Metabolism of Stored Reserves in Insect Fat Body: Hormonal Signal Transduction Implicated in Glycogen Mobilization and Biosynthesis of the Lipophorin System*

The mobilization of carbohydrate and lipid reserves from the insect fat body as fuels for migratory flight activity is controlled by adipokinetic hormone (AKH), of which in Locusta migratoria three different forms occur: AKH-I, -II and -III. In fat body in vitro, each AKH is capable of activating glycogen phosphorylase and of stimulating cAMP production, but only in the presence of extracellular Ca²⁺. The hormones stimulate both the influx and the efflux of Ca²⁺, the higher influx probably causing an increase in intracellular Ca²⁺]. AKH enhances the production of inositol phosphates among which inositol 1,4,5-triphosphate may mediate the mobilization of Ca²⁺ from intracellular stores. Evidence is presented in favor of the occurrence of a capacitative calcium entry mechanism. Results suggest that transduction of the AKH signal occurs through stimulatory G protein-coupled receptor(s). A tentative model is presented for the interactions between the AKH signaling pathways in the locust fat body cell. AKH-induced lipid mobilization during flight requires the presence in the insect blood of high-density lipophorin (HDLp) particles and apolipophorin III (apoLp-III). Both protein components are synthesized in the fat body. In the locust, the two integral, nonexchangeable HDLp apolipophorins (apoLp-I and -II) were shown to originate from a common precursor; an mRNA of 10.3 kb seems to code for this precursor protein. The models proposed for lipophorin assembly and secretion in a number of insects are not in agreement. The exchangeable apoLp-III may occur in two or more isoforms; locust apoLp-III is secreted from the fat body as one of the two isoforms and in the hemolymph converted into the truncated second one. The rationale for this process is as yet unknown.