Characterisation of lepidopteran geranylgeranyl diphosphate synthase as a putative pesticide target

Geranylgeranyl pyrophosphate (diphosphate) synthase (GGPPS) plays an important role in various physiological processes in insects, such as isoprenoid biosynthesis and protein prenylation. Here, we functionally characterised the GGPPS from the major agricultural lepidopteran pests Spodoptera frugiper...

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Veröffentlicht in:Insect molecular biology 2024-04, Vol.33 (2), p.147-156
Hauptverfasser: Katsavou, Evangelia, Sarafoglou, Chara, Balabanidou, Vasileia, Skoufa, Evangelia, Nauen, Ralf, Linka, Marc, Geibel, Sven, Denecke, Shane, Vontas, John
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Sprache:eng
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Zusammenfassung:Geranylgeranyl pyrophosphate (diphosphate) synthase (GGPPS) plays an important role in various physiological processes in insects, such as isoprenoid biosynthesis and protein prenylation. Here, we functionally characterised the GGPPS from the major agricultural lepidopteran pests Spodoptera frugiperda and Helicoverpa armigera. Partial disruption of GGPPS by CRISPR in S. frugiperda decreased embryo hatching rate and larval survival, suggesting that this gene is essential. Functional expression in vitro of Helicoverpa armigera GGPPS in Escherichia coli revealed a catalytically active enzyme. Next, we developed and optimised an enzyme assay to screen for potential inhibitors, such as the zoledronate and the minodronate, which showed a dose‐dependent inhibition. Phylogenetic analysis of GGPPS across insects showed that GGPPS is highly conserved but also revealed several residues likely to be involved in substrate binding, which were substantially different in bee pollinator and human GGPPS. Considering the essentiality of GGPPS and its putative binding residue variability qualifies a GGPPS as a novel pesticide target. The developed assay may contribute to the identification of novel insecticide leads. Silencing of GGPPS by CRISPR in Spodoptera frugiperda confirmed its essentiality. Phylogenetic analysis of GGPPS across insects showed that it is conserved but also revealed binding residue variability. Functional expression of HaGGPPS in vitro provided an enzymatic method for screening chemicals.
ISSN:0962-1075
1365-2583
DOI:10.1111/imb.12885