Nathalia Martinez-Sotillo scite author profile

There is no effective cure for Chagas disease, which is caused by infection with the arthropod-borne parasite, Trypanosoma cruzi. In the search for new drugs to treat Chagas disease, potential therapeutic targets have been identified by exploiting the differences between the mechanisms involved in intracellular Ca 2+ homeostasis, both in humans and in trypanosomatids. In the trypanosomatid, intracellular Ca 2+ regulation requires the concerted action of three intracellular organelles, the endoplasmic reticulum, the single unique mitochondrion, and the acidocalcisomes. The single unique mitochondrion and the acidocalcisomes also play central roles in parasite bioenergetics. At the parasite plasma membrane, a Ca 2+-− ATPase (PMCA) with significant differences from its human counterpart is responsible for Ca 2+ extrusion; a distinctive sphingosine-activated Ca 2+ channel controls Ca 2+ entrance to the parasite interior. Several potential anti-trypansosomatid drugs have been demonstrated to modulate one or more of these mechanisms for Ca 2+ regulation. The antiarrhythmic agent amiodarone and its derivatives have been shown to exert trypanocidal effects through the disruption of parasite Ca 2+ homeostasis. Similarly, the amiodarone-derivative dronedarone disrupts Ca 2+ homeostasis in T. cruzi epimastigotes, collapsing the mitochondrial membrane potential (Ψ m), and inducing a large increase in the intracellular Ca 2+ concentration ([Ca 2+ ] i) from this organelle and from the acidocalcisomes in the parasite cytoplasm. The same general mechanism has been demonstrated for SQ109, a new anti-tuberculosis drug with potent trypanocidal effect. Miltefosine similarly induces a large increase in the [Ca 2+ ] i acting on the sphingosine-activated Ca 2+ channel, the mitochondrion and acidocalcisomes. These examples, in conjunction with other evidence we review herein, strongly support targeting Ca 2+ homeostasis as a strategy against Chagas disease.

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SQ109 inhibits proliferation of Leishmania donovani by disruption of intracellular Ca2+ homeostasis, collapsing the mitochondrial electrochemical potential (ΔΨm) and affecting acidocalcisomes

Gil

Martinez-Sotillo

Pinto-Martinez

et al. 2020

Parasitol Res

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Antiproliferative effect of a benzofuran derivate based on the structure of amiodarone on Leishmania donovani affecting mitochondria, acidocalcisomes and intracellular Ca2+ homeostasis

Martinez-Sotillo

Pinto-Martinez

Hejchman

et al. 2019

Parasitology International

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