endemic from southern USA to southern Argentina and Chile is caused by Trypanosoma cruzi, which, according to the World Health Organization (WHO) about 8 million people are infected worldwide [1]
To make an initial selection of active compounds against T. cruzi among the 26 7-chloroquinoline derivatives (Fig 1A), we initially incubated the parasites in the presence of each compound at a fixed concentration of 5 μM
Summary
Chagas disease which is endemic from southern USA to southern Argentina and Chile is caused by Trypanosoma cruzi, which, according to the World Health Organization (WHO) about 8 million people are infected worldwide [1]. Relevant to this work, these parasites have one mitochondrion per cell with its DNA (approximately 30% of the total DNA in the cell) organized in a network of 20–30 maxicircles (of approximately 20 kbp) and some 20–30 thousand minicircles (of approximately 1 kbp). This DNA is a main constituent of a structure denominated kinetoplast (it is denominated kinetoplastid DNA or kDNA) which is crucial to encode some of the mitochondrial proteins responsible for the functionality of this organelle [2,3]. The most relevant are the cardiac form and the digestive form of the disease
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