Rants'o_2022_Parasitol.Int_93_102713

Reference

Title : In vitro and in silico analysis of the Anopheles anticholinesterase activity of terpenoids - Rants'o_2022_Parasitol.Int_93_102713
Author(s) : Rants'o TA , Koekemoer LL , van Zyl RL
Ref : Parasitol Int , 93 :102713 , 2022
Abstract :

Anopheles gambiae, An. coluzzii, An. arabiensis, and An. funestus are major vectors in high malaria endemic African regions. Various terpenoid classes form the main chemical constituent repository of essential oils, many of which have been shown to possess insecticidal effects against Anopheles species. The current study aimed to assess the bioactivity of terpenoids including four sesquiterpene alcohols, farnesol, (-)-alpha-bisabolol, cis-nerolidol, and trans-nerolidol; a phenylpropanoid, methyleugenol, and a monoterpene, (R)-(+)-limonene, using the larvicidal screening assay against the four Anopheles species. The mechanism of action was investigated through in vitro acetylcholinesterase inhibition assay and in silico molecular modelling. All six terpenoids showed potent larvicidal activity against the four Anopheles species. Insights into the mechanism of action revealed that the six terpenoids are strong AChE inhibitors against An. funestus and An. arabiensis, while there was a moderate inhibitory activity against An. gambiae AChE, but very weak activity against An. coluzzii. Interestingly, in the in silico study, farnesol established a favourable hydrogen bonding interaction with a conserved amino acid residue, Cys(447), at the entrance to the active site gorge. While (-)-alpha-bisabolol and methyleugenol displayed a strong interaction with the catalytic Ser(360) and adjacent amino acid residues; but sparing the mutable Gly(280) residue that confers resistance to the current anticholinesterase insecticides. As a result, this study identified farnesol, (-)-alpha-bisabolol, and methyleugenol as selective bioinsecticidal agents with potent Anopheles AChE inhibition. These terpenoids present as natural compounds for further development as anticholinesterase bioinsecticides.

PubMedSearch : Rants'o_2022_Parasitol.Int_93_102713
PubMedID: 36455706

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Citations formats

Rants'o TA, Koekemoer LL, van Zyl RL (2022)
In vitro and in silico analysis of the Anopheles anticholinesterase activity of terpenoids
Parasitol Int 93 :102713

Rants'o TA, Koekemoer LL, van Zyl RL (2022)
Parasitol Int 93 :102713