Antiproliferative effect of a benzofuran derivate based on the structure of amiodarone on Leishmania donovani affecting mitochondria, acidocalcisomes and intracellular Ca homeostasis.

Leishmaniasis is a parasitic disease representing an important problem of public health. Visceral leishmaniasis, resulting from infection with Leishmania donovani, causes considerable mortality and morbidity in the poorest region of the word. At present there is no current effective treatment, since the approved, drugs are expensive and are not free of undesirable side effects. Therefore, there is a need for the identification of new drugs. In this context, the parasite Ca regulatory mechanisms in which mitochondria and acidocalcisomes are involved have been postulated as important targets for several trypanocidal drugs. Thus, amiodarone and dronedarone, common human antiarrythmics, exert its known action on these parasites through the disruption of the intracellular Ca homeostasis. AMIODER is a benzofuran derivate based on the structure of amiodarone that recently demonstrates a significant effect on Trypanosoma cruzi. We now report the effect of AMIODER on Leishmania donovani demonstrating that it inhibit the growth of promastigotes and also of amastigotes inside macrophages, the clinically relevant stage of the parasite, obtaining IC values significantly lower than those reported for T. cruzi. We also show that this compound disrupted Ca homeostasis in L. donovani, through its action on two organelles involved in the intracellular Ca regulation and on the bioenergetics of the parasite. AMIODER totally collapsed the electrochemical membrane potential of the unique giant mitochondrion and simultaneously induced the alkalinization of acidocalcisomes, driving together to a large increase in the intracellular Ca concentration of the parasite as the main mechanism of action of this benzofurane derivative.