In vitro evaluation of 4-phenyl-5-(4'-X-phenyl)-1,3,4-thiadiazolium-2-phenylaminide chlorides and 3[N-4'-X-phenyl]-1,2,3-oxadiazolium-5-olate derivatives on nitric oxide synthase and arginase activities of Leishmania amazonensis.

Leishmaniasis is a spectrum of infectious diseases caused by Leishmania protozoan parasites. The purpose of this study was to perform, in vitro, a comparative analysis of the activity amastigotes. Results showed excellent efficacy of all compounds against axenic amastigotes, compared to pentamidine isethionate, the reference drug used. The cytotoxic effect of these mesoionic compounds of six mesoionic compounds (three 1,3,4-thiadiazolium-2-aminide and three 1,2,3-oxadiazolium-5-olate class compounds) was evaluated in mouse peritoneal macrophages using MTT assay, low toxicity (≈ 10%) for these mammalian cells being observed. In an attempt to define a potential drug target, the activities of nitric oxide synthase (NOS) and arginase of the parasites treated with the mesoionic derivatives were evaluated. NOS was purified from a cell-free extract of infective promastigotes and axenic amastigotes and all derivatives tested were able to inhibit the enzyme as monitored by the decrease of NADPH consumption. Arginase activity from both stages of the parasite was measured using urea production and none of the compounds inhibited the enzyme activity of axenic amastigotes. However, the compounds without substituents (MI-H and SID-H) were able to inhibit arginase activity of these parasites.

Synthesis and evaluation of new difluoromethyl azoles as antileishmanial agents.

Several compounds of great pharmacological interest contain the triazole and imidazole rings. In order to find new drugs with antileishmanial activity we have synthesized and evaluated new imidazole and triazole compounds carrying either the carbaldehyde or the difluoromethylene functionalities against promastigote forms of Leishmania amazonensis. Among the compounds tested difluoromethylene azoles 4b and 8f have inhibited the parasite growth significantly. Our results show that the introduction of the difluoromethylene moieties has turned the inactive carbaldehydes into active antileishmanial compounds.

Trypanothione reductase activity is prominent in metacyclic promastigotes and axenic amastigotes of Leishmania amazonesis. Evaluation of its potential as a therapeutic target.

The activity of trypanothione reductase in Leishmania amazonensis was evaluated and it was demonstrated that TR is expressed in the soluble fractions of infective promastigotes and amastigotes, while non-infective promastigotes expressed the enzyme at basal levels. This data allows an association of enzyme activity and the infective capacity of the parasite. We have also previously demonstrated that amidine compounds (N, N'-diphenyl-4-methoxy-benzamidine and pentamidine) were active against this parasite. Here, experiments concerning the effect of these compounds on TR activity, showed that both compounds significantly inhibited the enzyme. However, against glutathione reductase, only pentamidine showed a significant inhibitory action, suggesting an association with the toxic effects of this drug used in the clinic for the treatment of leishmaniasis.

An effective diaryl derivative against Leishmania amazonensis and its influence on the parasite X macrophage interaction.

The activity of several diarylheptanoid derivatives (curcuminoids) was previously evaluated against Leishmania amazonensis promastigotes and among them the most active compound was 5-hydroxy-7- (4-hydroxy-3-methoxyphenyl)-1-(4-methoxyphenyl)-1,4,6-heptatrien-3-one. This study was carried out to investigate the influence of this diaryl derivative on the infective promastigotes and Balb/c mice peritoneal macrophage interaction. The potential in vitro toxicity was also evaluated. Promastigotes pretreated for 24 hours with the compound had their infective capacity significantly decreased. When the infection of Balb/c macrophage by L. amazonensis promastigotes was already installed, addition of the drug resulted in a diminishing of the infection rate. It was demonstrated that the compound was not toxic to the host macrophage in a concentration equivalent to the LD50/24h from the previous in vitro experiment.