Abstract
BackgroundIn order to develop new larvicidal agents derived from phytochemicals, the larvicidal activity of fifty molecules that are constituent of essential oils was evaluated against Culex quinquefasciatus Say. Terpenes, terpenoids and phenylpropanoids molecules were included in the in vitro evaluation, and QSAR models using genetic algorithms were built to identify molecular and structural properties of biological interest. Further, to obtain structural details on the possible mechanism of action, selected compounds were submitted to docking studies on sterol carrier protein-2 (SCP-2) as possible target.ResultsResults showed high larvicidal activity of carvacrol and thymol on the third and fourth larval stage with a median lethal concentration (LC50) of 5.5 and 11.1 µg/mL respectively. Myrcene and carvacrol were highly toxic for pupae, with LC50 values of 31.8 and 53.2 µg/mL. Structure–activity models showed that the structural property π-bonds is the largest contributor of larvicidal activity while ketone groups should be avoided. Similarly, property–activity models attributed to the molecular descriptor LogP the most contribution to larvicidal activity, followed by the absolute total charge (Qtot) and molar refractivity (AMR). The models were statistically significant; thus the information contributes to the design of new larvicidal agents. Docking studies show that all molecules tested have the ability to interact with the SCP-2 protein, wherein α-humulene and β-caryophyllene were the compounds with higher binding energy.ConclusionsThe description of the molecular properties and the structural characteristics responsible for larvicidal activity of the tested compounds were used for the development of mathematical models of structure–activity relationship. The identification of molecular and structural descriptors, as well as studies of molecular docking on the SCP-2 protein, provide insight on the mechanism of action of the active molecules, and the information can be used for the design of new structures for synthesis as potential new larvicidal agents.
Highlights
More than half of the global human population is exposed to the risk of infection spread by mosquitoes; including Culex spp., Anopheles spp. and Aedes spp. that are considered a public health problem, sin are vectors of pathogenic parasites
Culex quinquefasciatus is present in most tropical regions of the world; it is commonly found in many urban areas and has been reported as resistant to registered insecticides [2]
100% of the larvae remained active in the negative control; dimethyl sulfoxide (DMSO) larvicidal activity was determined, and concentration of 1000 μg/mL had no larvicidal effect; larvicidal activity can be attributed entirely to the compounds, and not the solvent used
Summary
More than half of the global human population is exposed to the risk of infection spread by mosquitoes; including Culex spp., Anopheles spp. and Aedes spp. that are considered a public health problem, sin are vectors of pathogenic parasites. Prolonged use of these synthetic pesticides has caused numerous problems, such as the development of resistance [4], undesirable effects on non-target organisms, effects on wildlife, damage to human health and other negative impacts on the environment [5,6,7]. Several studies have searched for natural products derived from plants as possible mosquito control environmentallyfriendly strategy; reports include the larvicidal action of essential oils (EOs) and their constituents [8, 9]. In order to develop new larvicidal agents derived from phytochemicals, the larvicidal activity of fifty molecules that are constituent of essential oils was evaluated against Culex quinquefasciatus Say. Terpenes, terpenoids and phenylpropanoids molecules were included in the in vitro evaluation, and QSAR models using genetic algorithms were built to identify molecular and structural properties of biological interest. To obtain structural details on the possible mechanism of action, selected compounds were submitted to docking studies on sterol carrier protein-2 (SCP-2) as possible target
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