Infusions of Aspidosperma nitidum (Apocynaceae) wood bark are used
to treat fever and malaria in the Amazon Region. Several species of this family are
known to possess indole alkaloids and other classes of secondary metabolites, whereas
terpenoids, an inositol and the indole alkaloids harmane-3 acid and braznitidumine
have been described in A. nitidum . In the present study, extracts
from the wood bark, leaves and branches of this species were prepared for assays
against malaria parasites and cytotoxicity testing using human hepatoma and normal
monkey kidney cells. The wood bark extracts were active against Plasmodium
falciparum and showed a low cytotoxicity in vitro, whereas the leaf and
branch extracts and the pure alkaloid braznitidumine were inactive. A crude methanol
extract was subjected to acid-base fractionation aimed at obtaining alkaloid-rich
fractions, which were active at low concentrations against P.
falciparum and in mice infected with and sensitive Plasmodium
berghei parasites. Our data validate the antimalarial usefulness of
A. nitidum wood bark, a remedy that can most likely help to
control malaria. However, the molecules responsible for this antimalarial activity
have not yet been identified. Considering their high selectivity index, the
alkaloid-rich fractions from the plant bark might be useful in the development of new
antimalarials.
BackgroundThe anti-malarials quinine and artemisinin were isolated from traditionally used plants (Cinchona spp. and Artemisia annua, respectively). The synthetic quinoline anti-malarials (e.g. chloroquine) and semi-synthetic artemisinin derivatives (e.g. artesunate) were developed based on these natural products. Malaria is endemic to the Amazon region where Plasmodium falciparum and Plasmodium vivax drug-resistance is of concern. There is an urgent need for new anti-malarials. Traditionally used Amazonian plants may provide new treatments for drug-resistant P. vivax and P. falciparum. Herein, the in vitro and in vivo antiplasmodial activity and cytotoxicity of medicinal plant extracts were investigated.MethodsSixty-nine extracts from 11 plant species were prepared and screened for in vitro activity against P. falciparum K1 strain and for cytotoxicity against human fibroblasts and two melanoma cell lines. Median inhibitory concentrations (IC50) were established against chloroquine-resistant P. falciparum W2 clone using monoclonal anti-HRPII (histidine-rich protein II) antibodies in an enzyme-linked immunosorbent assay. Extracts were evaluated for toxicity against murine macrophages (IC50) and selectivity indices (SI) were determined. Three extracts were also evaluated orally in Plasmodium berghei-infected mice.ResultsHigh in vitro antiplasmodial activity (IC50 = 6.4–9.9 µg/mL) was observed for Andropogon leucostachyus aerial part methanol extracts, Croton cajucara red variety leaf chloroform extracts, Miconia nervosa leaf methanol extracts, and Xylopia amazonica leaf chloroform and branch ethanol extracts. Paullinia cupana branch chloroform extracts and Croton cajucara red variety leaf ethanol extracts were toxic to fibroblasts and or melanoma cells. Xylopia amazonica branch ethanol extracts and Zanthoxylum djalma-batistae branch chloroform extracts were toxic to macrophages (IC50 = 6.9 and 24.7 µg/mL, respectively). Andropogon leucostachyus extracts were the most selective (SI >28.2) and the most active in vivo (at doses of 250 mg/kg, 71 % suppression of P. berghei parasitaemia versus untreated controls).ConclusionsEthnobotanical or ethnopharmacological reports describe the anti-malarial use of these plants or the antiplasmodial activity of congeneric species. No antiplasmodial activity has been demonstrated previously for the extracts of these plants. Seven plants exhibit in vivo and or in vitro anti-malarial potential. Future work should aim to discover the anti-malarial substances present.
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