Gabrielle dos Santos da Silva e Miranda scite author profile

Searching for new alternatives for treating leishmaniasis, we present the synthesis, characterization, and biological evaluation against Leishmania amazonensis of the new ZnCl2(H3)2 complex. H3 is 22-hydrazone-imidazoline-2-yl-chol-5-ene-3β-ol, a well-known bioactive molecule functioning as a sterol Δ24-sterol methyl transferase (24-SMT) inhibitor. The ZnCl2(H3)2 complex was characterized by infrared, UV-vis, molar conductance measurements, elemental analysis, mass spectrometry, and NMR experiments. The biological results showed that the free ligand H3 and ZnCl2(H3)2 significantly inhibited the growth of promastigotes and intracellular amastigotes. The IC50 values found for H3 and ZnCl2(H3)2 were 5.2 µM and 2.5 µM for promastigotes, and 543 nM and 32 nM for intracellular amastigotes, respectively. Thus, the ZnCl2(H3)2 complex proved to be seventeen times more potent than the free ligand H3 against the intracellular amastigote, the clinically relevant stage. Furthermore, cytotoxicity assays and determination of selectivity index (SI) revealed that ZnCl2(H3)2 (CC50 = 5 μΜ, SI = 156) is more selective than H3 (CC50 = 10 μΜ, SI = 20). Furthermore, as H3 is a specific inhibitor of the 24-SMT, free sterol analysis was performed. The results showed that H3 was not only able to induce depletion of endogenous parasite sterols (episterol and 5-dehydroepisterol) and their replacement by 24-desalkyl sterols (cholesta-5,7,24-trien-3β-ol and cholesta-7,24-dien-3β-ol) but also its zinc derivative resulting in a loss of cell viability. Using electron microscopy, studies on the fine ultrastructure of the parasites showed significant differences between the control cells and parasites treated with H3 and ZnCl2(H3)2. The inhibitors induced membrane wrinkle, mitochondrial injury, and abnormal chromatin condensation changes that are more intense in the cells treated with ZnCl2(H3)2.

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Use of Cell Biology to Identify Cellular Targets in Drug Development Process against Leishmania Sp.

Miranda¹,

Godinho²,

Macedo-Silva³

et al. 2022

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Leishmaniasis is one of the most important neglected tropical diseases. The chemotherapy for its treatment uses very toxic compounds with a low efficacy rate. Thus, there is an urgent need to develop new chemotherapeutic agents to help countries control this devasting disease. In drug development, different approaches can be used to identify potential cellular targets that allow us to understand better the cell biology of eukaryotic cells. Several groups are dedicated to studying new molecules, searching for promising candidates against Leishmania. Different techniques have been used to characterize the cell biology, biochemistry, and molecular biology alterations induced by the treatments, trying to understand the mechanisms of action. The main goal of this chapter is to describe an overview of the literature exploring the several studies published about the chemotherapy of anti-Leishmania concerning the mechanisms of action of different classes of molecules or therapeutic alternatives.

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Gabrielle dos Santos da Silva e Miranda

Zinc(II)-Sterol Hydrazone Complex as a Potent Anti-Leishmania Agent: Synthesis, Characterization, and Insight into Its Mechanism of Antiparasitic Action

Use of Cell Biology to Identify Cellular Targets in Drug Development Process against Leishmania Sp.

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