Abstract
Azadirachtin-A (AzaA) from the Indian neem tree (Azadirachta indica) has insecticidal properties; however, its molecular mechanism remains elusive. The “targeted and nontargeted proteomic profiling”, metabolomics, matrix-assisted laser desorption/ionization time of flight (MALDI-TOF) imaging, gene expression, and in silico analysis provided clues about its action on Helicoverpa armigera. Fourth instar H. armigera larvae fed on AzaA-based diet (AzaD) suffered from significant mortality, growth retardation, reduced larval mass, complications in molting, and prolonged development. Furthermore, death of AzaD-fed larvae was observed with various phenotypes like bursting, blackening, and half-molting. Liquid chromatography–mass spectrometry (LC–MS) data showed limited catabolic processing of ingested AzaA and dramatic alternations of primary metabolism in H. armigera. MALDI-TOF imaging indicated the presence of AzaA in midgut of H. armigera. In the gut, out of 79 proteins identified, 34 were upregulated, which were related to digestion, immunity, energy production, and apoptosis mechanism. On the other hand, 45 proteins were downregulated, including those from carbohydrate metabolism, lipid metabolism, and energy transfer. In the hemolymph, 21 upregulated proteins were reported to be involved in immunity, RNA processing, and mRNA-directed protein synthesis, while 7 downregulated proteins were implicated in energy transfer, hydrolysis, lipid metabolism, defense mechanisms, and amino acid storage-related functions. Subsequently, six target proteins were identified using labeled AzaA that interacted with whole insect proteins. In silico analysis suggests that AzaA could be efficiently accommodated in the hydrophobic pocket of juvenile hormone esterase and showed strong interaction with active site residues, indicating plausible targets of AzaA in H. armigera. Quantitative polymerase chain reaction analysis suggested differential gene expression patterns and partly corroborated the proteomic results. Overall, data suggest that AzaA generally targets more than one protein in H. armigera and hence could be a potent biopesticide.
Highlights
The neem tree (Azadirachta indica) has long been recognized for its unique properties, both against insects and in improving human health.[1,2] Azadirachtin-A (AzaA) is a well-known tetranortriterpenoid limonoid phytochemical and natural pesticide molecule.[3−5] It is present in seed, leaves, and other parts of the neem tree
To evaluate the effect of AzaA, our observations of larvae fed on AzaAbased diet (AzaD) showed a variety of diverse phenotypes, including bursting of the whole insect, molting arrest, and many others (Figure 1A)
We investigated the localization of AzaA in the midgut of H. armigera by axial MALDI-TOF imaging of insect cross sections with a 2,5-dihydroxybenzoic acid (DHB) matrix that provided a uniform deposition of a matrix ion
Summary
The neem tree (Azadirachta indica) has long been recognized for its unique properties, both against insects and in improving human health.[1,2] Azadirachtin-A (AzaA) is a well-known tetranortriterpenoid limonoid phytochemical and natural pesticide molecule.[3−5] It is present in seed, leaves, and other parts of the neem tree. It is known as a feeding deterrent and a strong growth disruptant for many arthropods. There is an implicit assumption that AzaA strongly influences insect
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