Evidence for activation of nitenpyram by a mitochondrial cytochrome P450 in Drosophila melanogaster.

BACKGROUND: Nitenpyram is a member of the economically important neonicotinoid class of insecticides. The in vivo metabolism of nitenpyram is not well characterised, but cytochrome P450 activity is the major mechanism of resistance to neonicotinoids identified in insect pests, and P450s metabolise other neonicotinoids including imidacloprid. RESULTS: Here, we used the GAL4-UAS targeted expression system to direct RNA interference (RNAi) against the cytochrome P450 redox partners to interrupt P450 functions in specific tissues in Drosophila melanogaster. RNAi of the mitochondrial redox partner defective in the avoidance of repellents (dare) in the digestive tissues reduced nitenpyram mortality, suggesting an activation step in the metabolism of nitenpyram carried out by a mitochondrial P450. RNAi of the mitochondrial cytochrome P450 Cyp12a5, which is expressed in the digestive tissues, resulted in the same phenotype, and transgenic overexpression of Cyp12a5 increased nitenpyram sensitivity. CONCLUSION: These results suggest that in vivo metabolism of nitenpyram by the mitochondrial P450 CYP12A5 results in the formation of a product with higher toxicity than the parent compound. © 2018 Society of Chemical Industry.

Isolation and sequence analysis of cytochrome P450 12B1: the first mitochondrial insect P450 with homology to 1 alpha,25 dihydroxy-D3 24-hydroxylase.

The biosynthesis of steroid hormones is an integral component of insect growth, development and reproduction. Although there is an abundance of biochemical data implicating both microsomal and mitochondrial cytochrome P450s in steroid metabolism, molecular genetic information on mitochondrial P450s is almost entirely limited to vertebrate sequences. In the current study, a degenerate polymerase chain reaction (PCR) primer was targeted to the highly conserved region of P450 genes that encodes the heme-binding decapeptide. Using a 5' rapid amplification of cDNA ends (RACE) approach, seven novel cytochrome P450 genes were isolated from Drosophila acanthoptera, including one sequence (CYP12B1) with high regional homology to vertebrate mitochondrial P450s. Sequence analysis of the conceptual translation of the full length gene, obtained by 5'RACE, revealed an amphipathic NH2-terminus rich in basic and hydrophilic amino acids, a characteristic feature of mitochondrial P450s that distinguishes them from their distantly related microsomal relatives. Phylogenetically, CYP12B1 appears to be most closely related to the mammalian mitochondrial P450s of the CYP24 family that play a critical role in calcium homeostasis through the metabolism of vitamin D3. The potential biological role of CYP12B1 is discussed in the light of what is currently known about arthropod calcium binding proteins and their regulation.