Activities of hormone metabolizing enzymes in house flies treated with some substituted urea growth regulators

Abstract

The insect growth regulators (IGR) TH 6038 and TH 6040 affect larvae of various species by interfering with cuticle development. In a biochemical study of their effects, larvae of the house fly, Musca domestica L. were reared for 2 days on diets containing 1.7 to 166.7 ppm of these compounds, then assayed for activities of the microsomal oxidases and the enzyme(s) which metabolize β-ecdysone. The activities of these enzymes were compared with the percentage of treated larvae completing pupal-adult ecdysis. The two compounds reduced the activity of the β-ecdysone metabolizing enzyme(s) by as much as 57%, reduced pupal-adult ecdysis by 43% to 100%, and stimulated microsomal oxidase activity 4- to 12-fold. Supplementation of the diet of the treated insects with the Cecropia juvenile hormone, JH I, partially restored pupal-adult ecdysis but supplementation with β-ecdysone had no effect. The mode of action indicated by these results is that the IGRs cause an accumulation of β-ecdysone in the treated larvae. This stimulates the enzyme, chitinase, which degrades chitin in preparation for formation of the new cuticle. The hormone may also cause a JH deficiency and the stimulation of DOPA decarboxylase and phenol oxidase which would further disrupt the normal molting process.