Insect Nicotinic Acetylcholine Receptor: Conserved Neonicotinoid Specificity of [3H]Imidacloprid Binding Site

Abstract

The insect nicotinic acetylcholine receptor (nAChR) is a major target for insecticide action. The rapidly expanding use of neonicotinoid insecticides of varied structures makes it increasingly important to define similarities and differences in their action, particularly for the first‐generation chloropyridinyl compounds versus the second‐generation chlorothiazolyl derivatives. We have shown with Musca domestica that a convenient and relevant determination of the neonicotinoid insecticide target is a binding site assay with [³H]imidacloprid ([³H]IMI). This study uses membranes from the aphids Myzus persicae and Aphis craccivora and from heads of the flies Drosophila melanogaster and Musca domestica to characterize the [³H]IMI binding sites relative to their number and possible species variation in structure‐activity relationships. With emphasis on commercial neonicotinoids, six potent chloropyridinyl compounds are compared with the corresponding six chlorothiazolyl analogues (syntheses are given for chemicals prepared differently than previously described). The preference for chloropyridinyl versus chlorothiazolyl is not dependent on the insect species examined but instead on other structural features of the molecule. The chlorothiazolyl substituent generally confers higher potency in the clothianidin and desmethylthiamethoxam series and the chloropyridinyl moiety in the imidacloprid, thiacloprid, acetamiprid, and nitenpyram series. Two chlorothiazolyl compounds compete directly with the chloropyridinyl [³H]IMI for the same binding sites in Myzus and Drosophila membranes. This study shows conserved neonicotinoid specificity of the [³H]IMI binding site in each of the four insect species examined.