Modification of the nutritional parameters and of midgut biochemical and absorptive functions induced by the IGR fenoxycarb in Bombyx mori larvae

Fifth instar larvae of B. mori were topically or orally treated with increasing amounts of the Insect Growth Regulator (IGR) fenoxycarb in a single application, in order to determine its effects on the nutritional parameters, the midgut functional activities and the growth of the silk glands. The IGR affected in a dose-dependent manner the progress of the life cycle of the insect, causing a delay or inhibition of spinning, alteration of the feeding behaviour, decrease of the nutritional parameters, impairment of the growth of the silk glands, and an increased mortality during larval-pupal transformation. Measurement of leucine uptake into midgut brush border membrane vesicles and midgut histochemistry revealed a reduced absorption of leucine by the midgut and a large alteration of a number of midgut enzyme activities as a result of treatments with a high dose of fenoxycarb (2.5 micro g). Treatments with a dose of 2.5 femto g/larva caused an increase in leucine uptake by the midgut, an increased weight of the cocoon shell, and a modification of some midgut enzyme activities. The lepidopteran midgut appears to be a larval organ that responds promptly to the exposure to fenoxycarb. The epithelial columnar cells modify their absorptive functions, at least with regard to amino acid uptake, as well as their metabolic activity, with a modification of the oxidative status of the cells that is detectable with a single dose of the chemical as low as few fg/larva.