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Caterpillars Detoxify Diterpenoid from <i>Nepeta stewartiana</i> by the Molting Hormone Gene <i>CYP306A1</i>

Jiayi Liu, Juan Hua, Yangyang Wang, Xuanyue Guo, Shi‐Hong Luo

2023Journal of Agricultural and Food Chemistry13 citationsDOI

Abstract

Herbivorous insects are well known for detoxifying a broad range of the defense compounds produced by the plants that they feed on, but knowledge of the mechanisms of detoxification is still very limited. Here, we describe a system in which two species of lepidopteran caterpillars metabolize an abietane diterpene from the plants of Nepeta stewartiana Diels to an oxygenated derivative that is less active biologically. We found that this transformation could be catalyzed by a cytochrome P450 enzyme in caterpillars, which are associated with molting. Most interestingly, abietane diterpene targets the molting-associated gene CYP306A1 to alter the content of molting hormones in the insect at specific developmental stages and competitively inhibit molting hormone metabolism. These findings identify the mechanism by which caterpillars are able to detoxify abietane diterpenoid through hydroxylation at the C-19 position, which may be opening up exciting research questions into the mechanisms of interaction between plants and insects.

Topics & Concepts

AbietaneDiterpeneEcdysoneTerpenoidMoultingBiologyCytochrome P450HydroxylationBiochemistryMetabolismBotanyHormoneEnzymeLarvaInsect and Pesticide ResearchInsect-Plant Interactions and ControlPlant biochemistry and biosynthesis
Caterpillars Detoxify Diterpenoid from <i>Nepeta stewartiana</i> by the Molting Hormone Gene <i>CYP306A1</i> | Litcius