The effects of DOPA decarboxylase inhibitors on the permeability and ultrastructure of the larval cuticle of the Australian sheep blowfly, Lucilia cuprina

Abstract

Larvae of Lucilia cuprina, fed toxic levels of α-methyl DOPA (or other DOPA decarboxylase inhibitors) during the first or second instar, die at the completion of the next moult, soon after exposing their new cuticles. In electron micrographs of newly synthesised cuticle from these treated larvae, the ultrastructure of the lipid-rich outer epicuticle layer appears to be abnormal. This newly formed cuticle of the treated larvae is apparently defective in its role as a water permeability barrier (compared with that of normal larvae), since it permits the free movement of water in both directions. Thus, treated larvae die most probably as a direct result of dehydration. Larvae fed toxic levels of α-methyl DOPA can be rescued from death by simultaneously adding N-acetyldopamine (the cuticular sclerotizing agent) to the food. The rescued larvae are apparently normal in all respects. This suggests that sclerotization is required for the formation of a normal outer epicuticle. Diflubenzuron, which is known to inhibit chitin deposition in the cuticles of a number of different species of insect, also apparently affects chitin deposition in the larval cuticle of L. cuprina. Thus, in electron micrographs of cuticle from larvae fed toxic levels of diflubenzuron the ultrastructure of the chitin-containing endocuticle layer appears to be abnormal.