Pest Management Science (2020) 76, 3541-3550

Lixian Wu, Zhan-Feng Zhang, Zhitao Yu, Rongrong Yu, Enbo Ma, Yong-Liang Fan, Tong-Xian Liu, René Feyereisen, Kun Yan Zhu and Jianzhen Zhang (2020)
Both LmCYP4G genes function in decreasing cuticular penetration of insecticides in Locusta migratoria
Pest Management Science 76 (11), 3541-3550
Abstract:
BACKGROUND
Cuticular hydrocarbons (CHCs) have a critical role in preventing desiccation and penetration of xenobiotics in insects. Previous studies have shown that cytochrome P450 subfamily 4G (CYP4G) enzymes are oxidative decarbonylases, essential for CHC biosynthesis. However, it is unclear whether there are functional differences between the two CYP4G genes in most insects. In Locusta migratoria, we identified two CYP4G genes (LmCYP4G62 and LmCYP4G102). LmCYP4G102 plays a critical role in the synthesis of CHCs, but the function of LmCYP4G62 is unknown.
RESULTS
We identified, characterized, and compared two LmCYP4G genes, based on L. migratoria transcriptomic and genomic databases. RT-qPCR showed that both were highly expressed in tissues with which oenocytes are associated, the integument and fat body. Immunostaining indicated that LmCYP4G62 and LmCYP4G102 were highly abundant in oenocytes in these tissues. However, the two enzymes had a different subcellular distribution, with LmCYP4G62 localized on the plasma membrane and LmCYP4G102 dispersed throughout the oenocyte cytoplasm, presumably on the endoplasmic reticulum. RNA interference-mediated gene silencing against each of the two genes resulted in reduced CHC contents, in all classes for LmCYP4G102, but mostly shorter chain CHCs for LmCYP4G62. Silencing of both genes resulted in increased insecticide penetration through the cuticle, and increased locust susceptibility to desiccation and insecticides.
CONCLUSION
Our studies suggest that both LmCYP4G62 and LmCYP4G102 contribute to hydrocarbon biosynthesis and play key roles in protecting locusts from water loss and insecticide penetration, but they are not fully redundant. Further, the two LmCYP4G genes might be used as new targets for insect pest management.
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Link to article at publishers website
Database assignments for author(s): En-Bo Ma, Kun Yan Zhu

Research topic(s) for pests/diseases/weeds:
pesticide resistance of pest

Pest and/or beneficial records: