Pharmacology of the octopamine receptor from locust central nervous tissue (OAR3)

Abstract

1 The present study characterized highly effective agonists from different classes of compounds for the neuronal octopamine receptor (OAR₃) of the migratory locust (Locusta migratoria L.). Biogenic amines and phenyliminoimidazolidines (PIIs) were employed for the study of structure-activity relationships. 2 The highest affinity PIIs were predominantly those with substitutions at the positions 2 and 4 of the phenolic ring (e.g. NC 7, K_I = 0.3 nm, NC 8, K_I = 0.81 nm). Substitutions at these positions always had positive effects on the affinity of the respective agonists. 3 Substitutions at the positions 3, 5 and 6, however, always had negative effects on the affinity. At the position one of the phenolic ring, heterocyclic substituents are preferred. 4 Some PIIs had a more than 30 times higher affinity for OARs than for α-adrenoceptors which are the vertebrate homologues of the insect octopamine receptors. 5 The only non-PII with subnanomolar affinity was the aminooxazoline derivative AC 6 (K_I = 0.92 nm). 6 A variety of substances with known insecticidal activity such as chlordimeform, demethylchlor-dimeform, amitraz or AC 6 had high affinity for the locust neuronal octopamine receptor.