Abstract
BackgroundThe in vitro activity of the brown seaweed Dictyota spiralis against both Leishmania amazonensis and Trypanosoma cruzi was evaluated in a previous study. Processing by bio-guided fractionation resulted in the isolation of three active compounds, classified as diterpenes. In the present study, we performed several assays to detect clinical features associated to cell death in L. amazonensis and T. cruzi with the aim to elucidate the mechanism of action of these compounds on parasitic cells.MethodsThe aims of the experiments were to detect and evaluate specific events involved in apoptosis-like cell death in the kinetoplastid, including DNA condensation, accumulation of reactive oxygen species and changes in ATP concentration, cell permeability and mitochondrial membrane potential, respectively, in treated cells.ResultsThe results demonstrated that the three isolated diterpenes could inhibit the tested parasites by inducing an apoptosis-like cell death.ConclusionsThese results encourage further investigation on the isolated compounds as potential drug candidates against both L. amazonensis and T. cruzi.Graphical
Highlights
The in vitro activity of the brown seaweed Dictyota spiralis against both Leishmania amazonensis and Trypanosoma cruzi was evaluated in a previous study
Kinetoplastid parasites are responsible for a wide variety of infectious diseases, including Leishmania spp. and Trypanosoma spp., which are causative agents of tropical diseases classified as neglected by the World Health Organization
Leishmanicidal assays were performed to determinate the IC50 of the three diterpenes under study against both the amastigote and promastigote stages of L. amazonensis
Summary
The in vitro activity of the brown seaweed Dictyota spiralis against both Leishmania amazonensis and Trypanosoma cruzi was evaluated in a previous study. Kinetoplastid parasites are responsible for a wide variety of infectious diseases, including Leishmania spp. and Trypanosoma spp., which are causative agents of tropical diseases classified as neglected by the World Health Organization. These diseases affect mainly countries with limited resources. The appearance of resistance to existing treatments as well as the side effects of these treatments motivate the search for new molecules as therapeutic alternatives [1, 2] Terpenes are secondary metabolites with two or more five-carbon units of isopentenyl [4] This class of molecules has been identified as being biologically active, with a proven efficiency as anticancer, antioxidant, anti-inflammatory and antimicrobial properties.
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